ML101310394
| ML101310394 | |
| Person / Time | |
|---|---|
| Site: | Palo Verde  |
| Issue date: | 04/30/2010 |
| From: | Weber T Arizona Public Service Co |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| 102-06183-TNW/RJR | |
| Download: ML101310394 (53) | |
Text
Technical Specification 5.6.8 LAM$
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 102-06183-TNW/RJR April 30, 2010 ATTN: Document Control Desk U. S. Nuclear Regulatory Commission Washington, DC 20555-0001
Subject:
Palo Verde Nuclear Generating Station (PVNGS) Unit 2 Docket No. STN 50-529 License No. NPF-51 Steam Generator Tube Inspection Report Attached please find the PVNGS Unit 2 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 2 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, TNW/RAS/RJR/gat Attachment cc:
(with attachment)
E. E. Collins Jr.
NRC Region IV Regional Administrator J. R. Hall NRC NRR Project Manager L. K. Gibson NRC NRR Project Manager R. I. Treadway NRC Senior Resident Inspector for PVNGS A member of the STARS (Strategic Teaming and Resource Sharing) Alliance AzC)I Callaway 9 Comanche Peak
- Diablo Canyon e Palo Verde 0 San Onofre 0 South Texas 0 Wolf Creek L F!( I
Attachment Unit 2 - 1 5 th Refueling Outage Steam Generator Tube Inspection Report
Palo Verde Nudear Generuing Station UNIT2 U2R15 ARIZONA PUBLIC SERVICE P. O. BOX 52034 PHOENIX, AZ 85072 Hansen, DoutglasB H
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,lI am the author of this Prepared by: Douglas B Hansf41530Q 4 nat.: 200.04.415 0:Qtq. 11-5-09 t~ ~~1 Lo"'
2010rWae LV973 Leaverton, yano Reviewedby:
Warren L(V59783)a,*A
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Date: 21.N.................
Date:
Powlikosky, Michael D
-aZ.zo~zo Approved by{Z75655)
DLM 0..E nt0 Report Date:
Commercial Service Date: 9-19-86 I
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 21
SUMMARY
DATA SHEETS APPENDIX C - SG 22
SUMMARY
DATA SHEETS APPENDIX D - PLI and PLP DATA SHEETS APPENDIX E - PLUG MAPS APPENDIX F - FORM NIS - 1 2
UNIT 2 STEAM GENERATOR EDDY CURRENT 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 2 (U2Rl15) was conducted during October 2009.
Mode 4 entry of Unit 2 Cycle 16 was entered on November 25, 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 fourth examination performed in Unit 2 following steam generator replacement in U2Rl1.
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 10 tubes being plugged in SG 21, and 4 tubes being plugged in SG 22. 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 U2R15 Steam Generator Degradation Assessment" (Westinghouse document SG-SGMP-09-12, dated September, 2009) developed per PVNGS Procedure 8lDP-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 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.
31
4.0 NDE Techniques Utilized The following table documents the site qualified techniques utilized during this outage:
BOBBINExa p -
p -
p Damage Mechanism Location ETSS NO QUAL STATUS BC DET SIZE TECH 6-2007 Wear Loose Part 27091.2 SITE NA Y
N Volt DIFF None Rev. 0 QUALIFIED 8-2007 Rotating Coil Examinations DamaeETSS QUAL, OTC TO.
R RC Comment Damge Location '
ORIEN TATION "TECH Mechanism NO STATUS DET SIZE TECH 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 0.540" 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-9RCO1, 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 service induced 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 a listing of the possible loose part (PLP) indications that were confirmed with rotating coil examinations. Note Section 8.0 for further discussion on the PLPs.
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 14 tubes 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-9RC01, a condition monitoring evaluation was conducted by PVNGS Engineering (reference DFWOs 3184918 and 3184919). 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 2 Cycle 15. 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. Note that this was the only secondary side inspection performed this outage. 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 of SG21, since a sludge lancing was performed in this SG during U2R14.
A fair amount of sludge was observed in the tubesheet annulus region of SG22, since a sludge lancing was not performed in this SG during U2R14.
On the cold leg side of SG21, a sludge rock was found in the vicinity of tubes R39C4 and R40C4 and was removed. Also on the cold leg side of SG21, one sludge rock was identified between tubes R169C100 and R170C101 and could not be removed when contacted. It was wedged between the tubes. (Note-sludge rocks have never caused SG tube wear, however Engineering identifies them and removes them when accessible).
On the cold leg side of SG22 in the vicinity of the 90 degree hand hole, a sludge rock was found and removed. Also on the cold leg side of SG22, one sludge rock was identified between tubes R170C93 and R171C94 and could not be removed when contacted. It was wedged between the tubes.
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 U2R15 eddy current examinations identified 18 potential loose part (PLP) locations in Steam Generator 21. 16 of the PLP calls in SG21 were observed in the previous inspection (U2R14) with continued no evidence of wear (R86C15, R87C16, R38C79, R39C80, R157C142, R143C150, R142C151, R144C151, R143C152, R145C152, R144C153, R146C153, R145C154, R144C155, R143C156, and R145C156). Two (2) of the PLP calls in SG21 are new (R55C6 and R56C7) with no evidence of wear. These are discussed in the paragraph below.
A strong eddy current indication that was consistent with carbon steel material was detected on a periphery tube (R55C6) in the freespan above 08C. In this location a bounding inspection with plus point probe was completed to evaluate the presence, extent and potential significance of the loose part and the potential challenges to tube integrity. No wear was identified for the PLP and its presence was only observed in one adjacent tube (R56C7). Engineering and ISI reviewed the information to determine the likely source of the signal. The ECT signal compared well with a similar signal that was observed during the preservice inspection and during U2R13. In the U2R13 Condition Monitoring Evaluation, it was determined that the signal corresponded to an eggcrate wedge, which had migrated down from partial eggcrate 09C. The evaluation postulated that, in its current position, the eggcrate wedge is unlikely to be affected by the largely vertical flow and that the most likely migration scenario would be for the part to fall to the 08C eggcrate, where again, high wear is unlikely due to the weight and local flow profile. It appears that this migration which was predicted in the U2R13 CME has occurred. As a conservative measure, PVNGS elected to "cage" the loose part by preventatively plugging and staking two tubes in the vicinity of the loose part this location (tubes R55C6 and R56C7).
During U2R1 5 eddy current examinations also identified 11 potential loose part (PLP) locations in Steam Generator 22, all of which were observed in the previous inspection (U2R14) with continued no evidence of wear (R17C62, R19C62, R170C93, R171C94, R53C104, R52C105, R34C125, R36C125, R35C126, R8C199, and R7C200).
PVNGS has historically taken the position 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. Per the PVNGS SG Program, trending of these locations will continue in future outages.
Finally, PVNGS Procedure 81DP-9RC01 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 U2R15 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
SCOPE DESCRIPTION SG 21 SG 22 Exam Description Extents Scope Scope COLD LEG TEC-VS3 12186 12175 BOBBIN HOT LEG TEH-VS3 12186 12175 BOBBIN COLD STRAIGHT SECTION TEC-08C 278 278 BOBBIN
- HOT STRAIGHT SECTION TEH-08H 278 278 BOBBIN
- ROW I THRU 4 SHORT 08C-08H 278 278 RADIUS U-BENDS *
- HOT STRAIGHT VARIOUS 27 25 RC
- HOT U & SQUARE BEND VARIOUS 186 257 RC
- COLD STRAIGHT VARIOUS 54 75 RC
- COLD U & SQUARE BEND VARIOUS 87 168 RC Notes:
- 1.
- RC examinations lwereperfofmed onRow examination.
- 2.
- These. RC examinationscwere prf6rmed t 7
DAMAGE MECHANISM STEAM GENERATOR 21 STEAM GENERATOR 22 WEAR 0%-19%
232 390 20%-29%
9 27 30%-39%
9 0
. >40%
1 1
PLUGGED (3)
(2)
Possible Loose Parts (RC)
PLI 0
0 PLP
- 18.
11 PLUGGED (2)
(0)
Volumetric Indications SVI/MVI 0
- 1 PLUGGED (0)
(0)
PREVENTATIVE (5)*
(2)*
PLUGGED (10)
(4)
TOTALPLUGGED/%
(126 / 1.0%)
(131 / 1.0%)
,NOTES, 1:'. Numberg in (X) are tues 'numbers plugg..ed in ea~hclitegory
- 2. The above represent the numbers ofibes: not indic*tions
... 3 the preventativeplugs were required in the CCAper tlheSG Prgr 8
APPENDIX A TUBE SUPPORT DIAGRAM, LEGEND, and ANALYSIS CODES 9
PVNGS Steam Generator REPLACEMENTS 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
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...........................
VS1
- 1 Batwing.................
BW1
- 1 Support Plate in Hot Leg......
01H
- 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
Analysis CODES:
Absolute Drift....................................................................
ADI B u lge............................................................... *.................. B L G Dented Buff M ark.............................................................
DBM D ep o sit...............................................................................
D E P D ent....................................................................................
D N T Data Quality Acceptance....................................................
DQA Distorted Support Signal W ith Indication..........................
DSI Distorted Top of Tubesheet W ith 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 Volumetric Indication...................
..... VOL 12
APPENDIX B STEAM GENERATOR 21
SUMMARY
DATA SHEETS 13 i
Palo Verde 2 U2R15 PVNGS2 20091001 10126/2009 22:20:55
+....
÷....
+.........
+....
÷....
÷...
÷....
+..
÷
÷.......
+
+....
÷ PD IA÷
" +.
+ -- ÷ ---
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT RDAPTYPE CAL L COMI
+....
÷....
+.
+....
+....
÷
+..
. ÷....
+.....
+..
÷....
÷....
+
4-......
-- ÷ - --
45 67 67 74 103 103 35 35 87 46 37 73 12 26 28 35 45 45 59 116 116 116 89 89 so 36 90 45 45 44 44 37 37 39 45 159 159 58 58 4
36 58 14
.25 92 PCT 20
.37 145 PCT 20
.68 101 PCT 21
.28 49 PCT 22
.34 151 PCT 22
.96 89 PCT 24
.34 77 PCT 24
ý79 82 PCT 30
.31 97 PCT 35
.30 93 PCT 38
.40 88 PCT 38
.33 110 PCT 41
- 29 85 PCT 41
.26 147 PCT 41
ý24 117 PCT 44
.25 159 PCT 4-4
.30 63 PCT 44
.63 81 PCT 44
.21 138 PCT 53
.20 81 PCT 55
.29 92 PCT 55
.93 89 PCT 60
.2G 34 PCT 65
.20 71 PCT 65
.27 165 PCT 66
.33 95 PCT 66
ý55 98 PCT 67
.22 144 PCT 67
.69 88 PCT 68
ý19 137 PCT 68
.79 108 PCT 68
P2 BW2 11 P2 BW2 13 P3 BW2 9
P2 BW2 9
P2 10C 17 P3 10C 10 P2 BW2 14 P3 BW2 10 P2 BWZ 9
P2 VS3 12 P2 BW2 10 P2 BW2 8
P2 08C 9
P2 BW1 8
P2 BW1 8
P2 VS3 9
P2 BW2 12 P3 BW2 6
P2 BW2 a
P2 VS2 9
P2 VS3 16 P3 VS3 11 P2 VS2 17 P3 VS2 6
P2 BW2 7
P2 VS3 9
P2 VS3 10 P2 BW2 11 P3 BW2 8
P2 VS3 12 P3 VS3 7
P2 BW1 14 P3 BW1 8
P2 VS3 6
P2 08H
-. 94
.72
. 67
-. 89
.77
.77
-. 92
-. 70
- 94
. 68
-. 77
-. 90
-.96
. 74
. 58
. 74
-. 69
-. 87
.80
.86
.70
.71
.68
- 68
-. 77
-. 48
. 28
-. 74
-.88
. 76
.75
-1.00
-. 78
-. 69
- 76
.78 1.07
.81
.81
-. 74
.70
.55 VS3 TEC
.610 NBAZC 7
CI II VS3 TEC
.610 NBAZC 7
CI 1
.17 08C VS4
.580 NPUFZ 63 ClDQAI VS3 EC 610 BAZ 9
I VS3 TEC
.610 NBAZC 9 C I
.56 10C 10C
.600 ZPAHZ 60 C
I VS3 TEC
ý610 NBAZC a Cl
.13 07C VS3
.580 NPUFZ 61 CIDQAI VS3 TEC
.610 NBAZC 9
C I
VS3 TEC
.610 NBAZC 5
C I
VS3 TEC
-610 NBAZC 5
Cl I
VS3 TEC
.610 NBAZC 9
C I
VS3 TEC
.610 NBAZC 46 C
I VS3 TEN
.610 NBAZC 31 HiI VS3 TEN
.610 NBAZC 31 HlI VS3 TEN
.610 NBAZC 31 HlI VS3 TEC
.610 NBAZC 6
Cl
.28 07C VS3
.580 NPUFZ 61 ClDQAI VS3 TEC
.610 NBAZC 12 Cl I
VS3 EH
.10 BAZC 26 I
VS3 TEN
.610 NBAZC 26 HI I
.41 S3 S3
.80 PUFZ 66 I
VS3 TEN
.610 NBAZC 25 HI
.41 VS2 VS3
.580 NPUFZ 66 HI I
VS3 TEN
.610 NBAZC 26 HC
.54 V7C VS3
.580 NPUFZ 66 HCIDA VS3 TEC
.610 NBAZC 14 ClI" VS3 TEC
.610 NBAZC 3 ClI
,26 7H S3
.80 PUFZ 66 I
VS3 TEC
.610 NBAZC 13 C I
VS3 TH
.60 NBAC 2
I VS3 TEC
.610 NBAZC 38 Cl
.22 07C VS3
.580 NPUFZ 61 ClD~
VS3 TEN
-610 NBAZC 46 Hl 1
.28 083 VS3
.580 NPUFZ 66 HI VS3 TEN
-610 NBAZC:
2 HC VS3 TEH
.610 NBAZC 25 HiI 68 68 69 69 71 71
.23 66 PCT
ý72 92 PCT
.46 98 PCT
.75 99 PCT
.80 104 PCT
.16 137 PCT 7
13 16 13 15 5
P2 BW2 P3 BW2 P2 BWI P3 BW1 P3 BW1 P2 BW2 71
.27 122 PCT 8
P2 VS3
+ -.
-. + -.
I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+..
.. ÷...
+...
+...
. +.
.. ÷...
. +
. +..
. +.
.. ÷...
. ÷
-+
+..
. + _.÷...
14
Palo Verde 2 U2115 PVNGS2 20091001 10126/2009 22:20:55 I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 I1NCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COI
-+-----.------
+..
+-
-4 4--
+
+--.
_ -÷ 1 58 71
.80 92 PCT 14 P3 VS3
.49
.31 VS3 VS3
.580 NPUFZ 66 HI I
64 71
.53 80 PCT 14 P2 VS3
.39 VS3 TEC
.610 NBAZC 14 CI I
64 71 1.23 91 PCT 20 P3 VS3
.32
.54 VS3 VS3
.580 NPUFZ 66 HI I
37 72
.21 154 PCT 8
P2 81
.87 VS3 TEH
.610 NBAZC 2 HI I
83 72
.27 152 PCT 8
P2 VS4
-.78 VS3 TEC
.610 NBAZC 14 CI I
38 73
.25 106 PCT 8
P2 B,42
.98 VS3 TEC
.610 NBAZC 3
CI I
1 160 73
.33 96 PCT 9
P2 BW2
.85 VS3 TEC
.610 NBAZC 38 CI I
1 160 73
.76 88 PCT 14 P3 B82
.71
.12 10C VS5
.580 NPUFZ 63 CIDQAI I25 74
.30 101 POT 9
P2 812
-. 92 1S3 TEO
.610 SAZC 4
CI 31 74
.28 126 PCT 8
P2 82
-. 92 VS3 TEC
.610 NBAZC 4
CO I
45 74
.41 143 PCT 12 P2 814
-. 78 VS3 TEN
.610 NBAZC 1
HI I
45 74
.87 99 PCT 15 P3 B81
-. 75
.26 07H VS3
.580 NPUFZ 65 HI I
56 75
.36 84 PCT 11 P28 41
-1.65 VS3 TEH
.610 NBAZC 23 HI I
56 75 1.13 100 PCT 19 P3 814
-1.79
.63 08H VS3
.580 NPUFZ 65 HI I
1 116 75
.22 90 PCT 7
P2 VS2
.85 VS3 TEN
.610 NBAZC 23 HI I
1 116 75
.91 82 PCT 16 P3 VS2
.80
.50 VS2 VS2
.580 NPUFZ 65 HI I
I 45 76
.18 103 PCT 6
P2 BW2
-. 80 VS3 TEC
.610 NBAZC 3
CI I
1 47 76
.16 63 PCT 5
P2 B12
-. 77 VS3 TEC
.610 NBAZC 3
CI I
I~.
I 1 49 76
.22 121 PCT 7
P2 82
-. 79 VS3 TEC
.610 NBAZC 3
C0 I
S59 76
.23 56 POT 7
P2 8142
.79 133 TEC
.610 HAZC 14 CI 59 76
.23 145 PCT "9
P2 BW1
.79 VS3 TEN
.610 NBAZC 24 HI I
I26 77
.28 123 POT 9
P2 1153
.50 V153 TENl
.610 HOAZO 1
HI I
93 77
.23.
60 PCT 7
P2 BW1
.84 VS3 TEN
.610 NBAZC 1
HI I
233 78
.37 115 PCT 10 P2 842
-. 94 VS3 TEC
.610 NBAZC 4
CI I
I3,3 78
.70 93 POT 13 P3 8142
-.94
.48 070 1153.580 HPUFZ 62 CIDQAI I
45 78
.23 98 PCT 7
P2 82
.82 VS3 TEC
.610 NBAZC 4
01 I
I 47 78
.58 143 PCT 15 P2 BW2
.92 VS3 TEC
.610 HBAZC 4
Cl I
47 78
.82 89 PCT 15 P3 BW2
.82
.32 07C VS3
.580 NPUFZ 61 CIOQAI 51 78
.21 149 PCT 6
P2 82
-.83 VS3 TEC
.610 NBAZC 4
C0 I
I55 78
.31 144 POT 9
P2 8141 1.00 1153 TENl
.610 N8AZO 1
HI I
I 6 79
.28 51 POT 9
P2 8141
-1.90 1153 TEN
.610 K8AZC 23 HI I
I 6 79
.77 101 POT 113 P3 8141
-1.86
.21 088 1153.580 NPUFZ 65 HI I
162 79
.29 72 PCT 10 P2 BW2
.76 VS3 TEC
.610 ZBAZC 37 CI I
162 79
.69 83 PCT 13 P3 B82
.75
.34 100C VS5
.580 NPUFZ 65 CIOQAI 5164 79
.42 132 PCT 13 P2 82
.80 VS3 TEC
.610 ZBAZC 37 C
I I1.64 79
.94 98 POT 117 P3 8142
.88
.26 100 VS55
.580 HPUFZ 65 CI I
33 80
.53 121 PCT 18 P2 11
-1.93 VS3 TEN
.610 NBAZC 2
HI I
I33 80
.78 119 POT 12 P3 8141
-.88
.21 07H 11S3.580 HPUFZ 65 HI I
37 90 1.03 107 PCT 24 P2 8142
-1.96 VS3 TEO
.610 H8AZC 3
CN I
137 80 1.70 82 PCT 26 P3 BW12
-. 88
.50 070 VS3
.580 NPUFZ 62 CIOAI I
I 139 80
.35 114 PCT 11 P2 8H2
-. 917 VS3 TEC
.610 HBAZC 3
CI I
139 80
.81 84 PCT 15 P3 BW2
-. 83
.17 07C VS53
.580 NPUFZ 62 CIDOAI I
43 90
.46 128 PCT 16 P2 V13
-1.00 VS3 TEN
.610 NBAZC 2
HI I
43 80 1.28 85 PCT 21 P3 V13
-1.00
.29 0S3 VS3
.580 NPUFZ 65 HI I
I ROW C3 L VOLTS DEG IND PER CNN LOON INP21 INCH2 6RLEN 8EGT ENDT P-IA PTYPE CAL I
COHN 37 17-4 2-0 7C---
4----
6.+
2 15
Palo Verde 2 U2Rl5 PVNGS2 20091001 10126/2009 22:20:55
+- -
4-+--
+----+-
4
+
I ROW COL VOLTS DEG IND PER CAN LOCH INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
-+-------------------+.-.-+---.+----+----.+---+---+-
+-.--
+
+----------
75 80
.18 31 PCT 7
P2 B141
.81 VS3 TEA
.610 NBAZC 24 HI, I
42 81
.32 91 PCT 10 P2 BW2
.98 VS3 TEC
.610 NBAZC 3
CI I
42 81
.74 91 PCT 14 P3 BW2
.94
.40 07C VS3
.580 NPUFZ 62 CIDOAI 39 82
.64 89 PCT 16 P2 VS3
-. 87 VS3 TEC
.610 NBAZC 4
CI I
39 82 1.28 79 PCT 21 P3 VS3
-. 87
.47 VS3 VS3
.580 NPUFZ 65 Hi I
I.
