ML092020269
| ML092020269 | |
| Person / Time | |
|---|---|
| Site: | Palo Verde  |
| Issue date: | 07/16/2009 |
| From: | Weber T Arizona Public Service Co |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| 102-06033-TNW/RJR | |
| Download: ML092020269 (51) | |
Text
Technical Specification 5.6.8 Thomas N. Weber Mail Station 7636 Palo Verde Nuclear Department Leader Tel. 623-393-5764 PO Box 52034 Generating Station Regulatory Affairs Fax 623-393-5442 Phoenix, Arizona 85072-2034 102-06033-TNW/RJR July 16, 2009 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 Revised Steam Generator Tube Inspection Report The PVNGS Unit 2 fourteenth Refueling Outage (U2R1 4) Steam Generator Tube Inspection Report was submitted by Arizona Public Service Company (APS) pursuant to Technical Specification (TS) Reporting Requirement 5.6.8, by letter number 102-05917, dated October 28, 2008. Attached is a revised U2R1 4 Steam Generator Tube Inspection Report. The changes are identified by revision bars on the right hand side of the affected pages. The changes reflect corrections identified following NRC review.
By copy of this letter and the attachment, this report is being provided to the NRC Region IV Administrator and the PVNGS Resident Inspector. No commitments are being made to the NRC by this letter.
Should you need further information 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 R. I. Treadway NRC Senior Resident Inspector A member of the STARS (Strategic Teaming and Resource Sharing) Alliance Callaway
- Comanche Peak
- Diablo Canyon 0 Palo Verde 0 San Onofre 0 South Texas 0 Wolf Creek Ac~qy
Attachment Revised Unit 2 - 1 4 th Refueling Outage
.Steam Generator Tube Inspection Report
llip Pab Verde Nudear Genertwing Stadon UNIT2 U2R14 ARIZONA PUBLIC SERVICE P. O. BOX 52034 PHOENIX, AZ 85072
- Hansen, Douglas B Prepared by: Douglas B Hansen (Z41530).
Date: 6-26-2009 Leaverton, D
WarrenL Reviewed by:
(V59783),'=,
Date:
Haley, William B Approved by:
(Z99693)
/
Report Date:
Commercial Service Date: 9-19-86 Revision 1; 6-26-09
Table of Contents 1.0
SUMMARY
2.0 ORIGINAL EXAMINATION PLAN 3.0 CONDITION MONITORING 4.0 EXAMINATION RESULTS 5.0 EXAMINATION TECHNIQUES and EQUIPMENT 6.0, REPAIR TECHNIQUES and EQUIPMENT 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 I
APPENDIX E - PLUG MAPS & PLUG HISTORY APPENDIX F - FORM NIS - 1
UNIT 2 STEAM GENERATOR EDDY CURRENT U2 R14 Refueling Outage 1.0 Summary This report is intended to satisfy the requirements of PVNGS Technical Specifications 5.6.8 for the submittal of a Steam Generator Tube Inspection Report. The steam generator (SG) eddy current examination for the 14th refueling outage in Unit 2 (U2R14) was conducted during April 2008.
Mode 4 entry of Unit 2 Cycle 14 was entered on May 22, 2008. The initial examination plan for both steam generators is listed in Table 1. This table summarizes the examinations performed for each of the various categories, examination types, extents, and the number of tubes or tube locations completed. This was the third examination performed in Unit 2 following steam generator replacement in U2R1 1. 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 83 tubes being plugged in SG 21, and 90 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 Original Examination Plan The original examination plan was developed based on the "PVNGS Steam Generator Degradation Assessment" developed per PVNGS Procedure 81DP-9RCO1 as required by NEI 97-06. In addition, possible damage mechanisms were reviewed along with the specific requirements set forth in Procedure 73TI-9RC01 and the PVNGS Technical Specifications. The plan is summarized in Table 1 of this report.
3.0 Condition Monitoring Assessment Per the Steam Generator Program, as defined in PVNGS Procedure 81DP-9RC01, a condition monitoring evaluation was conducted by PVNGS Engineering. The results of the eddy current examinations are provided in Section 4.0. 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
- 14. No tube pulls or insitu pressure testing were required based on the results of the examinations.
Tubesheet and Flow Distribution Plate Foreign Object Search and Retrieval (FOSAR) were conducted using a power cart mounted with a remotely operated camera and retrieval tooling. The applicable requirements of the Revision 2 of the EPRI Steam Generator Integrity Assessment Guidelines Section 10.5, Secondary Side Visual Inspections, were applied for the FOSAR inspections. Two (2) loose parts were identified in RSG 21 cold leg; one sludge rock and a small
piece of wire (Note-sludge rocks have never caused SG tube wear, however Engineering identifies them and removes them when accessible). The small piece of wire had been left in the SG after U2R13 and was seen in the same location during the U2R14 pre-lance inspection. It was no longer present after sludge lancing, nor was it seen at any other location within viewing range. The wire was not found in the sludge when it was inspected, so it must be assumed that the wire is still present in the Steam Generator further in the tube bundle which would be a lower flow region. No wear was detected by ECT in the tube in contact with the wire during the last cycle. Since the wire is now assumed to be in a lower flow region, no wear is expected and it is not a concern. The sludge rock was removed during the post annulus inspection. Two (2) loose parts were identified in RSG 22 cold leg - one sludge rock and one piece of gasket material. The gasket material had been left in the SG after U2R13 and was seen in the same location but one row deeper into the bundle on both the pre and post annulus flush inspection. Neither one of the parts was observed during eddy current examinations. The sludge rock was removed during the post annulus inspection. The gasket material was left in its location. Since the gasket material is now in a lower flow location and since it did not cause any wear while in its previous, higher flow, location, it is not a concern. In accordance with the PVNGS loose part program, the results are documented for future tracking of this location during the U2R15 inspection. All loose part locations were ECT tested for possible wear indications and none was found. No loose parts were identified in either RSG 21 or RSG 22 hot leg. Flow Distribution Plate FOSAR was also conducted using a video cart. No loose parts were identified in either steam generator.
As noted in Table 2 there were 16 possible loose part (PLP) locations identified in Steam Generator 21 and 9 possible loose part (PLP) locations identified in Steam Generator 22. All of these PLP calls had been observed in the previous inspections (U2R12 and/or U2R13), with continued no evidence of wear. 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 U2R15.
Finally, PVNGS Procedure 8lDP-9RCOl requires, per