I 45 82
.87 78 PCT 21 P2 BW1
-. 89 VS3 TEA
.610 NBAZC 1
HI I
45 82
.30 139 PCT 9
P2 V53
-. 97 VS3 TEC
.610 NBAZC 4
CI I
45 82 1.79 104 PCT 27 P3 BW1
-. 84
.57 07H VS3
.580 NPUFZ 65 HI I
45 82
.65 84 PCT 12 P3 V53
-. 88
.37 07H V53
.580 NPUFZ 65 HI I
47 82
.43 141 PCT 13 P2 BW
-. 73 VS3 TEA
.610 NBAZC 1
HI I
1 107 82
.21 6a PCT 7
P2 B81
-1.58 VS3 TEA
.610 NBAZC 23 HI I
36 83
.33 164 PCT 9
P2 V53
.70 VS3 TEC
.610 NBAZC 4
Ci I
164 83
.30 94 PCT 9
P2 BW2
.85 V53 TEC
.610 ZBAZC 35 CI I
164 83
.76 85 PCT 14 P3 BWZ
.85
.39 10C VS5
.580 NPUFZ 65 CIDOAI 45 84
.18 61 *PCT 6
P2 BW2
.68 V53 TEC
.610 NBAZC 3
CI I
47 84
.42 55 PCT 13 P2 BW2
.89 V53 TEC
.610 NBAZC 3
CI I
47 94
.93 82 PCT 17 P3 812 1.00
.36 07C V53
.580 NPUFZ 62 CIDQAI 107 84
.28 142 PCT 10 P2 BW1
-1.78 VS3 TEA
.610 NBAZC 24 HI I
107 94
.71 96 PCT 12 P3 BW
-1.24
.21 09H VS2
.580 NPUFZ 65 HI I
111 94
.87 104 PCT 20 P2 V53
-. 95 V53 TEC
.610 NBAZC 14 Ci I
I111 84 1.88 90 PCT 28 P3 VS3
-. 89
.57 VS3 V53
.580 NPUFZ 65 HI I
49 85
.96 107 PCT 23 P2 V53
.52 V53 TEC
.610 NBAZC 3
CI I
49 95 1.53 94 PCT 24 P3 VS3
.52
.70 V53 V53
.580 NPUFZ 65 HI I
1 56 85
.24 135 PCT 9
P2 81
-1.74 VS3 TEA
.610 NBAZC 24 HI I
1 56 85
.66 82 PCT 12 P3 BWl
-1.42.
.19 013H VS3
.590 NPUFZ 65 HI I
37 86
.31 110 PCT 9
P2 VS3
.95 VS3 TEC
.610 NBAZC 4
CI I
1 37 86
.81 9a PCT 14 P3 VS3
.95
.42 VS3 V53
.580 NPUFZ 65 HI I
45 86
.96 117 PCT 22 P2 VS3
.97 VS3 TEC
.610 NBAZC 4
CI I
45 86 1.70 87 PCT 26 P3 VS3
.97
.34 V53 VS3
.580 NPUFZ 65 HI.
I 165 86
.30 143 PCT 9
P2 BW2
.80 VS3 TEC
.610 ZBAZC 35 CI I
167 96
.52 156 PCT 15 P2 BW2
.68 V53 TEC
.610 ZBAZC 35 CI I
167 86
.94 81 PCT 17 P3 BW2
.68
.57 lOC V55
.580 NPUFZ 65 CIDQAI 46 87 1.31 116 PCT 27 P2 VS3
.70 V53 TEC
.610 NBAZC 4
Cl I
46 87 1.51 90 PCT 23 P3 VS3
.70
.70 VS3
'VS3
.580 NPUFZ 65 HIDQAI 48 97
.28 115 PCT 8
P2 VS3
.95 V53 TEC
.610 NBAZC 4
CI I
48 87
.57 62 PCT 15 P2 BW2
.89 VS3 TEC
.610 NBAZC 4
Cl I
49 87
.79 81 PCT 15 P3 VS3 1.38
.53 0CC VS3
.580 NPUFZ 62 CI I
48 87 1.16 89 PCT 20 P3 BW2
.99
.60 08C.1V53
.580 NPUFZ 62 CIDQAI 52 97
.17 61 PCT 5
P2 BW2
.82 VS3 TEC
.610 NBAZC 4
C1 I
1 56 87
.46 92 PCT 12 P2 VS3
.74 VS3 TEC
.610 NBAZC 4
CI I
1 56 87
.30 34 PCT 9
P2 BW1
-1.77 VS3 TEA
.610 NBAZC 21 HI I
1 56 87 1.04 105 PCT 17 P3 BW1
-1.72
.37 SAH V53
.580 NPUFZ 65 HI I
56 87
.66 98 PCT 12 P3 VS3
.77
.21 08, VS3
.580 NPUFZ 65 AJ I
164 87
.48 139 PCT 14 P2 BW2
.75 VS3 TEC
.610 ZBAZC 35 CI I
184 87 A9S 90 PCT 17 P3 BW2
.75
.26 18C VS5
.580 NPUFZ 65 CIDQAI 166
.87
.24 140 PCT 8
P2 BW2
.75 V53 TEC
.610 ZBAZC 35 CI I
166 87
.62 84 PCT 12 P3 1142
.75
.31 IOC VS5
.580 NPUFZ 65 CIDQAII
.+.----------------------------+-*.------------+---+
+----------
I ROW COL VOLTS DEG IND PER CHN LOCH INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI 4-....
4-....
+......
+1
÷...
16
Palo Verde 2 MISR1 PVNGS2 20091001 10/26/2009 22:20:55 I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
-+--------------+----+-----+------+----+----+---+-
+-------
+----------
I I
1 75 80
.18 31 PCT 7
P2 BWl
.81 VS3 TEH
.610 HBAZC 24 HI I
I I
1 42 81
.32 91 PCT 10 P2 BW2
.98 VS3 TEC
.610 NBAZC 3
CI I
1 42 81
.74 91 PCT 14 P3 BW2
.94
.40 07C VS3
.580 NPUFZ 62 CIDQAI 1 39 82
.64 89 PCT 16 P2 VS3
-. 87 VS3 TEC
.610 NBAZC 4
Cl I
39 82 1.28 79 PCT 21 P3 VS3
-. 87
.47 VS3 VS3
.580 NPUFZ 65 HI 1 45 82
.87 78 PCT 21 P2 BWl
-. 89 VS3 TEN
.610 NBAZC 1
HI I
45 82
.30 138 PCT 9
P2 VS3
-. 97 VS3 TEC
.610 NBAZC 4
Cl I
45 82 1.79 104 PCT 27 P3 BW1
-. 84
.57 07H VS3
.580 NPUFZ 65 HI 45 82
.65 84 PCT 12 P3 VS3
-. 88
.37 07H VS3
.580 NPUFZ 65 Hf I
47 82
.43 141 PCT 13 P2 BW1
-. 73 VS3 TEN
.610 KBAZC 1
HI I
107 82
.21 68 PCT 7
P2 BW1
-1.58 VS3 TEN
.610 NBAZC 23 HN I
36 83
.33 164 PCT 9
P2 VS3
.70 VS3 TEC
.610 NBAZC 4
CI I
164 83
.30 94 PCT 9
P2 BW2
.85 VS3 TEC
.610 ZBAZC 35 CI I
164 83
.76 85 PCT 14 P3 BW2
.85
.39 10C VS5
.580 NPUFZ 65 CIDOAII 45 84
.19 61 PCT 6
P2 BW2
.69 VS3 TEC
.610 KBAZC 3
Ci I
I 47 84
.42 55 PCT 13 P2 BW2
.89 VS3 TEC
.610 HBAZC 3
Cl I
47 84
.93 82 PCT 17 P3 BW2 1.00
.36 07C VS3
.580 NPUFZ 62 CIDOAI 107 84
.28 142 PCT 10 P2 BWi
-1.78 VS3 TEN
.610 KBAZC 24 Hi I
107 84
.71 86 PCT 12 P3 BW1
-1.24
.21 09H VS2
.580 NPUFZ 65 HN I
I111 84
.87 104 PCT 20 P2 VS3
-. 95 VS3 TEC
.610 NBAZC 14 Cj I
I111 4
1.88 90 PCT 28 P3 VS3
-. 89
.57 VS3 VS3
.580 NPUFZ 65 HI I
49 85
.96 107 PCT 23 P2 VS3
.52 VS3 TEC
.610 NBAZC 3
CI I
1 48 85 1.53" 84 PCT 24 P3 VS3
.52
.70 VS3 VS3
.580 NPUFZ 65 HN I
1 56 85
.24 135 PCT 9
P2 BW1
-1.74 VS3 TEN
.610 NBAZC 24 HI 56 85
.66 82 PCT 12 P3 BW1
-1.42
.18 08NH VS3
.580 NPUFZ 65 HN I
37 86
.31 110 PCT 9
P2 V53
.95 VS3 TEC
.610 NBAZC 4
CI I
37 86
.81 98 PCT 14 P3 VS3
.95
.42 VS3 VS3
.580 NPUFZ 65 HI I
1 45 86
.96 117 PCT 22 P2 V53
.97 1S3 TEC
.610 HBAZC 4
CI I
1 45 86 1.70 87 PCT 26 P3 VS3
.97
.34 VS3 V53
.580 NPUFZ 65 HN I
165 86
.30 143 PCT 9
P2 BW2
.80 VS3 TEC
.610 ZBAZC 35 CI I
167 86
.52 156 PCT 15 P2 BW2
.68 VS3 TEC
.610 ZBAZC 35 Cl I
167 96
.94 81 PCT 17 P3 BW2
.68
.57 lOC VS5
.580 NPUFZ 65 CIDQAI 46 87 1.31 116 PCT 27 P2 VS3
.70 VS3 TEC
.610 NBAZC 4
CI I
46 87 1.51 90 PCT 23 P3 VS3
.70
.70 VS3 VS3
.580 NPUFZ 65 HIDOAI 48 87
.29 115 PCT 8
P2 VS3
.95 VS3 TEC
.610 NBAZC 4
Cl I
48 87
.57 62 PCT 15 P2 BW2
.89 VS3 TEC
.610 NBAZC 4
CI 48 87
.79 81 PCT.
15 P3 VS3 1.38
.53 08C VS3
.580 NPUFZ 62 CI I
48 87 1.16 89 PCT 20 P3 BW2
.99
.80 09C V53
.580 NPUFZ 62 CIDQAI 52 87
.17 61 PCT 5
P2 BW2
.82 VS3 TEC
.610 NBAZC 4
CI 56 87
.46 92 PCT 12 P2 VS3
.74 VS3 TEC
.610 NBAZC 4
Cl I
56 87
.30 34 PCT 9
P2 BWI
-1.77 VS3 TEN
.610 NBAZC 21 HN I
56 87 1.04 105 PCT 17 P3 BWl
-1.72
.37 08H VS3
.680 NPUFZ 65 HN I
56 87
.66 99 PCT 12 P3 VS3
.77
.21 08H VS3
.580 NPUFZ 65 N I 164 87
.48 139 PCT 14 P2 BW2
.75 VS3 TEC
.610 ZBAZC 35 CI I
164 87
.95 90 PCT 17 P3 BW2
.75
.26 10C VS5
.580 NPUFZ 65 CIDOAI I 166 87
.24 140 PCT 8
P2 BW2
.75 VS3 TEC
.610 ZBAZC 35 Cl I
166 87
.62 84 PCT 12 P3 BW2
.75
.31 10C VS5
.580 NPUFZ 65 C;DQAj I
S+-----------------------+-----+----+------*-----1.---+---+
+-----+
+----------
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI 4--.
+.
+----
+----.
+---.
.4 17
Palo Verde 2 U2R15 PVNGS2 20091001 10126/2009 22i20:55 Palo--
.+
.÷
.÷ Verde.2........VNGS2
+2....910 01`
6/0....09--
A
+
2
+
.-+.
+-----....+....
+
+--.....
+....---- +
+
+-+-...4
÷ 39 89
.68 109 PCT 18 P2 BW2
-. 96 VS3 TEC
.610 NBAZC 3
CI I
39 88
.98 85 PCT 17 P3 BW2
-1.04
.36 07C VS3
.580 NPUFZ 62 CIDQAII 45 88
.45 94 PCT 15 P2 BW1
.71 VS3 TEN
.610 NBAZC 2
HI I
45 89
.20 38 PCT 7
P2 VS3
.95 VS3 TEC
.610 NBAZC 3
Cl I
45 88 1.27 95 PCT 20 P3 BWl
.79
.37 07H V53
.580 NPUFZ 65 HI I
45 88
.74 85 PCT 13 P3 VS3 1.08
.55 07H VS3
.580 NPUFZ 65 HI II 49 88
.19 122 PCT 8
P2 BWl
-. 83 VS3 TEN
.610 NBAZC 2
HI I
49 88
.33 122 PCT 10 P2 8142
-. 75 VS3 TEC
.610 NBAZC 3
Cl I
49 88
.73 80 PCT 14 P3 BW2
-. 86
.40 08C VS3
.580 NPUFZ 62 CIDOAI 55 89
.19 75 PCT 7
P2 BW1 1.00 VS3 TEN
.610 NBAZC 2
HI I
55 89
.72 91 PCT 13 P3 VS3
-. 96
.23 08H VS3
.580 NPUFZ 65 HI I
59 8a
.25 132 PCT 7
P2 VS3
-. 95 VS3 TEC
.610 ZBAZC 16 CI I
1 163 88
.36 93 PCT 10 P2 BW2
.80 VS3 TEC
.610 ZBAZC 36 CI I
163 08
.98 92 PCT 18 P3 BW2
.80
.26 10C VS5
.580 NPUFZ 65 CI I
165 89
.41 93 PCT 11 P2 BW2
.88 VS3 TEC
.610 ZBAZC 36 Cl I
165 88 1.16 86 PCT 20 P3 BW2
.88
.34 10C VS5
.580 NPUFZ 65 CIDOAl 167 88
.29 102 PCT 8
P2 BW2
.86 VS3 TEC
.610 ZBAZC 36 Cl I
167 88
.97 78 PCT 18 P3 BW2
.86
.41 10C VS5
.580 NPUFZ 65 CIDOAI 40 89
.39 74 PCT 12 P2 BW2
-. 96 VS3 TEC
.610 NBAZC 3
Cj I
40 89
.79 78 PCT 15 P3 BW2
-. 83
.50 07C VS3
.580 NPUFZ 62 CIDQAI 116 89
.25 111 PCT 9
P2 VS2
.81 VS3 TEN
.610 NBAZC 22 HI I
116 89
.83 96 PCT 14 P3 VS2
.79
.42 VS2 VS2
.580 NPUFZ 65 HI I
166 89
.50 78 PCT 13 P2 BW2
.78 VS3 TEC
.610 ZBAZC 36 Cl I
166 89 1.11 90 PCT 19 P3 BW2
.78
.34 10C VS5
.580 NPUFZ 65 CIDOAI 49 90
.26 124 PCT 7
P2 VS3
-. 99 VS3 TEC
.610 NBAZC 4
CI I
49 90
.83 77 PCT 14 P3 VS3
-. 87
.57 VS3 VS3
.580 NPUFZ 65 HI I
97 90
.21 35 PCT 7
P2 BWl
-. 89 VS3 TEA
.610 NBAZC 21 HI I
97 90
.72 83 PCT 13 P3 BW1
-. 63
.16 09H VS2
.580 NPUFZ 65 HI I
44 91
.31 89 PCT 9
P2 BW1
-. 83 VS3 TEA
.610 NBAZC 1
Hi I
44 91
.43 132 PCT 12 P2 VS3
-.75 VS3 TEC
.610 KBAZC 4
CI I
44 91
.91 104 PCT 15 P3 BW1
-. 83
.91 07H VS3
.580 NPUFZ 65 HI I
44 91
.74 85 PCT 13 P3 VS3
-. 74
.68 07H VS3
.580 NPUFZ 65 HI I
o0 91
.30 96 PCT 9
P2 VS2
-. 80 VS3 TEN
.610 NBAZC 21 HI I
80 91
.92 92 PCT 16 P3 VS2
-. 83
.63 VS2 VS2
.580 NPUFZ 65 HI I
104 91
.28 102 PCT 9
P2 BW1
-. 73 VS3 TEN
.610 NBAZC 21 HI I
168 91
.30 84 PCT 9
P2 BW2
.83 VS3 TEC
.610 ZBAZC 35 Cl I
168 91
.68 84 PCT 13 P3 BW2
.83
.23 10C VS5
.580 NPUFZ 65 CIDQAI 49 92
.20 63 PCT 8
P2 aWl
-. 89 VS3 TEN
.610 NBAZC 2
Hi I
49 92
.24 121 PCT 9
P2 BW1
.67 VS3 TEN
.610 NBAZC 2
HI I
71 92
.15 60 PCT 6
P2 BWl
.86 VS3 TEN
.610 HBAZC 22 HI I
71 92
.70 94 PCT 12 P3 BWI
.81
.31 08H VS2
.580 NPUFZ 65 HI I
100 93
.34 93 PCT 10 P2 1S4
-. 81 VS3 TEC
.610 NBAZC 15 CI I
100 93
.98 84 PCT 16 P3 VS4
-. 91
.33 VS4 VS4
.580 NPUFZ 63 CI I
164 93
.30 65 PCT 9
P2 VS1
.62 VS3 TEN
.610 NBAZC 35 HI I
164 93
.95 77 PCT 17 P3 VS1
.77
.25 VS1 VS1
.580 NPUFZ 64 HI I
45 94 1.80 121 PCT 34 P2 BWi
-. 82 VS3 TEN
.610 NBAZC 1
HI I
45 94 1.04 124 PCT 23 P2 VS3
-. 79 VS3 TEC
.610 NBAZC 4
CI I
45 94 1.97 96 PCT 28 P3 OWl
-. 91
.26 07H VS3
.580 NPUFZ 65 HI I
45 94 1.22 86 PCT 20 P3 VS3
-. 80
.47 07H VS3
.580 NPUFZ 65 HI I
107 94
.17 105 PCT 6
P2 BWl
-. 45 VS3 TEN
.610 NBAZC 21 HI I
+
+----t------+-----+-----+---+---+
+-----+
+----------
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT POIA PTYPE CAL L CO'14
+.---+----...
1`....
1-----.--.
+.....
+-----
+--÷-4--
18
Pa lo Verde 2' U2R15 PVNGS2 20091001 10/2612009 22:20:55 I ROW COL VOLTS DEG IND PER CNN LOCH INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COPIf
+....
+..----
. 4 4---+-
4-107 94
.57 81 PCT 11
'P3 aw1
-. 45
.08 09H VS2
.580 NPUFZ 64 H-I 109 94
.22 120 PCT 7
P2 BN1
-. 91 VS3 TEN
.610, NBAZC 21 Hl I
108 95
.34 75 PCT 10 P2 V$3
-. 94 VS3 TEC
.610 ZBAZC 16 CI I
108 95
.58 95 PCT 11 P3 VS3
-. 73
.38 VS3 VS3
.580 NPUFZ 64 HI I
45 96
.23 88 PCT 8
P2 812
-. 99 VS3 TEC
.610 NBAZC 3
CI I
47 96
.22, 41 PCT 7
P2 B2
-. 86 VS3 TEC
.610 NBAZC
'3 Cf I
59 96
.30 67 PCT 8
P2 82
-.85 VS3 TEC
.610 ZBAZC 16 CI I
59 96
.64 89 PCT 12 P3 82
-. 83
.33 08C VS4
.580 HPUFZ 62 CIDGAI 1 102 97
.27 39 PCT 9
P2 VS3
.71 VS3 TEC
.610 NBAZC 15 Cf I
I 51 98
.31 109 PCT 10 P2 B1
-. 92
.13 TEN
.610 KBAZO 1 HI I
I 51 98
.63 111 PCT 11 P3 B41
-. 92
.37 OSH T53
.580 NPUFZ 65 HI I
1 48 99
.24 43 PCT 9
P2 B11
-. 98 VS3 TEN
.610 NBAZC 2
H4 I
I 48 99 A85 80 PCT 15 P3 Baw 1.13 1.07 084 VS3
.580 NPUFZ 65 Hf I
1 48 99
.88 83 PCT 15 P3 VS3
.36
.37 08H VS3
.580 HPUFZ 65 Hf I
I 52 99
.19 93 PCT 8
P2 811
-.84 VS3 TENl
.610 NBAZC 2
HI I
I 55 100
.23 146 POT 9
P2 Bw1
-1.00 VS3 TER
.610 NBAZC 2 Hf 1 61 100
.22 118 PCT 8
P2 Ba1
.83 VS3 TEN
.610 NBAZC 22 Hf I
1 85 100
.22 158 PCT 7
P2 VS4
-. 80 VS3 TEC
.610 ZBAZC 16 C
I 1 54 101
.41 119 PCT 12 P2 Baw
-1.00 VS3 TEN
.610 NBAZC 1
Hf I
1 54 101 1.57 74 PCT 25 P3 B1i
-. 99 1.10 08H VS3
.580 NPUFZ 64 HI I
1 64 101 1.86 112 PCT 33 P2 VS3
-. 93 VS3 TEC
.610 HBAZC 15 CI I
1 64 101 2.58 76 PCT 35 P3 VS3
-. 93
.43 VS3 VS3
.580 NPUFZ 64 HI I
64 101
.69 66 PCT 13 P3 VS3
-. 71
.29 VS3 VS3
.580 NPUF2 64 Hl I
1 66 101
.44 134 PCT 13 P2 VS3
-. 98 VS3 TEC
.610 NBAZC 15 Cf I
1 66 101 1.11 76 PCT 19 P3 -VS3
-. 99
.38 VS3 VS3
.580 NPUFZ 64 HI 1 68 101
.21 132 PCT' 7
P2 VS3
.98 VS3 TEC
.610 NBAZC I
Cf I
68 101
.66 87 PCT 12
-P3 VS3
.98
.26 VS3 VS3
.580 NPUFZ 64 HI I
1 70 101 A18 123 PCT 6
P2 82
-. 66 VS3 TEC
.610 NBAZC 15 Cl I
1 59 102
.42 120 PCT 12 P2 VS3
-. 96 VS3 TEC
.610 NBAZC 15 Cf I
59 102
.91 96 PCT 22 P2 VS3
.93 VS3 TEC
.610 NBAZC 15, C
I 59 102
.95 74 PCT 17 P3 VS3
-. 96
.32 VS3 VS3
.580 NPUFZ 64 Hf I
59 102 2.00 77 PCT 30 P3 VS3
.93
.29 VS3 VS3
.580 NPUFZ 64 Hf I
1 101 102
.50 95 PCT 14 P2 VS4
.98 VS3 TEC
.610 NBAZC 15 Cf I
1 101 102 1.29 83 PCT 22 P3 VS4
.83
.64 VS4 1VS4
.580 NPUFZ 63 Cf I
103 102
.19 38 PCT 6
P2 VS4
.98 VS3 TEC
.610 NBAZC 15 Cf I
66 103 2.56 105 PCT 40 P2 VS3
-. 76 VS3 TEC
.610 ZBAZC 16 Cf I
66 103 2.30 101 PCT 38 P2 VS3
.93 VS3 TEC
.610 ZBAZC 16 CI 66 103 1.31 80 PCT 22 P3 VS3
-. 98
.38 VS3 VS3
.580 NPUFZ 64 Hf 1 66 103 2.11 81 PCT 31 P3 VS3
-. 82
.55 VS3 VS3
.580 NPUFZ 64 Hf I
1 66 103 2.46 74 PCT 34 P3 VS3
.93
.46 VS3 VS3
.580 NPUFZ
- 64.
Hf I
97 104
.20 86 PCT 6
P2 V14
-. 76 VS3 TEC
.610 ZBAZC 16 CI 1 115 104
.39 65 PCT 11 P2 VS4
.89 V13 TEC
.610 ZBAZC 16 CI 115 104
.99 88 PCT 18 P3 VS4
.79
.44 VS4 VS4
.580 NPUFZ
- 63. Cf I
1 55 106
.66 78 PCT 18 P2 BW1 1.00 VS3 TEN
.610 NBAZC 1
Hf I
55 106
.87 89 PCT 15 P3 Baw 1.35
.14 08H VS3
.580 NPUFZ 64 HI 59 106
.18 119 PCT 6
P2 V93
-. 81 VS93 TEC
.610 NBAZC is CI 59 106
.43 86 PCT 13 P2 B2
.79 VS3 TEC
.610 HBAZC 15 CI 4------------------------+---4----+------+----+----+---+---4 t----+
+----------
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 1
ICH2 CRLEN BEGT ENOT PDIA PTYPE CAL L CO I
-+----------------------------------------
+--
+--- -
19
Palo Verde 2 U21115 PVNGS2 20091001 10/26/2009 22:20:55 P
+....÷ Verde 2 U.........S2 i 0---
1........
1.......
9 22:20:56--
÷---
÷ I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+.
+
4-
.4--.
4-..
.. +-....
÷ I 9 106 63 106 1 46 107 46 107 66 107 74 107 170 107 170 107 170 107 47 108 159 108 46 109 46 109 88 109 90 109 90 109 110 109 110 109 57 110 59 110 79 110 79 110 89 110 89 110 1-01 84 PCT
.24 156 PCT
.24 143 PCT
.25 161 PCT
.33 67 PCT
.35 77 PCT
.79 77 PCT
.22 103 PCT
.27 88 PCT
.24 150 PCT
.58 111 PCT
.87 82 PCT
.22 129 PCT
.24 41 PCT
.28 134 PCT
.76 86 PCT
.35 43 PCT
.71 94 PCT 18 P3 BW2 P2 BW1 P2 BW1 P3 Bwi P2 BW1 P2 VS2 P2 VS3 P2 BW2 P3 BW2 P2 VS3 P2 VS3 P2 BN1 P3 BW1 P2 BW1 P2 BWl P3 BWl P2 VS3 P3 VS3 P2 BW2 P2 BW2 P2 BWI P3 aWl P2 BW1 P3 BW1
.75
.83
.66
.99
.90
-. 82
.90
.45
.45
-. 71
.67
-. 61
-. 65
-. 68
-. 68
-. 68
.78
.78
-. 74
-. 76
.80
.82
.83
.88
.43 0CC VS4 VS3 TEN VS3 TEH 1.01 07H VS3 VS3 TEN VS3 TEN VS3 TEC VS3 TEC
.28 A0C VS5 VS3 TEC VS3 TEC VS3 TEN 1.19 07H VS3 VS3 TEN VS3 TEN
.35 09H VS2 VS3 TEC
.46 VS3 VS3 VS3 TEC VS3 TEC VS3 TEN
.25 08H VS2 VS3 TEN
.23 08H VS2
.580 NPUFZ
.610 KBAZC
.610 NBAZC
.580 NPUFZ
.610
&BAZC
.610 NBAZC
.610 ZBAZC
.610 ZBAZC
.580 NPUFZ
.610 NBAZC
.610 ZBAZU
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.610 KBAZC
.580 NPUFZ
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.580 NPUFZ 62 CjDQAj 21 HI 5
HI 64 HN I
21 HN I
21 HI 34 CI I
34 C
I 65 Cl I
2 Cj I
33 Ci I
6 HI I
64 HI I
22 HI 22 HNI 64 HN I
15 cI I
64 HI I
15 CI 15 Cl I
21 HI 64 HI I
19 HI 64 HI I
86 111
.36 82 PCT 10 P2 VS3
.85 VS3 TEC
.610 ZBAZC 16 CI 86 111
.21 106 PCT 6
P2 VS4
-. 83 VS3 TEC
.610 ZBAZC 16 CI I
86 111
.62 87 PCT 12 P3 VS3
.90
.48 VS3 VS3
.580 NPUFZ 64 HN I
51 112
.30 113 PCT 11 P2 BW1
.80 VS3 TEN
.610 NBAZC 6
HI 51 112
.62 103 PCT 12 P3 BWI
.85
.28 08H VS3
.580 NPUFZ 64 H
I 57 112
.28 133 PCT 10 P2 VS2 1.00 VS3 TEN
.610 NBAZC 20 HN I
57 112 1.00 86 PCT 18 P3 VS2
.95
.30 08N VS3
.580 NPUFZ 64 HN I
59 112
.24 145 PCT 9
P2 BW1
.61 VS3 TEN
.610 NBAZC 20 HN I
113 112
.35 126 PCT 10 P2 VS4
-. 85 VS3 TEC
.610 ZBAZC 16 CI I
113 112
.75 75 PCT 14 P3 VS4
-. 98
.34 VS4 VS4
.580 NPUFZ 63 Cl I
50 113
.20 59 PCT 8
P2 05H
-. 98 VS3 TEN
.610 NBAZC 6
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50 113
.26 158 PCT 10 P2 BW1
.60 VS3 TEN
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H I
,50 113
.86 103 PCT 15 P3 BW1
.82
.46 08H VS3
.580 NPUFZ 64 HN I
91 114
.45 77 PUT 12 P2 IOC
-. 87 VS3 TEC
.610 ZBAZC 18 CI I
91 114 1.46 82 PCT 24 P3 10C
-. 87
.79 IOC 10C
.600 ZPAHZ 60 CIDQAI 119 114
.55 105 PCT 14 P2 VS3
-. 63 VS3 TEC
.610 ZBAZC 34 C
I 119 114
.95 92 PCT 17 P3 VS3
-. 90
.53 VS3 VS3
.680 NPUFZ 64 H
I 137 114
.74 88 PCT 17 P2 V(4
-. 93 V(3 TEC
.610 ZBAZC 34 Cj I
137 114
.73 93 PCT 14 P3 VS4
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.24 VS4 VS4
.580 HPUFZ 63 C I
48 115
.33 63 PCT 10 P2 VS3
.52 VS3 TEC
.610 NBAZC 1
C I
58 115
.40 121 PCT 11 P2 VS3
-. 88 VS3 TEC
.610 ZBAZC 18 C
I 58 115
.93 96 PCT 16 P3 VS3
-. 88
.38 VS3 VS3
.580 NPUFZ 64 HN I
+
+.
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+
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20
Palo Verde 2 U21116 PVNGS2 20091001 10/26/2009 22:20:55 f
+-----+-----+------+-.--+---t----------+---.
+---------
I ROW COL VOLTS OEG IND PER CNN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+..
.+
+
4.-----
+.-.....
4--4---.
60 62 1
62 I68 68 47 47 47 47 49 49 49 49 49 49 59 59 I121 121 40 40 40 40 42 42 46 48 1 162 1 162 47 47 49 49 65 65 1
87 69 I 89 105 105 42 44 44 46
' 48 49 54 54 115 115 115 115 115 116 116 116 116 116 116 116 116 116 116 116 116 116 116 117 117 117 117 117 117 117 117 117 117 119 118 119 118 119 119 118 118 119 118 119 119 119 119 119 119 119 119 119
.19
.37
.78
.27
.87
.74
.43 1.45
-94 1.96
.89
.57 2.27 2.01 1.00
.29
.69
.29 1.17
.46
.35
.61
.58
.37
.72
.21
.23
.31
.76 1.60 1.73 1.65 1.85
.35 1.04
.23
.26
.73
.31
.80
.26
.40 1.07 A1
.47 1.04
.19
.64 122 105 Be 141 92 131 103 93 101 107 88 134 89 94 101 66 91 130 79 151 138 139 135 105 136 69 132 128 92 109 99 107 90 147 84 56 127 109 89 79 136 100 81 128 122 72 97 96 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 6
11 14 9
15 22 15 23 16 38 25 18 32 29 17 10 12 9
20 12 12 11 11 13 13 9
7 l1 14 31 26 32 28 10 19 9
8 13 9
15 a
12 19 6
13 19 6
11 P2 P2 P3 P2 P3 P2 P2 P3 P3 P2 P2 P2 P3 P3 P3 P2 P3 P2 P3 P2 P2 P3 P3 P2 P3 P2 P2 P2 P3 P2 P3 P2 P3 P2 P3 P2 P2 P3 P2 P3 P2 P2 P3 P2 P2 P3 P2 P3 awl awl BWl awl BWl BW1 BWl BWI BWl BW11 awl BWI BW1 BWl awi awl awi awl BWl B811 awl VS3 BWl BW1 8W3 BU12 awl BWl BWl BW1 aw2 awl awl awl awl VS4 awl awl awl aw4 V53 VS3 VS53
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.79
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.94
-.81
-. 34
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-. 29
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-. 31
.46
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.77
-.83
-1.00
-. 88
-. 88
-. 62
.85
.73
-. 75
.74
.76
-. 89
-. 77
-. 97
-.97
.88
.99
. 73 1.00
.81
.81
.84
.95 1.00
.92
.93
-. 74
-. 58
-. 95
-.64
-. 55
-. 82 1.00 1.00 VS3 VS3
.21 08H VS3
.30 09H VS3 VS3
.51 07H
.41 07H VS3 VS3 VS3
.56 08H
.95 08H
.51 08H VS3
.39 07H VS3
.51 09H VS3 VS3
.63 07H 1.35 07H VS3
.77 07H VS3 VS3 VS3
.28 10C VS3
.65 07H VS3
.69 08H VS3
.39 08H VS3 VS3
.27 08H VS3
.15 VS4
'S3 VS3
.45 VS3 VS3 VS3
.25 VS3 VS3
.31 08H TEN TEN VS>2 TEN VS/2 TEN TE4 VS3 VS3 TEN TEN TEN VS3 VS3 VS3 TEN VS2 TEN VS1 TEC TEN VS3 VS3 TEN VS3 TEN TEC TEC VS5 TEN VS3 TEN VS3 TEN VS2 TEN TEN VS2 TEC VS4 TEN TEC VS3 TEN TEC VS3 TEN VS3
.610
.610
.580
.610
.580
.610
.610
.580
,580
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.610
.610
.580
.580
.580
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.580
.610
.580
.610
.610
.590
.580
.610
.580
.610
.610
,610
.590
.610
.580
.610
.580
.610
.580
.610
.610
.580
.610
.580
.610
.610
.580
.610
.610
.580
.610
.580 NBAZC NBAZC NPUFZ NBAZC NPUFZ NBAZC NBAZC NPUFZ NPUFZ NBAZC NBAZC NBAZC NPUFZ NPUFZ NPUFZ NBAZC NPUFZ NBAZC NPUFZ NBAZC NBAZC ZPUFZ ZPUFZ NBAZC ZPUFZ NBAZC NBAZC ZBAZC NPUFZ NBAZC NPUFZ NBAZC NPUFZ NBAZC NPUFZ NBAZC NBAZC NPUFZ ZBAZC NPUFZ NBAZC NBAZC NPUFZ NBAZC NBAZC NPUFZ NBAZC NPUFZ 19 19 64 19 64 6
6 63 63 6
6 6
63 63 63 20 63 41 64 2
6 67 67 6
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2 35 65 5
63 5
63 15 63 18 17 63 19 63 5
1 63 S
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63 HI HI HI HI HI HI H I H I H I H I H I H I HIDOAI HW I
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I ROW COL VOLTS DEG IND PER CON LOCN INCHN INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L0 COM0
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Psio Verde 2 U2_R15 PVNGS2 20091001 10/26/2009 22:20:55
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139 120
.23 150 PCT 9
P2 VS3
-. 744 VS3 TER
.610 NBAZC 6
HI I
39 120
.57 108 PCT 11 P3 VS3
-. 73
.42 VS3 VS3
.580 ZPUFZ 67 RHI 41 120
- 30 140 PCT 8
P2 V$3
-. 77 VS3 TEC
.610 NBAZC 2 C I
41 120
.70 107 PCT 13 P3 VS3
-. 70
.42 VS3 VS3
.580 ZPUFZ 67 HlI 43 120
.79 109 PCT 19 P2 VS3
-. 79 VS3 TEC
.610 NBAZC 2
C I
143 120 1.38 97 PCT
- 22.
P3 VS3
-. 79
.58 VS3 V63
.580 ZPUFZ 67 HlI 145 120 1.67 127 PCT 32 P2 VS3
-. 77 VS3 TEC
.610 NBAZC 2 C I
45 120
.72 128 PCT 22> P2 BW1
-. 77 VS3 TEN
.610 NBAZC 6
HlI 45 120 1.47 97 PCT 23 P3 BW1
-. 92
.45 07H V63
.580 NPUFZ 63 HlI 145 120 2.37 76 PCT 33 P3 VS3
-. 93
.61 07H VS3
-580 NPUFZ 63 HlI 47 120 1.50 120 PCT 30 P2 VS3
-. 79 VS3 TEC
.610 NBAZC 2
Cl 47 120 2.26 74 PCT 32* P3 VS3
-. 89
.45 VS3 VS3
.580 NPUFZ 63 HlI 67 120
.24 126 PCT 7
P2 BW1
.99 VS3 TEN
.610 NBAZC 17 HlI 79 120
.29 105 PCT 11 P2 VS3
.-. 75 VS3 TER
.610 NBAZC is HlI 79 120 1.07 90 PCT 18 P3 VS3
-. 94
.60.VS3 VS3
.580 NPUFZ 63 Hl 91 120
.19 66 PCT 8
P2 07H
ý80 VS3 TERl
.610 NBAZC 18 HlI 36 121
.20 138 PCT 8
P2 OWL
.98 VS3 TEN
.610 NBAZC 6
HlI 40 121
.47 147 PCT 13, P2 VS3
-. 92 VS3 TEC
.610 NBAZC 2 C I
40 121
.69 72> PCT 12' P3 VS3
-. 91
.23 VS3 VS3
.560 NPUFZ 63 HI I
49 121
.32 115 PCT 9
P2 BW2
.63 VS3 TEC
.610 NBAZC 2 C I
48 121
.98 90 PCT 17 P3 BW2 1.00'
.50 08C VS3
.590 NPUFZ 62 CIDOAI 52 121
-18 80 PCT 7
P2 0714
-.09 VS3 TENl
.610 NBAZC 6
HlI 62 121
.21 41 PCT 7
P2 BW1
.75 VS3 TEN
.610 NBAZC 17 HlI 64 121
-2>0 109 PCT 6
P2 BW1
.66 VS3 "TER
.610 NBAZC 17 Hl I
68 121
.27 92 PCT 8
P2 BW1
.83 VS3 TEN
.610 NBAZC 17 HlI 68 121
.86 65 PCT 15 P3 BW1
.73
.20 08H VS2
.580 NPUFZ 63 HlI 80 121
.27 66 PCT S
P2 OWL
-.79 VS3 TEN
.610 HBAZC 17 HlI 80 121
.67 87 PCT 12 P3 OW1
-. 79
.18 08H V6,?
.580 NPUFZ 63 HlI, 154 121
.35 126 PCT 12 P2 V62
.63 VS3 TEH
.610 ZBAZC 38 HlI 1154 121
.78 86 PCT 14 P3 VS2
.69
.40 VS2 VS2
.580 NPUFZ 62 HIDOAI I
I 1166 121
.40 127 PCT 11 P2 BN2
-. 78 VS3 TEC
.610 ZBAZC 36 CI I
1166 121
.96 93 PCT 17 P3 BW2
-. 78
.34 10C VS5
.580 NPUFZ 65 CI I
I I
133 122 A44 GO PCT 13 P2 BW1
-1.00 VS3 TEN
.610 NBAZC 5
Hl I
33 122 1A00 ga PCT 17 P3 BW1
-1.00
.34 07H VS3
.580 NPUFZ 62 HIDOAI 43 122>
ý38 75 PCT 11 P2 BWI
-. 87 VS3 TE14
.610 NBAZC 5
HI I
43 122
.84 95 PCT 15 P3 BW!
-. 87
.28 07H VS3
.580 NPUFZ 62 HIDQAI I
47 122
-28 67 PCT 9
P2 BW2
-1.00 VS3 TEC
.610 NBAZC 1
CI I
147 122
.19 57 PCT 6
P2 BW1
-. 77 VS3 TEl
_610 NBAZC 5
HI I
47 122
ý66 91 PCT 12 P3 BW2
-1.00
.26 07C VS3
.580 HPUFZ 62 CIDO.AJ I
49 122
-42 149 PCT 12 P2 OWt
-. 82 VS3 TER
.610 NBAZC 5
Hl I
49 122
.96 80 PCT 16 P3 BWL
-. 62
.34 07H1 VS3
-580 NPUFZ 62 HIDQAI I
40 123
.20 44 PCT 7
-. 48 VS3 TEC
.610 NBAZC I CI I
156 123
.40 144 PCT 11 P2 OW!
-. 81 VS3 TEH
.610 NBAZC 15 HlI 56 123 1A05 96 PCT 18 P3 OW1
-. 81
.14 08H VS3
.$80 NPUFZ 63 HlI 145 124
.36 110 PCT 13 P2 OW1
-. 81 VS3 TEN
.610 KBAZC 6
HlI 45 124
.72 98 PCT 13 P3 BH1
-. 52
.21 07H VS3
.580 NPUFZ
'63 HlI 159 124
.31 146 PCT 10 P2 VS3
-. 68 VS3 TEC:
.610 ZBAZC 19 C
I
+....
÷.
.. 4
.÷----
-+ -
+
I ROW COL VOLTS DEG IND PER CHN LOCH INCH1 INCH2 CRLEN BEGT ENDT ROTA PTYPE CAL L C(Otl
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22
Psio Verde 2 UZR15 PVNGS2 20091001 10/26/2009 22:20:55 I ROW COL VOLTS DEG IND PER CAN LOCN INCH1 INCH2 CRLEN BEGT ENDT POIA PTYPE CAL L COMI
+....
÷-.........
+-....
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+
.+..-
+
1 59 124 63 124 167 124 167 124 160 125 160 125 166 125 166 125 31 126 31 126 31 126 31 126 33 126 33 126 33 126 33 126 37 126 37 126 39 126 43 126 45 126 45 126 55 126 55 126 102 127 102 127 21 128 25 128 25 128 28 129 28 129 62 129 62 129 115 130 163 130 163 130 164 131 23 132 55 132 161 132 161 132 161 132 161 132 162 133 162 133 162 133 162 133 47 134 1.02 67 PCT 17 P3 VS3
-. 60
.21 36 PCT
.45 114 PCT
.96 97 PCT
.35 96 PCT
.95 75 PCT 1.54 93 PCT 2.07 83 PCT
.70 129 PCT
.82 89 PCT
.15 129 PCT
.29 127 PCT
.27 105 PCT
.90 78 PCT
.31 67 PCT
.33 95 PCT
.26 84 PCT
.57 99 PCT
.38 117 PCT
.88 79 PCT
.24 146 PCT
.42 137 PCT
.82 97 PCT
.24 141 PCT
.29 51 PCT
.71 82 PCT
.28 78 PCT
.28 136 PCT
.67 115 PCT 1.60 80 PCT 2.44 79 PCT
,37 96 PCT
.42 110 PCT
.99 81 PCT
.71 94 PCT
.35 78 PCT P2 BW1 P2 BW2 P3 B142 P2 VS1 P3 VS1 P2 BW2 P3 BW2 P2 BW0 P2 BW1 P3 BW1 P3 BW1 P2 VS3 P2 BWI P2 BW01 P3 VS3 P2 BW5 P3 BW8 P2 BW04 P2 BW1 P2 8142 P3 BW2 P2 BW1 P3 BW1 P2 VS4 P3 VS4 P2 VS3 P2 BW1 P3 BW1 P2 VS3 P3 VS3 P2 VS3 P3 VS3 P2 VS3 P2 VS3 P3 VS3 P2 BW2 P2 BWl P2 BWt P2 VS4 P2 VS1 P3 VS1 P3 VS4 P2 BW2 P2 VS2 P3 V12 P3 BW2
.84
-1.00
-1.00
.84
.88
.80
.80
-. 96
.84
-.96
.87
.50
-. 93
.85
.70
-1.00
-1.00
-1.00
-.91
-1.00
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.81
.79
.56
-.91
-. 91
-. 70
-. 70
- 61
.56
-. 684
-. 68
-. 72
.78
.66 1.00
.92
.63
.70
.92
.86
-1.00
-1.00
.86
.65
.19 VS3 VS3 VS3 TEA VS3 TEC
.23 10C VS5 VS3 TEA
,43 VS1 VS1 VS3 TEC
.59 10C VS5 VS3 TEA VS3 TEN
.22 07H VS3
.19 07H VS3 VS3 TEC VS3 TEA VS3 TEA
.40 07H VS3 VS3 TEN
.28 07H VS3 VS3 TEA VS3 TEA VS3 TEC
.36 07C VS3 VS3 TEN
.50 07H VS3 VS3 TEC
.40 VS4 VS4 VS3 TEA VS3 TEA
.28 07H VS3 VS3 TEC
.59 VS3 VS3 VS3 TEA
.65 VS3 VS3 VS3 TEA VS3 TEC
.37 VS3 VS3 VS3 TEC VS3 TEA VS3 TEA VS3 TEC VS3 TEA
.43 VS1 VS1
.52 VS4 VS4 VS3 TEC VS3 TEl
.47 VS2 VS2
.28 10C VS5
.580 NPUFZ 63 Al I
.610 NBAZC 17 Al I
.610 ZBAZC 35 C0 I
.580 NPUFZ 65 Cl I
.610 ZBAZC 38 Al I
.580 NPUFZ 62 HIDQAI
.610 ZBAZC 33 C0 I
.580 NPUFZ 65 CIDQAI1
.610 NBAZC 5
AJ I
.610 NBAZC 5
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.580 NPUFZ 62 HIDOAI
.580 NPUFZ 62 HIDOAI1
.610 NBAZC 1
CI I
.610 NBAZC 5
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.610 NBAZC 5
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.580 NPUFZ 62 HIDQAI1
.610 NBAZC 5
HI I
.580 NPUFZ 62 HIDOAI
.610 NBAZO 5
Al
.610 NBAZC 5
HI I
.610 NBAZC 1
Ci I
.580 NPUFZ 62 CIDOAI I
.610 NBAZC 5
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.580 NPUFZ 62 HIDQAI
.610 ZBAZC 19 C0 I
.580 NPUFZ 63 C0 I
.610 NBAZC 6
Al I
.610 NBAZC 6
AH I
.580 NPUFZ 62 HIDOAI
.610 NBAZC 2
CI I
.580 NPUFZ 62 Al I
.610 NBAZC 13 Al I
.580 NPUFZ 62 Al I
.610 NBAZC 14 Hl I
.610 ZBAZC 31 CI I
.580 NPUFZ 62 HIDOAI
.610 2BAZC 31 CI I
.610 NBAZC 6
lH I
.610 NBAZC 6
HI
.610 ZBAZC 32 C01I
.610 ZBAZC 38 AH I
.580 NPUFZ 62 Nl I
.680 NPUFZ
- 66. C0 I
.610 ZOAZC 31 CO
.610 ZBAZC 38 NJ I
.580 NPUFZ 62 HIDOAI
.580 NPUFZ 65 CI I
I 10 P2 BW1 VS3 TEA
.610 NBAZC 5
AI I
-+-------------+-----+-----+-----t-----+----+------4 t-----+
+---------
I ROW COL VOLTS DEG IND PER CAN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+.
+..----+----
+----
.----+
+
+-.+
+-----++---
23
Palo Verde 2 U2R!6 PVNGS2 20091001 10/2612009 22:20:55
+ -.
÷
-+ -- -.
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
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--.+..--------.----+----.----+...---
+---..... ----
+÷---4-...
4-.+-..
+--+----÷ 47 134 161 134 161 134 161 134 161 134 161 134 161 134 161 134 28 135 29 135 44 135 112 135 112 135 162 135 162 135 79 136 34 137 34 137 25 138 157 138 157 138 156 141 125 146 1
148 131 150 131 150 1 39 152 38 153 4
155 48 157 129 164 129 164 114 165 122 171 122 171 116 173 33 178 113 178 113 179 1.00 89 PCT 1.05 107 PCT
.42 126 PCT
.33 148 PCT
.63 99 PCT 1.45 85 PCT 1.78 86 PCT
.65 82 PCT
.23 124 PCT
.35 98 PCT
.71 89 PCT
.32 51 PCT
.71 76 PCT
.26 106 PCT
.28 70 PCT
.62 69 PCT
.29 113 PCT
.30 119 PCT
.74 84 PCT
.20 75 PCT
.22 120 PCT
.19 99 PCT
.32 107 PCT
.83 84 PCT
.14 77 PCT
.29 121 PCT
.68 102 PCT
.26 117 PCT
.23 56 PCT
.33 125 PCT
.62 89 PCT
.26 116 PCT
.20 123 PCT
.23 121 PCT
.94 117 PCT 17 P3 BWl 24 13 10 17 23 27 12 9
18 8
11 13 10 13 8
10 11 9
9 13 7
8 6
9 15 6
11 10 10 11 19 7
9 12 8
a 7
16 P2 VS5 P2 BW2 P2 11C P2 VS1 P3 VS1 P3 VS5 P3 BW2 P2 VS3 P3 VS3 P2 07C P2 VS4 P3 VS4 P2 BW2 P3 BW2 P2 VS4 P2 061 P3 06H P2 VS3 P2 VS3 P3 VS3 P2 11C P2 VS3 P2 03C P2 VS3 P3 VS3 P2 VS3 P2 VS3 P3 8W2 P2 06H P2 VS3 P3 VS3 P2 VS2 P2 10C P3 10C P2 VS2 P2 VS3 P2 VS3 P3 VS3
.72
.85
.85
.78
.82
.82
.85
.85
-. 39
-. 53
-1.00
.89
.81
-.89
-. 88
-. 75
-.94
-.95
-. 74
-.59
-. 57
-1.00
-. 89
-.99
-. 54
-.54
.62
.60
-.57
-. 17
-. 82
-. 75
.82
.78
.89
-1.00
.28 07H VS3 VS3 TEC VS3 TEC VS3 TEC VS3 TEN
.40 VS1 VS1
.75 10C VS5
.26 10C VS5 VS3 TEC
.50 VS3 VS3 VS3 TEC VS3 TEC
.35 VS4 VS4 VS3 TEC
.31 10C VS5 VS3 TEC VS3 TEN
.24 06H 06H VS3 TEN VS3 TEC
.53 VS3 VS3 VS3 TEC VS3 TEN 08C TEC VS3 TEC
.47 VS3 VS3 VS3 TEN VS3 TEN
.31 09C 0814 VS3 TEN VS3 TEC
.31 VS3 VS3 VS3 TEN VS3 TEC
.44 10C 10C VS3 TEN VS3 TEN VS3 TEN
.56 VS3 VS3
.580 NPUFZ
.610 ZOAZC
.610 ZBAZC
.610 ZBAZC
.610 NBAZC
.580 NPUFZ
.580 NPUFZ
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 ZBAZC
.590 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.610 NBAZC
.600 ZPAHZ
.610 HBAZC
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.610 ZBAZC
.610 ZBAZC
.610 ZBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.540 NPUPH
.610 NBAZC
.610 ZBAZC
.580 NPUFZ
.610 1BAZC
.610 ZBAZC
.600 ZPAHZ
.610 NBAZC
.610 NBAZC
.610 NBAZC
.680 NPUFZ 62 HIOQAI
- 31.
C I
31 CI 31 C
I 37 HI 62 HI 65 C
I 65 C
I 1
C I
62 HIDOAI 1
C I
19 CI 63 CI 31 C
I 65 C
I 19 C
I 6
HI 61 HI 3
HI 30 CI 62 HIDOAI 31 C
I 38 HI 43 Cl 32 C
I 62 HIDOAI 6
HI 6
HI 55 C
I 6
HI 30 C
I 62 HI 11 H
I 30 CI 60 C IOQAI 41 H
I 8
HI 9
HI 62 HI I
.49
.75
.75
-+-...+
+----+----+---4---+-
+-..----+-
4 1 ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT POIA PTYPE CAL L COtI
.+.......----.--.-.-.--.----
+-..-. +
+-
+
+--.+
+
+
i----
24
APPENDIX C STEAM GENERATOR 22
SUMMARY
DATA SHEETS 25
Palo Verde 2 U2R15 PVNGS2 20091001 10/26/2009 22:34:23 S4------------------------+-----4-----+-----4-----+----+---4
+-----+
+----------
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI S++--------------------------------------+----4-----4-"+---+---4 4
+
+---------
1 36 3
.40 67 PCT 12 P2 06H
.82 V$3 TEH
.610 HBAZC 35 HI I
36 3
.73 124 PCT 14 P3 06H
.82
.23 06H 0614.600 ZPAHZ 67 HN I
81 16
.28 127 PCT 8
P2 VS2
-. 96 VS3 TEN
.610 NBAZC 36 HI I
81 16
.68 102 PCT 12 P3 VS2
-. 82
.26 VS2 VS2
.580 NPUFZ 76 HIDQAI 90 23
.37 114 PUT 10 P2 V82
.59 V83 TEN
.610 NBAZU 30 HI I
90 23
.31 132 PCT 9
P2 VS3
.66 VS3 TEN
.610 NBAZC 30 HI I
90 23
.99 113 PCT 17 P3 VS2
.83
.53 VS2 VS2
.580 NPUFZ 76 HI I
90 23
.66 102 PCT 12 P3 VS3
.66
.41 VS3 VS3
.580 NPUFZ 76 HIDQAI 35 26
.25 50 PCT 8
P2 BW1
-. 52 VS3 TEN
.610 NBAZC 33 HI I
1 I
84 29
.56 114 PCT 17 P2 VS2
.83 VS3 TEN
.610 HBAZC 29 HI I
84 29
.32 56 PCT 10 P2 VS3
.698
.3 3
TEN
.610 NBAZU 29 Hg I
84 29
.82 87 PCT 15 P3 VS2
.98
.32 VS2 VS2
.580 NPUFZ 76 HI I
84 29
.68 145 PUT 12 P3 183
.98
.29 1183 183
.580 HPUFZ 76 HI 23 30
.27 117 PCT 7
P2 BW2
-. 91 VS3 TEC
.610 NBAZC 29 CI I
35 30
.28 129 PCT 7
P2
@8C
-. 86 VS3 TEC
.610 NBAZC 29 CI I
84 33
.36 127 PCT 9
P2 BW2
-. 81 VS3 TEC
.610 NBAZC 30 Cl I
84 33
.95 121 PCT 15 P3 BW2
-. 83
.26 08C VS4
.580 NPUFZ 67 CIDOAII 109 33
.26 71 PCT 7
P2 10C
.83 VS3 TEC
.610 NBAZC 30 CI II 89 34
.27 144 PCT 7
P2 BW2
-. 79 VS3 TEC
.610 HBAZC 29 CI I
89 34
.75 115 PCT 12 P3 BW2
-. 77
.37 28C VS4
.580 NPUFZ 67 CIDOAI 83 36
.28 117 PCT 7
P2 BW2
-. 90 VS3 TEC
.610 KBAZC 30 CI I
77 38
.38 114 PCT 10 P2 09C
.69 VS3 TEC
.610 HBAZC 29 CI I
1 77 38
.68 122 PCT 11 P3 09C
.82
.15 09C 09C
.600 ZPAHZ 65 CI I
79 38
.26 155 PCT 8
P2 VS2
-. 85 VS3 TEN
.610 NBAZC 28 HI, I
83 38
.37 148 PCT 10 P2 BW2
-. 98 VS3 TEC
.610 NBAZC 29 CU I
83 38
.70 127 PCT 11 P3 B82
-. 79
.35 08C VS4
.580 NPUFZ 67 CUDQAI 87 38
.28 147 PCT 7
P2 BW2
-. 86 VS3 TEC
.610 NBAZC 29 C
I 89 38
.40 80 PCT 10 P2 82
-. 91 VS3 TEC
.610 NBAZC 29 C
I 129 38
.23 86 PCT 8
P2 VS2
.55 VS3 TEN
.610 NBAZC 37 Hg I
129 38
.88 131 PCT 16 P3 VS2
.55
.32 VS2 VS2
.580.NPUFZ 75 HI I
90 39
.28 114 PCT 8
P2 VS2
.87 VS3 TEN
.610 HBAZC 28 H
I 126 39
.27 98 PCT 8
P2 VS3 1.00 VS3 TEN
.610 NBAZC 38 HI I
126 39
.67 116 PCT 13 P3 VS3
.99
.26 VS3 VS3
.580 NPUFZ 75 HI 90 41
.34 68 PCT 11 P2 1014
-1.37 VS3 TEN
.610 NBAZC 27 HI I
90 41
.62 82 PCT 12 P3 10H
-1.37
.24 10A 1014.600 ZPAHZ 78 HI I
75 42
.39 127 PCT 10 P2 09C
.63 VS3 TEC
.610 NBAZC 29 CI I
1 75 42
.71 121 PCT 11 P3 09C
.91
.35 09C 09C
.600 ZPAHZ 65 Ci I
83 42
.26 127 PCT 7
P2 09C
.86 VS3 TEC
.610 NBAZC 29 CI I
82 43
.33 138 PCT 9
P2 09C
.68 VS3 TEC
.610 NBAZC 31 CI I
88 43
.30
.129 PCT 8
P2 09C
.77 VS3 TEC
.610 KBAZC 31 C
I 1 79 44
.28 69 PCT 9
P2 VS2 1.00 VS3 TEN
.610 NBAZC 27 Hg I
125 44
.54 133 PCT 12 P2 VS5
.80 VS3 TEC
.610 NBAZC 35 C
I 1 125 44
.46 95 PCT 14 P2 VS3
.52 VS3 TEN
.610 HBAZC 37 H
I 1 125 44
.92 100 PCT 14 P3 VS5
.85
.23 VS5 VS5
.580 NPUFZ 67 CUOQAI 1 125 44
.94 131 PCT 17 P3 VS3
.61
.56 VS3 VS3
.580 NPUFZ 75 Hg I
I I
1 4
45
.87 119 PCT 12 P3 BW2
-. 66
.26 88C OH
.540 NPUPH 60 CI
,I
- ROW -OL VOLTS +
HD----+
PE---
+
NLON---
+
IN-----IN-H EN
-T OI---------A----
-4 L......
I ROW COL VOLTS DEG HIND PER CNN LOCH INUNI.
INCH2 CMEN BEOT ENOT POIA PTYPE CAL L COMg
+---------------------------------------+---+----+----4---+------4
+----+
+--
26
Palo Verde 2 U2R15 PVNGS2 20091001 10126/2009 22:34:23
÷.
÷
+----.
4
+
÷
÷..
4 I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 INCH2 CRLEN BEGT ENDT POIA PTYPE CAL L.COMI f ---------------------------------
+---------
+----------
118 45
.24 63 PCT 8
P2 VS3
.98 VS3 TEN
.610 NBAZC 38 HI I
48 51
.23 72 PCT 6
P2 VS3
.80 VS3" TEC
.610 NBAZC 6
C1 I
48 51
.60 111 PCT 12 P3 V33
.66
.30 VS3 VS3
.580 NPUFZ 75 Hl I
80 51
.23 136 PCT 6
P2 09C
.63 VS3 TEC
.610 NBAZC 31 CI I
152 55
.47 133 PCT 12 P2 11C
-. 90 VS3 TEC
.610 NBAZC 5
CI I
113 56
.55 75 PCT 12 P2 VS3
-. 82 VS3 TEC
.610 NBAZC 32 CI I
113 56 1.10 134 PCT 19 P3 V33
-. 82
.35 VS3 VS3
.580 NPUFZ 75 HI I
114 57
.43 72 PCT 10 P2 VS3
.88 VS3 TEC
.610 NBAZC 32 CI I
114 57
.73 99 PCT 14 P3 VS3
.77
.35 VS3 VS3
.580 NPUFZ 73 HIDOAII 118 57
.48 140 PCT 14 P2 VS2
.87 VS3 TEN
.610 NBAZC 38 HI I
118 57
.97 113 POT 17 P3 VS2
.87
.33 VS2 VS2
.580 NPUFZ 73 HIDOAII 126 57
.34 125 PCT 10 P2 VS3
-. 44 VS3 TEN
.610 NBAZO
- 38. HI I
1 126 57
.83 92 PCT 15 P3 V13
-. 58
.52 VS3 VS3
.580 NPUFZ 73 HIDQAI 1 152 57
.24 124 PCT 6
P2 11C
-.25 VS3 TEC
.610 NBAZC 5
CI I
11 58
.27 153 PCT 9
P2 BW1 1.22 VS3 TEN
.610 NBAZC 57 Hi I
11 58
.66 127 PCT 13 P3 BW1
.87
.24 07H VS3
.580 NPUFZ 75 NI.
I 119 58
.34 156 PCT 10 P2 VS3
-. 76 VS3 TEN
.610 NBAZC 38 HI I
119 58
.69 123 PCT 13 P3 VS3
-. 76
.33 VS3 VS3
.580 NPUFZ 73 HN I
129 60
.56 84 PCT 16 P2 VS3
.52 VS3 TEN
.610 NBAZC 37 HI; I
129 60 1.23 102 PCT 21 P3 VS3
.60
.35 VS3 VS3
.580 NPUFZ 73 HI I
152 61
.22 81 PCT 6
P2 VS3
.90 VS3 TEC
.610 NBAZC 6
CI I
152 61
.59 112 PCT 11 P3 VS3
.90
.30 VS3 VS3
.580 NPUFZ 73 HjDQAj 44 63
.18 134 PCT 5
P2 VS3
-. 96 VS3 TEC
.610 HBAZC 6
CI I
106 63
.29 146 PCT 8
P2 BW1
-1.00 VS3 TEN
.610 NBAZC 26 HN I
132 63
.26 85 PCT 6
P2 11C
-. 72 VS3 TEC
.610 NBAZC 38 CI I
154 63
.24 71 PCT 6
P2 BW2
-. 85 VS3 TEC
.610 NBAZC 6
CI I
1 154 63
.80 73 PCT 13 P3 BW2
-. 90
.24 10C VS5
.580 NPUFZ 66 ClDQAI 47 64
.26 53 PCT 8
P2 BW1
-. 78 VS3 TEN
.610 NBAZC 3
HN I
47 64
.68 147 PCT 13 P3 BW1
-. 81
.27 07H VS3
.580 NPUFZ 75 HN I
125 64
.36 44 PCT 11 P2 VS3
-. 71 VS3 TEN
.610 NBAZC 39 HN I
125 64
.90 95 PCT 16 P3 VS3
-. 71
.52 VS3 VS3
.580 NPUFZ 73 HI I
24 65
.72 102 PCT 16 P2 VS3
.93 VS3 TEC
.610 NBAZC 5
CI I
24 65 1.17 121 PCT 20 P3 VS3
.76
.30 VS3 VS3
.580 NPUFZ 75 Nj I 30 65
.44 135 PCT 11 P2 VS3
.60 VS3 TEC
.610 NBAZC S
CI I
30 65
.70 123 PCT 13 P3 VS3
.75
.39 VS3 VS3
.580 NPUFZ 75 HN I
34 65
.32 80 PCT 8
P2 VS3
.75 VS3 TEC
.610 NBAZC 5
CI I
34 65
.60 113 PCT 12 P3 VS3
.92
.21 VS3 VS3
.580 NPUFZ 75 HI 113 66
.34 144 PCT 10 P2 BW1.
-. 88 VS3 TEN
.610 NBAZC 40 Nj 151 66
.31 123 PCT 8
P2 BW2
.85 VS3 TEC
.610 NBAZC 6
CI I
151 66
.87 85 PCT 14 P3 BW2
.81
.24 10C VSS
.580 NPUFZ 66 CIOQAI 155 66
.70 129 PCT 16 P2 BW2
.82 VS3 TEC
.610 NBAZC 6
C I
155 66 1.46 85 PCT 21 P3 BW2
.78
.71 10C VS5
.580 NPUFZ 66 CjDQAj 159 66
.72 105 PCT 16 P2 BW2
.75 VS3 TEC
.610 NBAZC 5
CI I
159 66 1.51 92 PCT 22 P3 BW2
.90
.34 10C VS1
.580 NPUFZ 66 CIDOAI 132 67
.. 36 159 PCT 9
P2 VS5
.77 VS3 TEC
.610 NBAZC 38 CI I
S+----------------------+-----4-----+-----+-----+----4---+
t ---------------
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L CO1
+----+---
4-
+
+
4--..--..
+
+-
4 4
.---- 4-.+--.÷
÷.
÷'
27
Palo Verde 2 U21115 PVNGS2 20091001 10126/2009 22z34:23 I ROW COL VOLTS OEG IND PER CHN LOCN INCHI INCH2 CRLEN BEGT ENDT ! PDIA PTYPE CAL L CO1tI
-+-------------+-----t-----+-----+-----+----4----------+----+
+----------
1 132 67
.90 103 PCT 14 P3 VS5
.68
.27 VS5 VS5
.580 NPUFZ 66 CIDQAI 158 67 1.07 130 PUT 22 P2 BW2
-. 93 VS3 TEC
.610 NBAZC 5
CI I
15B 67 1.82 92 PUT 25 P3 BW2
-. 70
.81 IOC VS5
.580 NPUFZ 66 CIDOAI 160 67
-55 121 PCT 13 P2 BW2
-. 90 VS3 TEC
.610 NBAZC 5
CI I
160 67 1.06 84 PCT 16 P3 BW2
-. 93
.22 IOC VS5
.580 NPUFZ 66 CIDOAI 125 68 28 34 PCT 9
P2 VS3
-. 64 VS3 TEN
.610 NBAZC 39 HI I
125 68
.84 107 PCT 15 P3 VS3
-. 74
.41 VS3 VS3
.580 NPUFZ 73 HIDOAI 159 68
.54 91 PCT 13 P2 BW2
.47 VS3 TEC
.610 NBAZC 5
CI I
159 68 1.18 91 PCT 18 P3 B142
.99
.19 10C VS5
.580 NPUFZ 66 CIDOAI 161 68
.24 122 PCT 6
P2 B142
.65 VS3 TEC
.610 NBAZC 5
CI I
156 69
.57 107 PCT 15 P2 VS1
.88 VS3 TEN
.610 NBAZC 40 NI I
156 69 1.20 86 PCT 21 P3 VS1
.88
.17 VS1 VS1
.580 NPUFZ 72 HNIDOAI 107 70
.28 145 PCT 8
P2 VS3
-1.00 VS3 TEN
.610 NBAZC 26 NI I
1 107 70
.71 116 PCT 13 P3 VS3
-. 84
.26 VS3 VS3
.580 NPUFZ 75 HIDQAI 1 115 70
.25 51 PCT 7
P2 VS2
-. 84 VS3 TEN
.610 NBAZC 40 NJ I
1 115 70
.61 90 PCT 12 P3 VS2
-. 84
.30 VS2 VS2
.580 NPUFZ 73 HIDQAI 102 71
.29 164 PCT 8
P2 BW1
-. 88 VS3 TEN
.610 NBAZC 26 NJ I
102 71
.57 114 PCT 11 P3 BW1
-. 61
.23 09H VS2
.580 NPUFZ 75 HIDOAI 160 71
.28 151 PCT 7
P2 BW2
-. 79 VS3 TEC
.610 NBAZC 6
CI I
160 71
.80 92 PCT 13 P3 BW2
-. 89
.37 IOC VS5
.580 NPUFZ 66 CIDOAI 161 72
.48 140 PCT 12 P2 VS3
.73 VS3 TEC
.610 NBAZC 6
CI I
161 72 1.11 94 PCT 20 P3 VS3
.67
.33 VS3 VS3
.580 NPUFZ 72 HIDQAI 160 73
.41 120 PCT 11 P2 VSI
.82 VS3 TEN
.610 NBAZC 40 NI I
160 73
.87 89 PCT 16 P3 VSI
.82
.17 VSI VS1
.580 NPUFZ 72 HIDOAI 164 73
.71 107 PCT 16 P2 BW2
-.78 VS3 TEC
.610 NBAZC 5
CI I
164 73
.85 119 PCT 18 P2 8W2
.83 VS3 TEC
.610 KBAZC 5
CI I
164 73 1.38 93 PCT 20 P3 BW2
-. 91
.15 10C VS5
.580 NPUFZ 66 CIDOAI 164 73 1.52 85 PCT 22 P3 BW2
.78
.34 lOC VS5
.580 NPUFZ 66 CIDOAI 19 74
.24 82 PCT 6
P2 BW2
.75 VS3 TEC
.610 NBAZC 4
CI I
19 74
.72 102 PCT 11 P3 BW2
.87
.29 07C VS3
.580 NPUFZ 67 CIDQAI 47 74
.39 115 PCT 11 P2 BW1
-. 93 VS3 TEN
.610 NSAZC 2 NI I
I 47 74
.76 125 PCT 14 P3 BW1
-. 74
.21 07H VS3
.580 NPUFZ 75 NJ I
163 74
.83 123 PCT 18 P2 BW2
-. 75 VS3 TEC
.610 NBAZC 6
CI, I
163 74 1.86 82 PCT 25 P3 BW2
-1.00
.46 IOC VS5
.580 NPUFZ 66 CIDQAI 163 74
.82 82 PUT 13 P3 BW2
-. 26
.54 IOC VS5
.580 NPUFZ 66 CIFQAI 165 74
.25 114 PCT 7
P2 BW2
.67 VS3 TEC
.610 KBAZC S
Cl I
165 74
.80 82 PCT 13 P3 BW2 1.03
.46 IOC VS5
.580 NPUFZ 66 CiDQAi 88 75
.31 159 PCT 9
P2 BW1
-. 85 VS3 TEN
.610 NBAZC 24 HI.
I I8 75
.76 125 PCT 14 P3 BW1
-. 85
.32 OSH VS2
.580 NPUFZ 75 HNDQAl 120 75
.29 97 PCT 7
P2 VS3 1.05 VS3 TEC
.610 NBAZC 38 CI I
120 75
.73 95 PCT 14 P3 VS3
.91
.41 VS3 VS3
.580 NPUFZ 73 HIDQAI 25 76
.36 110 PCT 9
P2 BW2
.57 VS3 TEC
.610 NBAZC 3
CI I
25 76
.77 114 PCT 12 P3 BW2
.85
.32 07C VS3
.580 NPUFZ 67 CIDOQA 161 76
.88 122 PCT 21 P2 VS1
-. 97 VS3 TEN
.610 NBAZC 40 NI I
161 76
.80 115 PUT 19 P2 VS1
.62 VS3 TEN
.610 NBAZC 40 NJ I
161 76 1.53 84 PCT 26 P3 VSI
-. 97
.25 VS1 VS1
.580 NPUFZ 72 HIDQAI I 161 76 1.15 90 PCT 21 P3 VS1
.62
.31 VS1 VS1
.580 NPUFZ 72 NI I
I 84 77
.39 136 PCT 12 P2 VS2
.82 VS3 TEN
.610 NBAZC 23 HNI I I 84 77
.69 119 PCT 13 P3 VS2
.82
.38 VS2 VS2
.580 NPUFZ 75 HNDQAj
-+---------------+------4-----4-----+----+----+---4
+----+
+----------
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L CON4 S.
÷
+..----
.÷.
.÷.
+--.--.
+
+
-4
.- 4-.-..
÷ 4-28
Palo Verde 2 U2R16 PVNGS2 20091001 10/26/2009 22:34:23
+ -.- -.- --
+
- - -÷
-÷
--+ -.
+
-÷-
÷ -.--.-.--
+ -- +-
I ROW COL VOLTS DEG IND PER CNN LOCH INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+..
. +...
. 4-..
. +..
+. __
+...
. +..
. ÷.
.. ÷..
. +..
.. ÷..
... +.
. + -- + - --
132 77
-24 59 PCT 7
P2 VS2
.89 VS3 TER
.610 NBAZC 40 14I 132 77
.49 135 PCT 13 P2 VS3
.57 VS3 TER
.610 NBAZC 40 HI I
132 77 1.03 108 PCT 18 P3 VS3
.86
.38 VS3 VS3
.580 NPUFZ 73 HI I
154 77
-29 102 PCT 7
P2 VS4
-. 52 VS3 TEC
.610 NBAZC a C1I 49 713
.31 119 PCT 9
P2 BW1
-. 76 VS3 TEN
.610 NBAZC 2
HI I
49 7e
.59 118 PCT 11 P3 BW1
-. 95
.27 0814 VS3
.580 NPUFZ 75 14I 91 7e
.52 141 PCT 14 P2 V$3
-. 85 VS3 TEH
.610 NBAZC 24 HI I
91 78 1.01 133 PCT 18 P3 VS3
-. 85
.38 VS3 VS3
.580 NPUFZ 75 HIDQAI 34 79
.37 106 PCT 11 P2 RW1
.91 VS3 TEN
.610 NBAZC 2
HlI 34 79
_74 134 PCT 14 P3 OWL
.91
.24 07H VS3
.580 NPUFZ 75 14I 36 79
.45 127 PCT 12 P2 BW1
.94 VS3 TEN
.610 NBAZC 2
HiI 3,6 79
.97 125 PCT 17 P3 BW1 a81
.30 07H VS3
.580 NPUFZ 75 HlI 52 79
.26 153 PCT 8
P2 BW1
.61 VS3 TEH
.610 NBAZC 2
H1I 52 79
.62 136 PCT 12 P3 B141
.07
.27 08H VS3
-580 NPUFZ 75 HI I
188 79
ý22 153 PCT 6
P2 VS4
.57 VS3 TEC
.610 NBAZC 24 C
I 188 79
.90 108 PCT 14 P3 VS4
.50
.26 VS4 VS4
.580 NPUFZ 67 ClDOAI 166 79
.39 137 PCT 9
P2; BW2
.82 VS3 TEC
.610 NBAZC 6
C I
166 79
.94 84 PCT 15 P3 1312
.89
.29 IOC VS5
.580 NPUFZ 66 CIOQAI 51 80
.4,4 70 PCT 13, P2 BW1
-. 96 VS3 T'ER
.610 NBAZC 1
14I 51 Be
.90 137 PCT 16 P3 BW1
-. 34
.36 0814 VS3
.580 NPUFZ 75 HiI 63 80
.24 117 PCT 8
P2 BW1
-. 94 VS3 TENl
.610 NBAZC 23 H
I 63 90
.64 121 PCT 12 P3 BW1
-. 94
.27 0814 VS2
.590 NPUFZ 75 HIDOAJ 117 So
ý35 141 PCT 7
P2 BW2
-. 88 VS3 TEC
.610 NBAZC 34 C
I 165 80
-59 150 PCT 13 P2 'BW2
-. 85 VS3 TEC
.610 NBAZC 7
C I
165 Be 1.21 107 PCT 19 P3 B142
-. 65
.3B A0C VS5
.580 ZPUFZ 77 CIDaAj 167 0
.1 19 PO 10 P2 H2
-83 S3 EC
.10 BAZ 6
I 167 80
.41 109 PCT 10 P2 BW2
-. 83 VS3 TEC
.610 NBAZC 6
C I
167 90 1-05 97 PCT 17 P3 OW2
-. 89
.23 10C VS5
.580 ZPUFZ 77 CIDQAI 167 80 1-00 106 PCT 16 P3 BW2
.83 12a 10C' VSS
.580 ZPUFZ 77 CIDQAI 32 8
.2 14 PC 7
2 B2 7
V3 TC
.10 BAZ 3
I 132 91
.26 144 PCT 7
P2 B142
-.97 VS3 TEC
.610 NBAZC 3
C I
56 91
.24 153 PCT 8
P2 BW1 1.89 VS3 TEll
.610 NBAZC 23 14I 56 81
.62 110 PCT 12 P3 BW1 1.53
.18 08H VS3
.580 NPUFZ 75 14 HI 90 a1
.37 151 PCT 11 P2 VS3
-. 71 VS3 TEH
.610 NBAC 23 HlI 90 a1 1.09 119 PCT 19 P3 VS3
-. 87
.44 VS3 VS3
.580 NPUFZ 75 HIDQAI 162 81
.51 57 PCT 12' P2 BW2
-. 86 VS3 TEC
.610 NBAZC a C I
162 81 1,29 96 PCT 19 P3 BW2
-. 18
,A5 A0C VS5
.580 ZPUFZ 77 ClI 53 82
.46 144 PCT 13 P2 BW1
-. 85 VS3 TE14
.610 NBAZC 2
141 53 82
ý78 116 PCT 14 P3 BW1
-. 72
.33
@SM VS3
.590 NPUFZ 75 141 67 62::
.58 14,8 PCT 15 P2 VS2
-1.00 VS3 TEN
.610 NBAZC 24 HlI 67 892 1,05 135 PCT 19 P3 VS2
-1.00
,A3 VS2 VS2
-580 NPUFZ 75 141 165 82'
.37 85 PCT 9
P2 B142
.95 VS3 TEC
.610 NBAZC a C I
165 82
.95 88 PCT 15 P3 BW2
.99
,41 10C VS5
.580 NPUFZ 66 CIDQAI 167 B2
.61 129 PCT 14 P2 BW2
-. 90 VS3 TEC
.610 NBAZC a c I
167 a2 1.20 89 PCT IS P3 BW2
-. 93
.51 16C VS5
.580 NPUFZ 66 CIDQAI 36 8,3 A35 50 PCT 9
P2 BW2
.97 VS3 TEC
.610 NBAZC 4
Cl 36 a3
.80 115 PCT 13 P3 BW2
.86
.20 07C VS3
.580 NPUFZ 67 CIDOAI 38 a3
.56 55 PCT 15 P2 VS3
-. 53 VS3 TEN
.610 NBAZC 2
H1I 38,8 E
.24 134 PCT 7
P2 VS3
.48 VS3 TEH
.610 NBAZC
- 2. HiI
-- 4 I ROW COL VOLTS DEG IND PER CNN LOCH INCH1
-INCH2 CRLEN BEGT ENDT P'DIA PTYPE CAL L COMI
÷.....
4-..
4-
-- 4 29
Palo Verde 2 U21116 PVNGS2 20091001 1012612009 22:34:23 I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT POIA PTYPE CAL L COMI
+----* -----------
38 83 81 120 PCT 1s P3 VS3
-. 77
.30 VS3 VS3
.580 NPUFZ 75 HI I
1 38 83
.65 111 PCT 12 P3 VS3
.48
.36 VS3 VS3
.580 NPUFZ 75 HI I
1 40 83
.45 118 PCT 11 P2 VS3
-. 82 VS3 TEC
.610 NBAZC 4
Cl I
1 40 83
.66 125 PCT 13 P3 VS3
-. 82
.30 VS3 VS3
.580 NPUFZ 75 HI I
42 83
.30 104 PCT 9
P2 VS3
-. 60 VS3 TEH
.610 NBAZC 2
HI I
42 83
.58 131 PCT 11 P3 VS3
-. 60
.30 VS3 VS3
.580 NPUFZ 75 Hi I
46 83
.26 117 PCT 7
P2 B82 1.00 VS3 TEC
.610 NBAZC 4
CI I
46 83
.79 118 PCT 12 P3 B62
.93
.23 07C VS3
.580 NPUFZ 67 CIDOAII 1 166 83
.56 112 PCT 13 P2 B62
.88 VS3 TEC
.610 NBAZC 7
CI I
1 166 83 1.34 110 PCT 19 P3 B82
.88
.49 10C VS5
.580 NPUFZ 67 CIDCAI I168 83
.61 121 PCT 14 P2 612
-. 85 VS3 TE
.618 NDAZC 11 CI 1 168 83
.33 113 PCT 9
P2 BW2
.85 VS3 TEC
.610 NBAZC 11 CI I
1 168 83
.92 110 PCT 15 P3 82
-. 82
.25 10C VS5
.580 ZPUFZ 77 CI I
39 84
.21 121 PCT 6
P2 BW2
-. 87 VS3 TEC
.610 KBAZC 3
CI I
43 84
.28 28 PCT 9
P2 VS3
.49 VS3 TEH
.610 KBAZC 1
HI 43 84
.29 147 PCT 8
P2 B62
-. 97 VS3 TEC
.610 NBAZC 3
CI I
43 84
.69 94 PCT 11 P3 VS3
.68
.32 07C VS3
.580 NPUFZ 67 CIDOAI 45 84
.35 28 PCT 11 P2 B81
-. 91 VS3 TEH
.610 NBAZC 1
HI I
45 84
.85 129 PCT 16 P3 B61
-. 77
.48 07H VS3
.580 NPUFZ 75 HI I
47 84
.40 93 PCT 12 P2 81
-. 65 VS3 TEH
.610 NBAZC 1
HI I
47 94 1.05 134 PCT 19 P3 81
-. 93
.39 07H VS3
.580 NPUFZ 75 HI I
51 84
.46 143 PCT 11 P2 B62
-. 71 VS3 TEC
.610 NBAZC 3
CI I
51 94
.97 118 PCT 15 P3 B12
-. 68
.49 07C VS3
.580 NPUFZ 67 CIDOAI.1 91 94
.38 154 PCT 10 P2 VS2
.27 VS3 TEN
.610 NBAZC 23 HI I
91 84
.73 124 PCT 14 P3 VS2
.27
.32 VS2 VS2
.580 NPUFZ 75 HIDGAI 157 84
.22 83 PCT 8
P2 VS2
-1.00 VS3 TEH
.610 NBAZC 41 HI I
167 84
.45 149 PCI 11 P2 8142
.89 V3 TEC
.610 N8AZG 7
CI I
169 84
.49 83 PCT 11 P2 B62
.88 VS3 TEC
.610 NBAZC 7
CI I
169 84 1.39 85 PCT 21 P3 B612
.88
.30 10C VS5
.580 ZPUFZ 77 CI I
36 85
.32 62 PCT 10 P2 81
.37 VS3 TE1
.610 NBAZC 1
HI I
36 85 3.46 90 PCT 46 P2 BW1
.94 VS3 TE1
.610 NBAZC 1
HI I
36 85
.25 47 PCT 7
P2 BW2
-. 97 VS3 TEC
.610 NBAZC 3
CI I
36 85
.90 119 PCT 14 P3 B62
-. 86
.32 07C VS3
.580 NPUFZ 67 CIDQAI 36 85
.99 120 PCT 18 P3 81W1
.37
.27 07H VS3
.580 NPUFZ 75 HI I
36 85 3.50 121 PCT 43 P3 B11
.94
.51 07H VS3
.580 NPUFZ 75 HI I
44 85
.48 55 PCT 14 P2 B61
-. 83 VS3 TEH
.610 NBAZC 1
HI I
44 85 1.28 131 PCT 22 P3 B61
-. 65
.68 07H VS3
.580 NPUFZ 75 HI I
52 85
.44 62 PCT 13 P2 VS3
-. 52 VS3 TEH
.610 NBAZC 1
HI I
52 85 1.07 134 PCT 19 P3 V13
-. 81
.69 VS3 VS3
.580 NPUFZ 75 HI I
1 43 86
.35 49 PCT 9
P2 BW2
.89 VS3 TEC
.610 NBAZC 4
Cl I
1 47 86
.71 107 PCT 18 P2 BW1
.66 VS3 TE1
.610 NBAZC 2
HI I
1 47 86
.63 121 PCT 16 P2 VS3
-. 61 V13 TEH
.610 NBAZC 2
HI I
1 47 86 1.49 127 PCT 24 P3 BW1
.88
.66 07H VS3
.580 NPUFZ 75 HI I
1 47 86 1.20 123 PCT 21 P3 VS3
-1.00
.45 07H VS3
.580 NPUFZ 75 HI I
161 86
.27 47 PCT 8
P2 VSI
.62 VS3 TEH
.610 NBAZC 42 HI I
161 86
.58 74 PCT 12 P3 VSI
.62
.11 VSi V1/
.580 NPUF2 72 HIOQAI I
48 87
.49 155 PCT 13 P2 B14
.69 VS3 TEN
.610 NBAZC 2
HI I
48 87 1.12 131 PCT 20 P3 614
.90
.66 09H VS3
.580 NPUFZ 75 HI II 39 88
.66 97 PCT 18 P2 B14
-. 90 VS3 TEN
.610 NBAZC 1
HI I
39 88 1.07 134 PCT 19 P3 BW1
-. 90
.53 07H VS3
.588 NPUF2 75 HI I
+---+---------------------------------+---------+
+--------
I ROW COL VOLTS DEG IND PER CNN L0GW INCHI INCH2 CRLEN BEGT EN8T PDIA PTYPE CAL L COMI
- 4.
+
30
Palo Verde 2 L121115 PVNGS2 20091001 10126/2009 22:34:23
+
+-.-.
+
-- - -.-. -÷-.
÷-..
÷-..
I ROW COL VOLTS OEG IND PER CAN LOCH INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
-+-------------------------+----------+++---+---+
4~~
+----------
I I
1 79 08
.28 94 POT 7
P2 VS4
-. 73 VS3 TEC
.610 NBAZC 24 Cl I
I I
91 98
.34 146 POT 11 P2 VS2
.22 VS3 TEA
.610 NBAZC 23 HI I
91 88
.91 82 POT 15 P3 VS2
.22
.20 VS2 VS2
.580 NPUFZ 72 HIDOAI 163 88
.36 91 POT 9
P2 BW2
-. 89 VS3 TEC
.610 NBAZC 7
CI I
169 88
.89 121 POT 18 P2 BW2
-. 81 VS3 TEC
.610 NBAZC 7
Cl I
169 88 1.56 115 PCT 23 P3 BW2
-. 95
.25 1OC VS5
.580 ZPUFZ 77 CI I
44 99
.25 55 POT 7
P2 BW2
-. 95 VS3 TEC
.610 NBAZC 3
CI I
50 89
.65 89 POT 18 P2 BW1
-. 75 VS3 TEA
.610 NBAZC 1
HI I
50 99 1.35 95 POT 23 P3 BW1
-. 75
.73 08H VS3
.580 NPUFZ 72 HIDQAI 132 89
.43 135 POT 10 P2 VS4
-. 44 VS3 TEC
.610 NBAZC 39 CI I
132 99
.24 147 PCT 6
P2 VS5
.54 VS3 TEC
.610 KBAZC 39 CI I
132 89
.81 136 POT 19 P2 VS3
-. 90 VS3 TEA
.610 NBAZC 48 HI I
132 89 1.14 107 POT 17 P3 VS4
-. 60
.32 VS4 VS4
.580 HPUFZ 67 CIDQAI 132 89
.69 95 POT 11 P3 VS5
.52
.19 VS5 VS5
.560 NPUFZ 67 ClDQAI 132 89 1.61 83 POT 27 P3 VS3
-. 90
.39 VS3 VS3
.580 NPUFZ 72 HIDOAI 1 162 89
.41 139 POT 12 P2 VS2
.82 VS3 TEA
.610 NBAZC 42 HI I
1 162 89 1.01 85 POT 19 P3 VS2
.82
.42 VS2 VS2
.580 NPUFZ 72 HA I
169 89
.90 117 POT 19 P2 8W2
.67 V53 TEC
.610 NBAZC 8
CI I
168 99 1.51 107 PCT 21 P3 BW2
.67
.28 10C VSS
.580 ZPUFZ 73 CIDOAI 170 99
.35 91 PCT 9
P2 BW2
.70 VS3 TEC
.610 NBAZC 8
CI I
178 99
.77 99 POT 12 P3 BW2
.70
.23 IOC VS5
.580 ZPUFZ 73 CIDQAI 49 90
.84 127 POT 20 P2 8W1
.73 VS3 TEA
.610 NBAZC 2
HI I
49 90 1.02 92 POT 19 P3 BWl
.73
.39 O8H VS3
.580 NPUFZ 72 HIDOAI 55 90
.39 75 POT 18 P2 BW2 1.75 VS3 TEC
.610 NBAZC 4
CI I
55 90 1.01 106 POT 15 P3 BW2 1.75
.32 OBC VS3
.580 NPUFZ 67 CIDOAI 169 90
.50 62 POT 12 P2 BW2
.71 VS3 TEC
.610 NBAZC 8
Cl I
169 90 1.13 129 POT 17 P3 BW2
.71
.25 10C VS5
.580 ZPUFZ 73 CIDQAI 51 92
.52 63 POT 15 P2 BW1
.64 VS3 TEA
.610 NBAZO 1
14HI 51 92 1.12 93 POT 20 P3 BW1
.97
.28 GSH VS3
.580 NPUFZ 72 HIDOAI 51 92
.63 86 POT 12 P3 VS3
.57
.36 OSH VS3
.580 NPUFZ 72 Hl I
1 73 92
.69 111 POT 15 P2 V94
.80 VS3 TEC
.610 NBAZC 24 Cl I
1 73 92 1.48 109 POT 21 P3 VS4
.88
.32 VS4 VS4
.580 NPUFZ 67 CIOQAI 119 92
.43 73 POT 11 P2 VS4
.85 VS3 TEC
.610 KBAZC 39 Cl I
119 92
.65 64 POT 18 P2 VS3
-. 86 VS3 TEN
.610 NBAZC 41 Hl I
119 92
.84 128 PCT 13 P3 VS4
.72
.19 VS4 VS4
.580 NPUFZ 67 CIDQAI 119 92 1.35 91 POT 23 P3 VS3
-. 86
.36 VS3 VS3
.580 NPUFZ 72 HIDQAI 137 92
.23 112 POT 8
P2 Y1S
-. 87 VS3 TEA
.610 NBAZC
-41 HI I
137 92
.65 73 POT 13 P3 VS1
-1.00
.14 VS1 VS1
.580 NPUFZ 72 Hl I
169 92
.26 131 POT 7
P2 VS5
-. 82 VS3 TEC
.610 NBAZC 9
Cl I
169 92 1.07 106 POT 16 P3 VS5
-. 82
.23 VS5 VS5
.580 ZPUFZ 73 CIDQAI 58 93
.20 123 POT 7
P2 BW1
-. 83 VS3 TEN
.610 NBAZC 23 Hl I
80 93
.98 126 POT 21 P2 VS4
-. 83 VS3 TEC
.610 NBAZC 23 Cl I
80 93 2.00 105 POT 26 P3 VS4
-. 83
.32 VS4 VS4
.580 NPUFZ 67 CIDQAI 130 93
.34 152 POT 9
P2 BW2
-. 80 VS3 TEC
.618 NBAZC 39 Cl I
130 93
.22 98 POT 7
P2 BW
.91 VS3 TEN
.610 NBAZC 42 HA I
130 93
.70 94 POT 11 P3 BW2
-. 80
.24 09C VS5
.580 NPUFZ 67 CIDQAI 1 130 93
.68 94 POT 13 P3 BW1
.91
.25 09H VS1
.580 NPUFZ 72 HIDQAI II 1 150 93
.28 73 POT 9
P2 V12
.82 VS3 TEN
.610 NBAZC 41 HI I
I 158 93
.58 85 POT 12 P3 V92
.82
.17 VS2 VS2
.580 NPUFZ 72 HIDOAI I
I
+- -----------------
-+--
--t-------
+- ------------
................ L---
+
I ROW COL VOLTS DEG INtl PER CNN4 LOCH INCNI 114012 ORLEN BEOT ENDT POIA PTYPE CAL L C01M1
.+....-+--..+.....
+--4.-....
31
Palo Verde 2 U2J*I5 PVNGS2 20091001 10/2612009 22:34:23 I ROW COL VOLTS DEG IND PER CNN LOCH IINCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
---71 i
1152 93
.48 69 PCT 14 P2 VS2
.54 VS3 TEN
.610 NBAZC
- 43. HlI 1152 93
.99 82 PCT 18 P3 VS2
.54
.14 VS2 VS2
.580 NPUFZ 72 HI I
1162 93
.28 98 POT 7
P2 VS5
-. 69 VS3 TEC
.610 NBAZC a C I
162 93 A84 75 POT
- 13.
P3 VS5
-. 69
.20 VS5 VS5
.580 ZPUFZ 73 CIDQAI 166 93
.33 133 PCT 8
P2 B142
.52 VS3 TEC
.610 NBAZC 8
C I
166 93 A91 40 POT 14 P3 BW2
-. 44
.21 10C VS5
.580 ZPUFZ 73 CIDQAI 79 94
.37 94 PCT 10 P2 VS2
.47 V53 TEH
,610 NBAZC 24 HlI 79 94 A97 82 POT 17 P3 VS2
.47
.33 VS2 VS2
.580 NPUFZ 71 HIDOAI 169 94
.54 124 PCT 12 P2 BW2
.84 VS3 TEC
.610 NBAZC le C I
169 94 1.10 106 POT 16 P3 BW2
.84
.20 IOC VS5
.580 ZPUFZ 73 CIDOAl 60 95
ý35 65 PCT 10 P2 6BW1
.71 VS3 TEN
-610 NBAZC 24 HlI 62 95
.39 153 PCT 11 P2 Bw1
.79 VS3 TEN
.610 NWAC 24 HlI 62 95
.76 83 PCT 14 P3 BMl
.79
.12' 08H VS2
.580 NPUFZ 71 HIDOAI 86 95
-GS 139 PCT 20 P2 VS3
.54 V53 TEN
.610 NBAZC 24 HI I
86 95
.64 124 POT 14 P2 VS4
-.79 VS3 *TEC
.610 NBAZC 24 C
I 86 95 1.54 101 PCT 22 P3 VS4
-. 67
.34 VS4 VS4
.580 NPUFZ 67 CIDGAI 86 95 1.13 82 PCT 20 P3 VS3
.54
.14 VS3 VS3
.580 NPUFZ 71 HIDOAI 1 6 95 1.12 82 PCT 20 P3 VS3
.60
.25 VS3 VS3
,580 NPUFZ 71 H1I 1114 95
.54 80 PCT 16 P2 V$Z
-. 84 VS3 TE14
.610 NBAZG 41 HlI 1114 95 1ý35 85 POT 23 P3 VSZ
-. 84
.53 VS2 VS2
.580 NPUFZ 72 HIDGAI 145 96 o54 76 PCT 16 P2 BW1
-. 74 VS3 TEN
.610 KBAZG 1
HiI 145 96 1.37 93 PCT 23 P3 BW1
-. 74
.16 07H VS3
.580 NPUFZ 71 HIDOAI 161 96
.36 119 PCT 12' P2 VS2
.97 V53 TEN
.610 NBAZC 21 141 161 96
.83 87 POT 15 P3 VS2
.60
.10 BW1 VS2
.580 NPUFZ 71 H IDOAI 167 96
.31 91 PCT 10 P2 BW1
-. 97 VS3 TEN
.610 NBAZC 21 HI I
167 96
.80 94 POT 15 P3 BHI
-. 97
.12 08H VS2
- 580 NPUFZ 71 HIDQAI 199 96
.22 89 POT 7
P2 BHI
-. 80 VS3 TEH
.610 NBAZC 21 HlI 133 96
.31 131 PCT 8
P2 11C
-. 93 VS3 TEC
.610 KBAZ.C 39 C
I 153 96
.28 90 POT a
P2 owl
-.86 VS3 TEH
.610 NBAZC 4.4 HlI 46 97
ý85 81 POT 22 P2 VS3
.52 VS3 TEH
.610 NBAZC 1
H1I 46 97
.74 80 POT 14 P3 VS3
.23
.25 VS3 VS3
.580 NPUFZ 71 1H10QAI 46 97 1.56 81 POT 25 P3 VS3
.81
.31 VS3 VS3
.580 NPUFZ 71 HiI 48 97
.52 61 POT 15 P2 VS3
.49 VS3 TEH
.610 NBAZC 1
14I 48 97 1.40 85 PCT 23 P3 VS3
.49
.08 VS3 VS3
.580 NPUFZ 71 HIDOAI 50 97
.23 84 PCT a
P2 awl
-.64 VS3 TEll
.610 NBAZC 1
HlI 50 97
.61 99 POT 12 P3 BW1
-. 83
.12 08H VS3
-580 NPUFZ 71 HIDOAI 158 97
.27 106 POT 7
P2 BW2
-. 97 VS3 TEC
.610 NBAZC 11 C
I 1,59 97
.82 91 PCT 12 P3 BW2
-. 97
.17 16C VS5
.580 ZPUFZ 73 CIDQAI 170 97
-35 96 POT 8
P2 BW2
-. 98 VS3 TEC
.610 NBAZC 10 C
I 170 97
.73 50 POT 11 P3 BW2
-. 88
.14 10C VS5
.580 ZPUFZ 73 CJDOAI 1103 98
.27 137 POT 8
P2 BWI
.79 VS3 TEH
.610 NWAC 22 H1 I
1161 98
.15 106 PCT 5,
P2 VS2
-1.00 VS3 TEN
.610 NBAZC 43 H1I I1la 98
.72 126 POT 16 P2 BW2
.82 VS3 TEC
.610 NIBAZC 11 C
I 1169 98
,27 74 POT 7
P2 Ole
-. 98, V33 TEC
.610 NBAZC 11 C
I 1169 98
.70 82? POT 11 P3 Ole
-.94
.44 Ole Ole
.600 ZPAHZ 63 c
I 1169 98 1.34 107 POT 19 P3 RW2
.92
.23 10c VS5
.580 ZPUF2 73 CIDQAI 1171 98
,28 145 POT 7
P2 BW2
-. 90 VS3 TEC
.610 NBAZC 11 c
I 1171 98
.67 1243 POT 11 P3 BW2
-. 90
.17 10C VS5
.580 ZPUFZ 73 CIO0,Al I
I
+.-...
t " -- -
--- t"
+.....
t " -------.
t..
.l-- --
I ROW
,COL VOLTS DEG IND PER CHN LOON INCHI INCH2 CRLEN BEGT FNOT POIA PTYPE CAL L (COMI 32
Palo Verde 2 U2R15 PVNGS2 20091001 10/26/2009 22:34:23
÷....
+....
÷---
-- +-----
f-.......
I ROW COL VOLTS DEG IND PER CHN LOCN INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+-...
+----
+......
4-.......
-+-.
- 4.
.+-......
÷ 1 68 99
.26 131 POT 7
P2 G9H
.84 VS3 TEN
.610 NBAZC 22 HI I
I I
84 99
.34 72 PCT 10 P2 VS2
-. 61 VS3 TEN
.610 NBAZC 22 HI I
84 99
.62 93 PCT 12 P3 VS2
-. 74
.19 VS2 VS2
.580 NPUFZ 70 HIDQAI 100 99
.38 150 PCT 9
P2 BW1
-. 82 VS3 TEH
.610 NBAZC 22 HI I
1 106 99
.35 122 POT 10 P2 VS3
.00 VS3 TEN
.610 NBAZC 22 HI I
53 100
.29 43 POT 10 P2 BW1
-. 70 VS3 TEN
.610 NBAZC 1
HI I
53 100
.61 93 PCT 12 P3 BW1
-. 93
.28 08H VS3
.580 NPUFZ 72 HIDQAII 109 188
.25 128 POT 8
P2 VS2
-. 97 VS3 TEN
.610 NUAZC 21 HI I
109 108
.67 81 PCT 13 P3 V52
-. 97
.10 VS2 VS2
.580 NPUFZ 71 HIDOAI 123 100
.20 29 POT 7
P2 VSI
.70 V53 TEN
.610 NBAZC 43 HI I
133 100
.33 133 POT 8
P2 11C
-. 92 VS3 TEC
.610 NOAZC 39 CI I
169 100
.43 78 POT 11 P2 BW2
-1.80 VS3 TEC
.610 NEAZC 12 CI I
171 108
.78 131 POT 17 P2 8142
.75 153 TEC
.610 NOAZO 12 CI 171 100
.49 136 POT 12 P2 02C
.79 VS3 TEC
.610 NSAZC 12 Cf I
171 100
.24 119 POT 6
P2 01C
-. 90 VS3 TEC
.610 NBAZC 12 CI I
171 100 1.21 81 PCT 18 P3 02C
.92
.83 82C 02C
.600 ZPAHZ 63 CI I
171 100
.78 91 PCT 11 P3 10C
-. 88
.47 80C 10C.600 ZPAHZ 63 CI 171 100 1.34 127 PCT 19 P3 BW2
.75
.23 10C V55
.580 ZPUFZ 73 CIDOAII 1 62 101
.37 128 PCT 10 P2 BW1
.89 VS3 TEN
.610 NBAZC 22 HI I
62 101
.52 141 PCT 14 P2 VS3
.72 VS3 TEN
.610 NBAZC 22 HI I
62 181
.55 75 PCT 11 P3 9W1 1.12
.29 08H VS2
.580 NPUFZ 70 HIDGAI 62 101
.98 75 PCT 18 P3 VS3
.72
.40 VS3 VS3
.580 NPUFZ 70 HIDOAlII 84 101
.47 96 PCT 13 P2 VS2
-. 58 VS3 TEN
.610 NBAZC 22 HI I
84 101
.42 155 PCT 11 P2 VS3
.66 VS3 TEN
.610 NBAZC 22 HI I
84 101 1.81 89 PCT 18 P3 VS2
-. 76
.31 VS2 VS2
.580 NPUFZ 70 HIDOAI 84 101
.76 103 PCT 14 P3 VS3
.75
.33 VS3 V53
.580 NPUFZ 70 HIDOAI I 166 101
.25 53 PCT 7
P2 8W2
.95 VS3 TEC
.610 NBAZC 11 Cf II 168 101
.49 82 PCT 12 P2 8W2
.87 VS3 TEC
.610 NBAZC 11 Cf I
168 101
.38 71 PCT 10 P2 01C
-. 95 VS3 TEC
.610 NBAZC 11 Cf I
168 101 1.28 57 PCT 18 P3 812
.90
.36 10C VS5
.580 ZPUFZ 72 CIDQAI 170 101
.26 106 PCT 7
P2 8W2
.90 VS3 TEC
.618 NHAZC 11 CI I
75 102
.36 147 PCT 10 P2 VS2
.74 VS3 TEN
.610 NBAZC 22 Hf I
111 102
.26 144 PCT 8
P2 BW1
.94 VS3 TEN
.610 NBAZC 22 HI I
161 102
.28 20 PCT 9
P2 BW1
.80 VS3 TEN
.618 NBAZC 45 HI I
161 102
.78 81 POT 15 P3 BW1
.80
.14 lOH VS1
.580 NPUFZ 72 HIDQAI 169 102
.36 136 PCT 9
P2 BW2
.85 VS3 TEC
.610 NBAZC 11 CI I
169 102
.86 183 PCT 13 P3 BW2
.88
.27 10C VS5
.580 ZPUFZ 72 CIDOAI 171 102
.39 188 POT 18 P2 10C
-. 97 VS3 TEC
.610 N8AZC 11 C0 I
1 171 102
.78 87 PCT 12 P3 01C
-. 95
.65 010C 80C 600 ZPAHZ 63 CO I
I 128 103
.22 72 POT 6
P2 VS4
.95 VS3 TEC
.610 NBAZC 40 C1 I
1 128 103
.71 85 PCT 11 P3 VS4
.71
.42 V34 VS4
.580 NPUFZ 68 Cl I
1 63 104
.34 63 POT 11 P2 814
.95 VS3 TEH
.610 NBAZC 1
HI I
1 53 104 1.04 82 POT 19 P3 614 1.65
.36 OSH VS3
.580 NPUFZ 70 HjDOjtf 77 104
.21 136 PCT 7
P2 VS2
.47 VS3 TEH
.610 NBAZC 21 HI I
77 104
.66 67 POT 13 P3 VS2
.63
.33 VS2 VS2
.680 NPUFZ 70 HIOQAII 133 104
.32 107 PCT 8
P2 11C
-. 93 VS3 TEC
.610 NBAZC 39 C1 II 48 105
.35 96 POT 11 P2 BW1
.73 VS3 TEN
.610 NBAZC 1
HI I
48.105
.86 99 POT 16 P3 BW1 1.29
.36 QSH VS3
.680 NPUFZ 70 HIDQAI
+-------------------------------------+---+---+----+--.+.----+---------+
+-
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+.....-.+....----+----+----+----.----+.
.+
÷.....
+..------t
--t
+.-....
÷....
33
Palo Verde 2 U.R15 PVNGS2 20091001 10/26/2009 22i34:23 S+----------------------+-----t-----+-----+-----4.----+---t t------
+----------
I ROW COL VOLTS DEG IND PER CHN LOON INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI S+----------------------+-----+-----+-----4-----+----+----------+----+
+----------
1 47 106 1.08 64 PCT 25 P2 81
-1.07 VS3 TEN
.610 NBAZC 5
HI I
1 47 106 1.32 98 PCT 23 P3 14
-. 65
.48 07H VS3
.580 NPUFZ 70 HIDOAI 1 67 106
.27 160 PCT 8
P2 VS3
.65 VS3 TEN
.610 NBAZC 22 HI I
1 119 106
.22 75 PCT 7
P2 VS2
.57 VS3 TEN
.610 NBAZC 44 HI I
1 119 106
.87 80 POT 16 P3 VSZ
.57
.18 VS2 VS2
.580 HPUFZ 71 HIDOAI 161 106
.26 36 POT 8
P2 VS1
.62 VS3 TEN
.610 NBAZC 45 HI I
161 106 e8l 93 POT 15 P3 VS1
.62
.25 VS1 V1
.580 NPUFZ 71 HIDOAI 112 107
.42 122 POT 12 P2 VS2
-. 96 VS3 TEN
.610 NBAZC 46 HI I
112 107
.79 74 POT 15 P3 VSZ
-. 69
.48 VS2 V12
.580 NPUFZ 70 HIDQAl 118 107
.90 118 POT 21 P2; B11
.93 VS3 TEN
.610 NBAZC 46 HI I
118 107 1.50 80 POT 25 P3 B8l
.93
.27 09H VS1
.580 NPUFZ 71 HIOJAl 164 107
.23 124 PCT 6
P2 BW2
-. 80 VS3 TEC
.610 NBAZC 12 CI I
164 107
.77 61 PCT 12 P3 BW2
-. 91
.30 10C VS5
.580 ZPUFZ 72 CIDOAI 170 107
.52 124 POT 12 P2 B62
-. 80 VS3 TEC
.610 NBAZC 12 CI I
170 107 1.53 86 POT 22 P3 B142
-. 70
.25 10C VS5
.580 ZPUFZ 72 CIDOAI 1 59 108
.66 55 POT 18 P2 BW1
-. 85 VS3 TEN
.610 NBAZC 21 HI I
1 59 108 1.19 105 POT 21 P3 BW1
-. 67
.40 08H VS2
.580 NPUFZ 70 HIDQAI 61 108
.25 103 POT 8
P2 814
-. 92 VS3 TEN
.610 NBAZC 21 HI I
61 108
.73 57 POT 14 P3 BW1
-. 74
.33 OSH VS2
.580 NPUFZ 70 HIDQAI 75 108
.23 47 POT 8
P2 VS2
.75 VS3 TEN
.610 NBAZC 21 HI 1
83 108
.23 132 POT 6
P2 V$3
-. 98 VS3 TEC
.610 NBAZC 14 CI I
83 108
.49 88 POT 15 P2 VS2
-. 94 VS3 TEN
.610 NBAZC 21 HI I
83 108
.93 75 POT 17 P3 VS2
-. 92
.14 VS2 VS2
.580 NPUFZ 70 HIDOAl i111 108
.52 135 POT 12 P2 VS4
.86 VS3 TEC
.610 NBAZC 22 CI I
I111 108 1.01 90 POT 15 P3 VS4
.93
.35 VS4 V14
.580 NPUFZ 68 CI I
117 108
.22 102 POT 7
P2 BW1
-. 96 VS3 TEN
.610 NBAZC 46 HI I
117 108
.56 91 POT 11 P3 BW1
-. 67
.21 09H VSI
.580 NPUFZ 70 HIDQAI 121 108
.48 99 POT 13 P2 BW1
-. 96 VS3 TEN
.610 NBAZC 46 HI I
121 108
.78 87 POT 15 P3 81
-. 70
.19 09H VS1
.580 NPUFZ 70 HIDQAI 133 108
.22 151 POT 7
P2 11H
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.610 NBAZC 46 HI I
167 108
.33 165 POT 8
P2 B82
.97 VS3 TEC
.610 NBAZC 12 CI I
167 108
.67 117 PCT 11 P3 BW2
.89
.16 10C VSS
.680 ZPUFZ 72 CIDOAl 169 108
.30 103 POT 8
P2 BW2
.98 VS3 TEC
.610 NBAZC 12 CI I
169 108
.75 98 POT 12 P3 BW2
.75
.27 10C VS5
- 580 ZPUFZ 72 CO I
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.28 101 POT 7
P2 BW2
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.610 NBAZC 12 CI I
1 171 108
.20 50 POT 6
P2 B14
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.610 NBAZC 46 HI I
1 171 108
.19 110 POT 6
P2 VS3
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.610 NBAZC 46 HI 1 171 108
.76 90 POT 15 P3 B14 1.14
.22 BW1 VS3
.580 NPUFZ 72 HIDOAI 1 171 108
.86 102 POT 13 P3 BW2
.89
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.580 ZPUFZ 72 CIDQAI I 58 109
.32 144 POT 9
P2 814
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.610 NBAZC 22 HI I
I 58 109
.64 87 POT 12 P3 811
-. 30
.19 08H VS3
.580 NPUFZ 70 HIDQAI 166 109
.32 44 POT 10 P2 VS2
.98 VS3 TEN
.610 HBAZC 45 H14I 166 109
.76 78 PCT 14 P3 VS2
.98
.16 VS2 VS2
.580 NPUFZ 71 HIDOAI 57 110
.33 99 POT 9
P2 8wl 1.75 VS3 TEN
.610 NBAZC 22 HI I
57 110
.84 69 POT 16 P3 BW1 1.87
.12 08H VS3
.580 NPUFZ 70 HIDQAI 84 111
.32 50 PCT 10 P2 V12
.85 VS3 TEN
.610 NBAZC 21 HI I
84 111 1.11 74 POT 20 P3 VS2
.80
.43 VS2 VS2
.580 NPUFZ 70 HIDOQAJI 146 111 1.11 10 POT 24 P2 VS2
.86 VS3 TEN
.610 NBAZC 46 HI I
-+-------------------------------+----+----+----+---.------+
t----4 +
+
I ROW COL VOLTS DEG IND PER CHN LOON INCH1 INCH2 CRLEN BEGT ENOT POIA PTYPE CAL L COMI
't...----------------------
.*-------------------------.-i-34
Palo Verde 2 U2R15 PVNGS2 20091001 10/26/2009 22:34:23
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-- -... - -... +.
. 4-..
- -- 4 1146 111 1.29 76 PCT 22 P3 VS2
.82
.24 VS2 VS2
.580 NPUFZ 70 HIDOAJ 149 112 o23 135 PCT 7
P2 09H
-. 91 VS3 TEN
.610
- NBAZC, 6
NJI I
7 1
.7 3
T 3
P BH
.5" 3TE 60NAC 1HI 167 112
.87 97 PCT 23 P2 VS3
.85 VS3 TEN
.610 NBAZC 21 HJI 167 112 1.74 90 PCT 28 P3 BW1
.91
.62 08H VS3
.580 NPUFZ 70 HIDOAj 167 112
.57 89 PCT 11 P3 VS3
.72
.24 08H VS3
.580 NPUFZ 70 NJI 169 112
.27 121 PCT 9
P2 BW1
.85 VS3 TEN
.610 NBAZC 21 NJI 169 112
.77 83 PCT 15 P3 BW1
.93
.45 08H VS2
.580 NPUFZ 70 HJDOAI 1117 112
.41 150 PCT 10 P2 VS4
-. 69 VS3 TEC
.610 NBAZC 22 C
I 1117 112
.93 70 PCT 14 P3 VS4
-. 78
.32 VS4 VS4
.580 NPUFZ 68 C
I 1161 112
.23 109 PCT 6
P2 BW2
-. 89 VS3 TEC
.610 NBAZC 12 C
I 1161 112
- 71 63 PCT 11 P3 BN2
-. 90
.25 10C VS5
.580 ZPUFZ 72 CIDQAI 56 113 A40 98 PCT 11 P2 BW1
-1.39 VS3 TEN
.610 KBAZC 22 HJI 56 113
.73 79 PCT 14 P3 1514
-1.00
.24 08H VS3
- 580 NPUFZ 70 HJDOAJ 84 113
.52 151 PCT 14 P2 BW1
-. 73 VS3 TEN
.610 NBAZC 22 NJI 84 113 1.06 86 PCT 19 P3 BW1
-. 55
.67 08H VS2
.580 NPUFZ 70 HIDOAJ 1106 113
.24 119 PCT 6
P2 VS4
.80 VS3 TEC
.610 NBAZC 21 C
I 1.09 11.3
ý28 126 PCT 7
P2 VS4
.84 VS3 TEO;
.610 NBAZC 21 C
I 110 113 1,30 120 PCT 24 P2 VS4
-.97 VS3 TEC
.610 NBAZC 21 C
I 110 113
.38 154 PCT 10 P2 VS2
.79 VS3 TE14
.610 NBAZC 22 NJI 110 113 2.54 79 PCT 31 P3 V$4
-. 55
.42 VS4 VS4
.580 NPUFZ 68 C
I 1110 113
.77 82 PCT 15 P3 VS2
.60
.24 VS2 VS2
.580 NPUFZ 70 HIDQOj*
1112 113
.63 115 PCT 14 P2 VS4
.92 VS3 TEC
.610 NBAZC 21 C
I 1112 113 1,18 83 PCT 17 P3 VS4
.92
.32 VS4 VS4
.580 NPUFZ 68 ClI 1116 113
.22 35 PCT 7
P2 VS3
-. 93 VS3 TEN
.610 NBAZC 45 HJI 1116 113
.61 69 PCT 12 P3 VS3
-. 73
.19 VS3 VS3
.580 NPUFZ 70 HIDOAj 149 114
.80 109 PCT 17 P2 BW2
-. 83 VS3 TEC
.610 NBAZC 3
C I
149 114 1.74 118 PCT 29 P2 BW2
.96 VS3 TEC
.610 NBAZC 3
Cl 149 114 1.49 86 PCT 20 P3 BW2
-. 69
.51 08C VS3
.580 NPUFZ 68 C
I 149 114 2.39 84 PCT 29 P3 BW2
.91
.48 08C VS3
.580 NPUFZ 68 CIDQAI 151 114
.35 134 PCT 9
P2 BW2
.69 VS3 TEC
.610 NBAZC 3
C1I 151 114
.80 79 PCT 12 P3 BW2
.83
.32 08C VS3
.580 NPUFZ 68 C
I 1113 114
.64 117 PCT 14 P2 VS4
.89 VS3 TEC
.610 NBAZC 21 C
I 1113 114 1.10 90 PCT 16 P3 VS4
.81
.48 VS4 VS4
.580 NPUFZ 68 CIDQAI 1117 114
.51 12a PCT 12 P2 VS4
-. 83 VS3 TEC
,610 NBAZC 40 C1I 1117 114
.21 117 PCT 7
P2 VS2
.62 VS3 TEN
.610 NBAZC 45 NJI 1117 114
.19 26 PCT 7
P2 VS3
.82 VS3 TEN
. 610 NBAZC 45 NJI 1117 114 1.11 89 PCT 16 P3 VS4
-. 81
.71 VS4 VS4
.580 NPUFZ 68 C
I 1117 114
.136 91 PCT 16 P3 VS2
.79
.52 VS2 VS2
.580 NPUFZ 70 HJnOAj 1117 114
.63 77 PCT 12 P3 VS3
.86
.24 VS3 VS3
.580 NPUFZ 70 HIDAJ*,
1139 114
.22 30 PCT 7
P2 VS1
.62 VS3 TEN
.610 NBAZC 45 NJI 1139 114
.61 76 PCT 12 P3 VS1
.70
.29 VS1 VS1
.580 NPUFZ 70 HIDQAI 1161 114
.25 132 PCT 8
P2 VS2
-1.12 VS3 TEN
.610 NBAZC 45 HJI 1161 114
.57, 76 PCT 11 P3 VS2
-1.12
.31 VS2 VS2
.560 NPUFZ 71 NJI I4a 115
.46 112 PCT 14 P2 BW1
-. 97 VS3 TEN
.610 NBAZC 5 NJI I4a 115 1.08 88 PCT 19 P3 BW1
-. 88 1.12 28H VS3
.580 NPUFZ 70 HIDQAI 1 5 115
.34 127 PCT 9
P2 BW2
.46 VS3 TEC
.610 NBAZC 3
C I
I s 115
ý83 92 PCT 12 P3 5112
.67
.48 08C VS3
.680 NPUFZ 68 CInOQA.
160 115
.23 142 PCT 6
P2 VS3
-. 92 VS3 TEC
.610 N8AZC 12 CI 1
160 115
.77 76 PCT t6 F3 V83
-. 81
.38 VS3 VS3
.580 NPUFZ 70 HIDOQ*I I ROW iýOL VOLTS DEG IND PER CHN LOCN INCHI INQH2 CRLEN KQGT ENOT POIA PTYRE CAL L COMI is
Palo Verde 2 UZR15 PVNGS2 20091001 10/26/2009 22:34:23
+--------------4 4---------
+
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENOT POIA PTYPE CAL L COMI
+.
.÷----.----.
+-...
+
4----
+-......
÷ 1 66 115
.73 109 PCT 16 P2 VS3
-. 93 VS3 TEC
.610 NBAZC 12 CI I
1 66 115 1.10 84 PCT 20 P3 VS3
-. 82
.29 VS3 VS3
.580 NPUFZ 70 HIDOAI 1 100 115
.33 146 PCT 8
P2 V$4
-. 77 VS3 TEC
.610 NBAZC 22 Cl I
1 100 115
.93 74 PCT 14 P3 VS4
-. 58
.42 VS4 VS4
.580 NPUFZ 68 CI I
1 106 115
.21 114 PCT 7
P2 BWl
-. 30 VS3 TEN
.610 NBAZC 21 HI I
1 168 115
.25 141 PCT 7
P2 BW2
-1.00 1S3 TEC
-610 HBAZC 12 CU I
1 168 115
.39 141 PUT 10 P2 BW2
.78 VS3 TEC
.610 NBAZC 12 CI I
1 168 115 1.03 95 PCT 16 P3 BW12
.83
.23 10C VS5
.580 ZPUFZ 72 ClDOAI 1 41 116
.49 143 PCT 14 P2 BW1
-1.00 VS3 TEN
.610 NBAZC 6
HI I
1 41 116
.91 94 PCT 17 P3 BWl
-. 73
.26 07H VS3
.580 NPUFZ 70 HIDOQAI 1 49 116
.33 118 PCT 10 P2 0914
.88 VS3 TEN
.610 NBAZC 6
HI I
1 67 116
.61 135 POT 14 P2 VS3
.80 VS3 TEC
.610 NBAZC 12 Ul I
1 67 116 1.38 82 PUT 23 P3 VS3
.53
.50 VS3 VS3
.580 NPUFZ 70 HID0AI 1 48 117
.42 134 POT 12 P2 BW1
.77 V53 TEN
.610 NBAZC 6
NI I
1 48 117
.30 125 PCT 9
P2 VS3
.62 VS3 TEN
.610 NBAZC 6
NI I
1 48 117
.93 83 POT 17 P3 BWI 1.55
.19 08H VS3
.580 NPUFZ 71 1110DA 1 48 117
.84 79 POT 16 P3 VS3
.80
.21 08H VS3
.580 NPUFZ 71 NI I
1 90 117
.21 57 PCT 5
P2 100c
-. 92 V53 TEC
.610 NBAZC 21 CI I
1 116 117
.94 114 POT 19 P2 VS4
-. 88 V83 TEC
.610 NBAZC 40 CI I
1 116 117
.31 30 POT 10 P2 VS2
.65 V53 TEN
.610 NBAZC 45 NH I
1 116 117
.59 74 PCT 17 P2 VS3
.73 VS3 TEN
.610 NBAZC 45 NI I
1 116 117 1.96 81 PCT 25 P3 VS4
-. 65
.48 VS4 VS4
.580 NPUFZ 68 CIDGAI 1 116 117
.75 78 PUT 14 P3 VS2
.70
.19 V52 VS2
.580 NPUFZ 70 HIDQAI 1 116 117 1.27 83 PCT 22 P3 VS3
.76
.40 VS3 VS3
.580 NPUFZ 70 HIDQAII 118 117
.20 51 PUT 7
P2 VS2
-. 35 V53 TEN
.610 NBAZC 45 NI I
118 117
.22 88 PCT 7
P2 VS3
-. 45 VS3 TEN
.610 NBAZC 45 NI I
118 117
.17 57 PCT 6
P2 VS3
.95 V53 TEN
.610 NBAZC 45 NI I
118 117
.75 83 PCT 14 P3 V$2
-. 19
.31 V52 VS2
.580 NPUFZ 70 NIDGAI 118 117
.77 74 PCT 15 P3 VS3
-. 24
.62 V53 VS3
.580 NPUFZ 70 HIDQAI 118 117
.68 82 PCT 13 P3 VS3
.89
.19 VS3 VS3
.580 NPUFZ 70 NI I
164 117
.50 146 PCT 12 P2 BW2
-. 92 VS3 TEC
.610 NBAZC 11 Cl I
164 117 1.36 81 PCT 20 P3 BW2
-. 86
.43 10C VS5
.580 ZPUFZ 72 CIDQAI 45 119
.24 29 PCT 8
P2 B11
-. 92 VS3 TEN
.610 NBAZC 5 HI I
45 118
.60 58 PCT 12 P3 BWl
-. 92
.14 07H VS3
.580 NPUFZ 71 HIDOAI 47 118
.24 53 PCT 8
P2 BW1
.87 V53 TEN
.610 NBAZC 5
NI I
85 118
.37 130 PCT 10 P2 BW1
-. 88 V1S3 TEN
.610 NBAZC 20 NI I
85 118
.98 86 PUT 18 P3 BWl
-. 85
.48 08N VS2
.580 NPUFZ 71 HIDOAI 87 118
.24 116 PCT 7
P2 BW1
-. 83 VS3 TEN
.610 NBAZC 20 NI I
87 118
.64 73 PCT 12 P3 aW1
-. 89
.14 0814 VS2
.580 NPUFZ 71 HIDOAI 89 118
.63 90 PCT 16 P2 BWl
.95 V53 TEN
.610 NBAZC 20 HI I
89 118 1.30 93 PCT 22 P3 BWl 1.00
.14 08H VS2
.580 NPUFZ 71 HIDOQAI 107 118
.57 127 PUT 13 P2 1S4
.96 VS3 TEC
.610 NBAZC 21 CI I
107 118 1.07 99 PCT 15 P3 VS4
.95
.32 VS4 VS4
.680 NPUFZ 68 CI I
115 118
.24 127 PCT 6
P2 82
-. 83 VS3 TEC
.610 NBAZC 21 CI I
44 119
.70 108 PUT 19 P2 BwI
-1.02 VS3 TEN
.610 NBAZC 5
NJ I
44 119 1.39 91 PUT 25 P3 BWl
-.70
.31 07H VS3
.680 NPUFZ 69 HIDQAII 46 119
.31 114 PUT 10 P2 BWI
.77 V13 TEN
.610 NBAZC 5
NJ I
46 109
.62 65 PUT 12 P3 BWl
.83
.14 07H V$3
.580 NPUFZ 71 HIOQAII 48 119
.50 136 PCT 16 P2 BWi
.77 V53 TEN
.610 NBAZC 5
NI I
48 119
.87 75 PUT 16 P3 BWl
.97
.38 08H VS3
.580 NPUFZ 71 HIDQAI I
I ROW COL VOLTS DEG IND PER.CHN LOUN INCHI ItCH2 MRLEN BEGT ENDT PDIA PTYPE CAL L COMI
.+....ýý---+---
+---
+-------------------,-----t---------*--------------4----.----+
36
Palo Verde 2 U21115 PVNGS2 20091001 10/26/2009 22:34:23
+..
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. +..
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I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+.....
+._÷...
as 8
119
.25 68 PCT 8
P2 BW1
-. 87 VS3 TEN
.610 NBAZC 19 Hl I
88 119
.56 92 PCT 11 P3 BW1
-. 88
.17 08H VS2
.580 NPUFZ 71 HjDQAl 142 119
_29 150 PCT 8
P2 VS4
-. 77 VS3 TEC
.610 NBAZC 9
C I
142 119
.87 99 PCT 13 P3 V$4
-. 95
.55 VS4 VS4
.580 NPUFZ 69 C
I 39 120
.23 133 PCT 7
P2 BW1
.96 VS3 TEN
.610 KBAZC 6
HlI 43 120
.47 109 PCT 13 P2 BW1
.65 VS3 TEN
.610 NBAZC 6
H1I 43 120
.92 82 PCT 18 P3 BW1 1.00
.19 07H VS3
.580 NPUFZ 69 HJDOAI 45 120 1.44 119 PCT 29 P2 BW1
.80 VS3 TEN
.610 NBAZC 6
H1I 45 120
.72 109 PCT 18 P2 VS3
-. 62 VS3 TEN
.610 NBAZC 6
HI I
45 120 1.80 67 PCT 30 P3 BW1
.88
.45 07H VS3
.580 NPUFZ 69 HIDGAI 45 120 1,19 79 PCT 22 P3 VS3
-,50
.29 07H VS3
.580 NPUFZ 69 HIDGAI 67 120
.82 65 PCT 16 P2 BWt
.84 VS3 TEN
.610 NBAZC 19 HI I
67 120 1.41 86 PCT 25 P3 BWI
.50
.29 08H VSZ
.580 NPUFZ 69 HIDGAI S69 120
.40 51 PCT 11 P2 Bw1
.80 V53 TE14
.610 NBAZG 19 HI I
1 69 120
.93 104 PCT 18 P3 BW1
.92
.24 09H VS2
.580 NPUFZ 69 HIDQAI 138 121 r72 115 PCT 18 P2 VS3
,63 VS3 TE14.610 NBAZC 6
HI I
138 121
.99 85 PCT 19 P3 VS3
.76
.26 VS3 VS3
.590 NPUFZ 69 HIDOAI 40 121 1.03 119 PCT 23 P2 V$3
.60 VS3 TEN
.610 NBAZC 6
HI I
40 121 1,18 as PCT 22 P3 US3
.99
.79
- VS3, VS3
.580 NPUFZ 69 HIDOAI 62 121
.26 159 PCT 8
P2 BW!
-. 92 VS3 TEN
.610 NBAZC 20 HI I
62 121
.69 94 PCT 14 P3 BWI
-. 81
.57 08H VS3
-580 NPUFZ 69 HIDOAI 1108 121
.59 127 PCT 13 P2 VS4
-. 84 VS3 TEC
.610 NBAZC 21 C
I 1108 121 1.46 67 PCT 20 P3 VS4
-. 72
.42 VS4 VS4
.580 NPUFZ 69 C1I 110 121
.46 139 PCT 11 P2 VS4
-. 79 VS3 TEC
.610 NBAZC 21 C
I 110 121 1.10 89 PCT 16 P3 VS4
-. 82
.52 VS4 VS4
.580 NPUFZ 69 C
I 120 121
.53 66 PCT 16 P2 VS2
.81 VS3 TEN
-610 NBAZC 47 HI I
120 121 1.50 86 PCT 26 P3 VS2
.73
.45 VS2 VS2
.580 NPUFZ 69 HjDQAI I
162 121
.29 11B PCT 7
P2 BW2
-. 90 VS3 TEC
.610 NBAZC 9
Cl I
162 121 1,16 77 PCT 17 P3 BW2
-. 83
.43 IOC VS5
.580 ZPUFZ 72 CjDOAI 168 21 36 ll PT 9
P2 142
-.95VS3TEC
.610-KBZC Cl I
169 121
.336411 PCT 8
P2 BW2
-.87 VS3 TEC
.610 NBAZC 9
CI I
169 121
-97 78 PCT 15 P3 BW2
-1.00
.30 IOC VS5
-580 ZPUFZ 72 CIDOAl 168 121
.96 56 PCT 15 P3 BW2
.99
.27 IOC VS5
.580 ZPUFZ 72 CIDQIAI 37 122
.30 50 PCT 10 P2 BW1
.93 VS3 TEN
.610 NBAZC 5
HlI 37 122
.66 67 PCT 14 P3 BW1
.86
.19 07H VS3
-580 NPUFZ 69 HIDO~jI 39 122
.44 64 PCT 13 P2 BWI 1.15 VS3 TEH
-610 NBAZC 5
HI I
39 122
.68 93 PCT 14 P3 BW1
.80,
.19 07H VS3
.580 NPUFZ 69 HIDOQAl 41 122
.38 117 PCT 12 P2 Bw1
.75 VS3 TEN
.610 NBAZC 5
H1I 41 122
,50 71 PCT 11 P3 BW1
.75
.12 07H VS3
.580 NPUFZ 69 HIDQAI 47 122 5S8 61 PCT 16 P2 BW1
.62 VS3 TEN
-610 NBAZ.C 5
HlI 47 122
,97 93 PCT 19 P3 BWI
.70
.45 07H VS3
.580 NPUFZ 69 HIDQAI 166 122
.42 141 PCT 10 P2 BW2
.82 VS3 TEC
.610 NBAZC 9
C I
165 122 1.35 80 PCT 2e P3 BW2
.70
.16 10C VS5
.580 ZPUFZ 72 CIOQAI 167 122
.45 84 PCT 11 P2 BW2
.8S VS3 TEC
.610 NBAZC 9
C I
167 122 1.18 55 PCT 17 P3 BW2
.72
.17 IOC VS5
.580 ZPUFZ 71 CIOQAI 166 123
.33 1489 PCT 8
P2 BW2
.75 VS3 TEC
.610 NBAZC:
IQ C
I 166 123 1.04 48 PCT 16 P3 BW2
.89
.24 10C VS5
.580 ZPUFZ 71 CIDOJAI 169 123
.32 144 PCT 8
P2 BW2
-. 90 VS3 TEC
.610 NBAZC I0 c I
168 123
.30 131 PCT 7
P2 BW2
.90 VS3 TEC
.610 NBAZC:
10 C
I 168 123
.92 83 PCT 14 P3 BW2
-. 84
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.580 ZPUFZ 71 C
I
÷.÷-
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÷ I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI 37
Palo Verde 2 U2RI5 PVNGS2 20091001 10/26/2009 22:34:23 I ROW COL VOLTS DEG IND PER CHN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+--------.+---------+---------------+-----------------
++
1 168 123
.93 47 PCT 14 P3 82
.87
.19 10C VS5
.580 ZPUFZ 71 CI II 159 124
.69 117 PCT 15 P2 V63
.98 VS3 TEC
.610 NBAZC 10 CI I
159 124
.28 87 PCT 8
P2 VS2
-. 90 VS3 TEN
.610 N8AZC 48 HI I
159 124
.59 71 PCT 12 P3 VS2
-. 89
.26 VS2 VS2
.580 NPUFZ 69 HIDQAI 159 124 1.44 78 PCT 25 P3 VS3
.76
.40 VS3 VS3
.580 NPUFZ 69 HIDQAI 163 124
.27 139 PCT 7
P2 BW2
.80 VS3 TEC
.610 NBAZC 10 CI I
163 124
.72 76 PCT 11 P3 BW2
.89
.29 10C VS5
.580 ZPUFZ 71 CI I
I118 125
.22 31 PCT 7
P2 VS2
.95 VS3 TEN
.610 NBAZC 47 HI I
118 125
.59 72 PCT 12 P3 VS2
.95
.21 VS2 VS2
.580 NPUFZ 69 HIOQAI 120 125
.36 71 PCT 11 P2 VS3
-. 75 VS3 TEN
.610 NBAZC 47 HI I
I 120 125
.82 79 PCT 17 P3 VS3
-. 74
.40 VS3 VS3
.580 NPUFZ 69 HIDOAI I 132 125
.22 89 PCT 7
P2 VS1
.61 VS3 TEN
.610 NBAZC 47 HI 132 125
.85 74 PCT 17 P3 VS1
.67
.17 VS1 VS1
.580 NPUFZ 69 HIDOAI 160 125
.44 117 PCT 11 P2 BW2
-. 93 VS3 TEC
.610 NBAZC 9
CI I
160 125 1.37 82 PCT 20 P3 BW2
-. 75
.36 10C VS5
.580 ZPUFZ 71 C1 I
164 125
.48 100 PCT 11 P2 BW2
.90 VS3 TEC
.610 NBAZC 9
CI I
I 164 125 1.26 93 PCT 10 P3 B142
.98
.26 10C VS5
.580 ZPUFZ 71 CI I
67 126
.33 162 PCT 9
P2 B11
.85 VS3 TEN
.610 NBAZC 20 HI I
67 126
.61 96 PCT 13 P3 84
.87
.19 08H VS2
.580 NPUFZ 69 HIDQAI 159 126
.37 127 PCT 12 P2 VS2
-1.00 VS3 TEN
.610 NBAZC 47 HI I
159 126
.88 70 PCT 17 P3 VS2
-. 83
.21 VS2 VS2
.580 NPUFZ 69 HI I
161 126
.31 77 PCT 10 P2 VS1
.55 VS3 TEN
.610 NBAZC 45 HI I
161 126
.74 75 PCT 15 P3 VS1
.52
.17 VS1 VS1
.580 NPUFZ 69 HIDOAI 165 126
.80 124 PCT 17 P2 BW2
-. 92 VS3 TEC
.610 NBAZC 9
C1 I
165 126
.21 151 PCT 5
P2 BW2
.95 VS3 TEC
.610 NBAZC 9
C0 I
165 126 1.58 82 PCT 22 P3 B82
-. 78
.31 10C VS5
.560 ZPUFZ 71 CI I
165 126
.86 59 PCT 13 P3 B82
.71
.21 10C VS5
.580 ZPUFZ 71 CI I
28 127
.43 89 PCT 13 P2 VS3
.62 VS3 TEN
.610 NBAZC 5
HI I
28 127
.89 80 PCT 18 P3 VS3
.80
.21 VS3 VS3
.580 NPUFZ 69 HIDOAI 118 127
.25 100 PCT 8
P2 VS2
.96 VS3 TEN
.610 NBAZC 48 HI I
118 127
.61 79 PCT 13 P3 VS2
.83
.17 VS2 VS2
.580 NPUFZ 69 HIDOAI 164 127 1.72 125 PCT 28 P2 BW2
-. 85 VS3 TEC
.610 NBAZC 10 CI I
164 127 2.69 88 PCT 33 P3 BW2
-. 78
.33 10C VS5
.580 ZPUFZ 71 CI I
166 127
.52 138 PCT 12 P2 BW2
-. 94 VS3 TEC
.610 NBAZC 10 C0 I
166 127
.64 101 PCT 14 P2 BW2
.89 VS3 TEC
.610 NSAZC 10 C0 I
166 127 1.56 77 PCT 22 P3 BW2
-. 64
.21 10C VS5
.580 ZPUFZ 71 CI I
166 127 1,44 68 PCT 21 P3 BW2
.94
.31 10C VS5
.580 ZPUFZ 71 CI I
157 128
.47 138 PCT 11 P2 VS3
.92 VS3 TEC
.610 HBAZC 10 CI I
157 128
.87 65 POT 17 P3 VS3
.08
.65 VS3 VS3
.580 NPUFZ 69 HIDQAI 157 128 1.11 91 PCT 21 P3 VS3
.60
.43 VS3 VS3
.580 NPUFZ 69 HIDQAI 165 128 1.53 125 PCT 26 P2 BW2
.55 V13 TEC
.610 NBAZC 10 CI I
165 128 2.22 87 PCT 28 P3 8W2
.96
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I 14 129
.24 55 PCT 6
P2 VS4
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.610 NBAZC 21 CI I
118 129
.30 126 PCT 7
P2 VS4
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118 129
.83 82 PCT 12 P3 VS4
-. 72
.29 VS4 VS4
.580 NPUFZ 68 CI I
160 129
.24 74 PCT 6
P2 B82
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C0 I
160 129
.95 72 PCT 14 P3 82
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164 129 3.09 81 PCT 36 P3 8W2
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111 130
.30 65 POT 7
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Palo Verde 2 U2R15 PVNGS2 20091001 10/26/2009 22:34:23
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115 130
.21 124 POT 7
P2 BW1
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155 130
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163 130 2.23 83 POT 29 P3 BW2 1.00
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158 131
.28 139 POT 7
P2 BW2
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.610 NBAZC 10 CI I
158 131 1.01 74 PCT 15 P3 BW2
-. 83
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164 131 1-11 129 POT 21 P2 BW2
.83 VS3 TEC
.610 NBAZC 10 CI I
164 131 2.03 89 POT 27 P3 BW2
.79
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27 132
.26 111 PCT 7
P2 VS3 1.00 VS3 TEC
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CI I
27 132
.68 66 POT 14 P3 VS3
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.580 NPUFZ 69 IDO.AII 1 151 132
.23 120 PCT 7
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1 151 132
.79 77 PCT 16 P3 VSI
-. 54
.31 VS1 VS1
.580 NPUFZ 69 HIDOAI I
I 1 153 132
.36 119 PCT 9
P2 VS3
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.610 NBAZC 10 CI I
1 153 132
.67 71 PCT 14 P3 VS3
-. 55
.29 VS3 VS3
.580 NPUFZ 69 HIDOAI I163 132
.40 96 POT 10 P2 8HZ
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.610 NOAZO 10 CI 1 163 132
.40 119 PCT 9
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1 163 132 1.15 76 POT 17 P3 BHZ
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.580 ZPUFZ 71 CI I
1 163 132
.99 101 PCT 15 P3 BW2 1.00
.18 10C V'5
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1 119 133
.59 116 PCT 13 P2 VS3
.81 V53 TEC
.610 NOAZC 42 CI I
1 119 133 1.29 83 POT 23 P3 VS3
.59
.62 V53 VS3
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I 1 126 133
.30 126 POT 8
P2 BW2
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.610 NBAZC 42 CI I
I I
1 136 133
.62 126 POT 14 P2 VS3
-. 69 VS3 TEC
.610 NBAZC 42 CI I
1 136 133
.28 83 PCT 7
P2 VS3
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1 136 133 1.06 83 PCT 19 P3 VS3
-. 96
.14 VS3 VS3
.580 NPUFZ 71 HIDOAI 1 136 133
.67 77 POT 13 P3 VS3
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1 158 133 1.33 121 POT 25 P2 BW2
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1 158 133 2.41 89 PCT 30 P3 BH2
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1 162 133
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P2 82
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1 162 133 1.09 80 POT 16 P3 BW2
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1 91 134
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119 134
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119 134 1.08 94 POT 16 P3 VS4
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121 134
.22 140 POT 6
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125 134
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125 134
.97 87 POT 14 P3 VS4
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.48 VS4 VS4
.590 NPUFZ 68 CIDOAI 129 134
.24 135 PCT 6
P2 VS4
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159 134
.39 99 PCT 10 P2 BW2
.88 VS3 TEC
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Cl I
159 134 1.39 72 PCT 20 P3 BW2
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161 134
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I 152 135
.40 133 POT 9
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152 135
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156 135 2,38 83 PCT 30 P3 BW2
-. 95
,36 IOC VS5
.580 ZPUFZ 71 C1I 158 135
.50 133 POT 12 P2 BW2
-. 79 VS3 TEC
.610 NBAZC 10 C
I 158 135 1-11 77 POT 17 P3 BW2
-. 85
.16 10C VS5
.580 ZPUFZ 71 C1I 160 135 1-41 115 POT 25 P2 BW2
-. 73 VS3 TEC
.610 NBAZC 10 C
I 160 135 2A18 88 PCT 28 P3 BWZ
-. 71
.40 1OC VS5
.580 ZPUFZ 71 C1I 162 135 1-26 129 PCT 23 P2 BWZ
-. 72 VS3 TEC
.610 KBAZC I@ C I
162 135 1A86 73 POT 25 P3 BW2
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I 37 136
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H 155 136
.55 94 POT 12 P2 0W2
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157 136 1.19 81 POT 18 P3 BW2
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161 136 1.74 85 PCT 24 P3 BW2
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.580 ZPUFZ 71 ClI 88 137
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88 137
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158 137
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Palo Verde 2 U2R1S PVNGS2 20091001 10126/2009 22:34:23
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83 142 1.19 81 POT 21 P3 VS3
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101 142
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114 149 1.17 80 POT 21 P3 VS3 1.00
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118 149
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Palo Verde 2 U21115 PVNGS2 20091001 10126/2009 22:34:23
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..----.- +--.
÷ 680 15 56 153 56 153 49 154 I59 154 41 156 56 157 56 157 120 157 120 157 49 158 113 158 120 159 120 159 75 162 109 162 45 164 49 164 61 164 61 164 73 164 4
165 84 165 96 165 104 165 112 165 112 165 99 166 125 166 125 166 128 167 128 167 88 169 96 169 116 169 116 169 77 170 87 170 101 170 109 170 124 171
.86 81 PCT 16 P3 VS2
-. 75
.40 VS2 VS2
.580 NPUFZ 68 HIDOQAI
.20 34 PCT
.23 145 PCT 7
P2 BW1 7
P2 BW2
.28
,25
.16
.30
.e8
.36
.72
.21
.20
.24
.74
.24
,20
.21
.19
.43
.78
.23
.72
.21
.27
.33
.50
.90
.24
.21
.89
.37
.99
.26
.24
.23
.71
.24
.20
.26
.23 107 129 89 144 87 96 63 111 81 148 85 43 134 79 66 99 63 108 125 52 158 49 112 89 110 32 71 137 70 136 145 28 64 63 155 155 105 PCT PCT PCT POT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT POT POT POT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT 8
8 6
9 13 9
14 6
6 7
14 7
6 7
5 10 12 6
11 8
7 9
15 17 7
7 17 9
18 7
7 8
14 7
6 7
6 P2 P2 P2 P2 P3 P2 P3 P2 P2 P2 P3 P2 P2 P2 P2 P2 P3 P2 P3 P2 P2 P2 P2 P3 P2 P2 P3 P2 P3 P2 P2 P2 P3 P2 P2 P2 P2 VS3 VS3 awl 8HZ B62 VS3 VS3 VS3 VS5 VS2 VSZ 09C 10C VS3 09C BH2 BHZ 6H2 6HZ VS3 8H2 B12 oH1 awl BH2 VS3 VS3 VS3 VS3 BW2 Bw2 VS2 VS2 BH2 BW2 BW2 10c
-1.74
-1.61
.57
.61 1.00
-1.66
-1.66
-. 90
-. 76
.88
.89
-. 98
-. 81
-. 95
.72
.97
-. 94
.80
.80
.98
-. 76
-. 73
-. 77
.65
-. 92
-. 81
.68
-. 83
-.96
.85
.85
-. 86
-.88
-.88
-. 71
-. 88
.76
.30
.80
.83 VS3 TEN
.610 NBAZc 15 HI VS3 TEC
.610 NBAZC 19 CI I
VS3 TEN
.610 NBAZC 8
HI I
VS3 TEC
.610 NBAZC 19 C1 I
VS3 TEN
.610 NBAZC 9
HN I
VS3 TEC
.610 NBAZC 19 CI I
.20 08C VS3-
.580 ZPUFZ 73 CIDOAI VS3 TEC
.610 NBAZC 44 CI 1
.24 VS3 VS3
.580 NPUFZ 68 HI I
VS3 TEN
.610 NBAZO 10 HI I
VS3 TEC
.610 NBAZC 19 CI I
VS3 TEN
.610 NBAZC 52 HI I
.42 VS2 VS2
.580 NPUFZ 68 HIDO.AI VS3 TEO
.610 HOAZC.
17 C
I VS3 TEC
.610 NBAZC 17 CI I
VS3 TEN
.610 NBAZO 9
NI VS3 TEC
.610 NBAZC 18 CI I
VS3 TEO
.610 NBAZC 18 C
I
.20 080 V54
.580 ZPUFZ 73 CIDOAI VS3 TEC
.610 NBAZC 18 CI I
.14 080 068-.540 NPUPH 56 CI I
VS3 TEN
.610 N6AZO 15 HI I
VS3 TEC
.610 NBAZC 17 CI I
VS3 TEC
.610 NBAZO 17 CI I
VS3 TEN
.610 NBAZO 51 NI I
.15 09H VS2
.580 NPUFZ 68 NIDQAI VS3 TEC
.610 NBAZC 17 CI I
VS3 TEN
.610 NBAZC 51 HI I
.54 VS3 VS3
.580 NPUFZ 68 Hj I
VS3 TEC
.610 NBAZC 41 CI I
.42 VS3 VS3
.580 NPUFZ 68 HI I
VS3 TEC
.610 NBAZC 17 CI I
VS3 TEC
.610 NBAZC 17 C0 I
VS3 TEN
.610 NBAZC 61 H1 I
.129 092 VS2
.580 NPUFZ 68 HIDO0I 1183 TEC
.610 NOAZO 17 OgI V53 TEC
.610 HBAZC 17 0C I
VS3 TEC
.610 NBAZC 17 CI I
VS3 TEO
.610 NBAZC 17 CI I
VS3 TEC
.610 NBAZC 41 CI I
.27 143 PCT 7
P2 VS3
-+---------------------+.----t-----+----+------+
+----+-----+
+---
I ROW COL VOLTS DES IND PER CNN LOON INCH1 INCH2 ORLEN BEST ENOT POTA PTYPE CAL L 00111
-+--- -
+----+----+----+----+-.
+
+----+-
+
+
42
Palo Verde 2 U21115 PVNGS2 20091001 10/26/2029 22:34:23
+... -
I ROW COL VOLTS DEG IND PER CON LOCN INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI 4
4-.........-
. ÷..
. +...
+...
÷
+
. ÷..
. 4.
+-
+
+----
1 124 44 29 119 119 104 90 99 98 109 109 106 106 43 171
.95 173
.16 174
.23 174
.23 174
.58 177
.26 179
.18 179
.69 179 1.30 180
.42 180
.86 191
.71 191 1.49 189
.41 199
.91 64 PCT 18 P3 VS3 89 PCT 38 POT 108 PCT 59 PCT 149 PCT 136 PCT 141 PCT 74 PCT 122 PCT 88 PCT 108 PCT 78 PCT 139 PCT 93 PCT S
6 6
12 7
6 17 23 12 16 19 25 10 15 P2 P2 P2 P3 P2 P2 P2 P3 P2 P3 P2 P3 P2 P3 VS3 09C VS3 VS3 10C ION VS3 VS3 VS3 VS3 VS3 VS3 BW2 BW2
.64
-. 55
-. 96
.83
.73
.78
-1.72
. 52
- 57
-. 51
-. 79
-.82
-. 71 1.06 1.00
.29 VS3 VS3
.580 NPUFZ 68 HIDQAI I
.17
.59
.20
.29
.28 VS3 TEN
.610 NBAZC 9
HI I
I VS3 TEC
.610 NBAZC 17 CI I
I VS3 TEC
.610 NBAZC 41 CI I
VS3 VS3
.580 NPUFZ 68 WIDOAI VS3 TEC
.610 NBAZC 15 CI I
S3 TEW
.610 NOAZC 14 HI I
VS3 TEW
.610 NBAZC 14 HI I
11S3 VS53
.580 NPUFZ 69 HIDOAI VS3 TEW
.610 NBAZC 13 HI I
VS3 VS3
.580 NPUFZ 68 HIDOAI VS3 TEW
.610 NBAZC 13 HI I
VS3 VS3
.560 NPUFZ 68 HIDOAI VS3 TEN
.610 NBAZC 45 CI I
07C BW1
.580 ZPUFZ 77 Cl I
VS3 TEC
.610 NBAZC 14 CI I
200
.22 82 POT 6
P2 03C
-. 07
+
I...
4 4,... -
4 ---------
-I I ROW COL VOLTS DEG IND PER CON LOCN INCHi INCH2 CRLEN BEGT ENOT PDIA PTYPE CAL L COM1
+.-4
+----.
+----
43
APPENDIX D PLI & PLP DATA SHEETS 44
i SG - 21
+PT PLP Calls Palo Verde 2 U2R15 PVNGS2 20091001 10/27/2009 10:15:08
+----+------.+...-
---+----
+ -----
+
I ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI S....
+.
.÷
.+.----÷....---- ----
+..
+.. -------- +------ --------
55 56 86 87 39 39 157 143 143 142 144 143 145 144 146 145 144 144 144 144 143 145 6
7 15 16 79 80 142 150 150 151 151 152 152 153 153 154 155 155 155 155 156 156 1.64 93 PLP
.43 1.13 1.17 1.80 1.19
.83
,28
.20
.21
. 20
.35
.47
.90
.58
.71
.29
. 24 97 PLP 84 PLP 83 PLP 87 PLP 82 PLP 65 PLP 70 PLP 70 PLP 69 PLP 69 PLP 64 PLP 72 PLP 68 PLP 69 PLP 69 PLP 72 PLP 67 PLP 84 PLP 66 PLP 08C 01C O1C TSH TSH 07H 02C 02C 02C 02C 02C 02C 02C 02C 02C 08C 02C 14.36 1.38 1.47 6.11 6.24 27.68 18.45 18.91 18.63 18.50 19.09 18.83 18.64 18.77 18.62 24.27 9.56 8
08C 11.45 08C 09C
.600 ZPAHZ 60 CISR I 08C 09C
.600 ZPAHZ 60 CISR 01C 01C
.600 ZPAHZ 60 CIHR 01C 01C
.600 ZPAHZ 60 CIHR.
TSH 01H
.600 ZPAHZ 61 HIHR TSH 01H
.600 ZPAHZ 61 HIHR 07H 08H
.600 ZPAHZ 61 HjHR I 020 030
.600 ZPAH.Z 60 CIWRI 020 030
.500 ZPAHZ 60 CIHRI 02C 03C
.600 ZPAHZ 60 C0HR I 02C 03C
.600 ZPAHZ 60 CIHR I 020 030
.600 ZPARZ 60 CIWRI 02C 03C
.600 ZPAHZ 60 CIHR I 020 030
.600 ZPAHZ 60 CINRI 02C 03C
.600 ZPAHZ 60 CIHR I 02C 03C
.600 ZPAHZ 60 CIHR I 08C 09C
.600 ZPAHZ 60 CIDOAI IWR I 02C 03C
.600 ZPAHZ 60 CIDOAI IHR I 020 030
.600 ZPAI4Z 60 01141 I I
02C 03C
.600 ZPAHZ 60 CIHR I I
02C 03C
.600 ZPAHZ 60 CIHR I
.09
.26 8
02C 20.03 8 02C 17.12 S+--
+------4.-----+----+-----+----+---4.
t 4
+----------
I ROW COL VOLTS DEG IND PER CNN LOCN INC141 1N0W2 CRLEN BEGT ENDT PDIA PTYPE CAL L CO I
+...
+----------+.
-..÷
+...
....---- -+ -
+
.+....-
÷ SG - 22
+PT PLP Calls Palo Verde 2 U2R15 PVNGS2 20091001 10127/2009 10:15:08
+----
+------+-----+----+-----+----+---+
+
+
+---
I ROW COL VOLTS DEG IND PER CNN LOCK INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI
+.....----
+
.. ÷..
.+
+-+..
+
.-...+
+-.....
1 17 62 2.32 84 PLP 8
TSH 2.08 TSH TSH
.600 ZPAHZ 66 HIHR I 19 62 1.66 83 PLP 8
TSH 1.98 TSH TSH
.600 ZPAHZ 66 HIHR I 170 93
.61 90 PLP 8
.600 ZPAHZ 63 CIHR I 171 94 1.18 86 PLP 8 TSC 2.18 TSC TSC
.600 ZPAHZ 63 CIHR I S53 104 1.40 83 PLP 8
FOP
.56 FOP FOP
.600 2PAIIZ 63 0
I 52 105 1.17 86 PLP 8
FOP
.67 FOP FOP
.600 ZPAHZ 63 ClHRR I 34 125 1.74 90 PLP 8 FOP
.51 FOP FOP
.600 ZPAHZ 63 ClHR I 36 125 1.24 91 PLP 8
FOP
.53 FOP FOP
.600 ZPAHZ 63 CIHR I 35 126
.50 89 PLP 8
FOP
.55 FOP FOP
.600 ZPAHZ 63 CIHR I 8
199 1,10 79 PLP 8
02C
.21 02C 02C
.600 ZPAHZ 63 C0HR1 1
1 7
200 1.61 82 PLP 8
02C
.21 02C 02C
.600 ZPAHZ 63 CIHR1 I
+---
+
+----------------------------+---+------------------------------------------
I ROW COL VOLTS DEG IND PER CHN LOON 111011 111012 011111 BEST ENOT P0Th PTYPE CAL L 00111
+-------------------------------+---+----+----.4---4---+---------+----
+-+-..........
45
APPENDIX E PLUG MAPS 46
SG-21 TBP's Palo Verde URIS PVNGS2 2RSG
- 116 Plugged Tubeo 53 Stay Rod 5 TIMP List I 5 TBP fL %*
I**
I*t If*
Ilk I
- fl I -
I US IS IK*
IkS ISA IRS 17 I2~
S Is S
US 1#5 149 Las
'95 12 415 35 30 20 Is
- 6.
7S SO 85 Is 15 944 145 11 a I M I n its 139 m 140 145 is$
155 1,511 M 174 3 7% 1 a m
ISO 015 200 S
.1
- 1.
777 7-7 170 165 Ifif 155 150 3,46 130 130 126 315 US i10 45 as as 7.
To as all 49 45 35 20 is is 5
5~
~
kS.
U 10 15 20~
253 5
O"GOf so 86 to N
144 los 110 lis Ito 125 131 IN I-M. -
W.
M IN I
I
SG - 22 TBP's Pua VefdeWUR15 PVNGS2 2RSG 53 Stay Rod a 127 Plugged Tube 2 TV Litt i 2 tap Lý-
2 r.
- a.
ca a*
La S
,a a
a
.** a.a ate a Ia a,. ata aS us as Ian aaa a.. aLa an a~a u am a as a.
M15 195 115 136 145 I"
OS 75 95 01
-0 35 40 45 SO 55 410 65 74 75 00 65 Of 95 104 165 914 115 IN 125 130 tm to m
ISO 155 lea 145 170 175 Joe us ISO m as m: :m; m Im.
7 174 5
16 15 M6 25 M36 1 46 AS 50655 Of 45 M
75 11 - I amkc -Fa UC -a N fainrin Mt=
6 05 Of 15 1604 105 114 115 IN29 5 130 1M 1,40 145 154 155 166 165 174 175 16 106 100 105 206
APPENDIX F FORM NIS-1 49
APS NIS -1 FORM OWNERS',DATA REPORT FORINSERVICE INSPECTIONS
- 2. PLANT PALO VERDENUCLEAR GENERATING STATION 2a. ADDRESS 5801 SOUTH WINTERSBURG ROAD, TONOPAH, ARIZONA 85354
- 3. UNIT NUMBER 2
- 4. OWNERS CERTIFICATE OF AUTHORIZATION NONE
- 5. COMMERCIAL SERVICE DATE 9-19-86
- 6. COMPONENTS INSPECTED:
COMPONENT OR MANUFACTURER SERIAL STATE OR NATIONAL APPURTENANCE OR INSTALLER NUMBER PROVINCE BOARD NO 2MRCEE01A Ansaldo 212 NA 161 STEAM GENERATOR 21 2MRCEE01B Ansaldo 211 NA 160 STEAM GENERATOR 22 50
APS INIS
--1 BACK OWNERS'DATA. REPORT FOR INSERVICE INSPEC TIONS.
- 7. EXAM DATES October 2009
- 8. INSPECTION INTERVAL 3-18-07 to 3-17-17
- 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. 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 21 and 22 respectively. The tubes identified below were plugged as a result of this examination.
The number of tubes plugged are as follows:
SG 21 = 10 tubes SG 22 = 4 tubes ROW COL ROW COL 65 6
36 85 56 7
39 88 39 88 45 96 40 89 47 106
.45 94 45 96 66 103 46 107 49 116 33 122 WE CERTIFY THAT THE STATEMENTS MADE IN TIllS REPORT ARE CORRECT AND TIHE EXAMINATIONS AND CORRECTIVE MEASURES TAKEN CONFORM TO TIlE RULES OF THE ASME CODE, SECTION XI.
- Hansen, I!
s by Hansen, Datgas B(z41530)
ON: cn=H ansen, D ouglas 8(Z41530)
DATE SIGNED: ARIZONA PUBLIC SERVICE COMPANP*glas B Reason:Iam theauftorcthts (Z41 3Date:
2010,04.11 09:05:48 -0700' CERTIFICATE OF INSERVICE INSPECTION I, THE UNDERSIGNED, IIOLDING 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
,o-,o, TO.-t--o 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 TIHE 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 WITII THIS INSPECTION.
INSPECTOR 1',
-,--.-_COMMISSIONS
-ýS '1L.,.
- ,t.c" A.z =kz NATL' BOARD, STATE, PROVINCE DATE
- -* -. o*
51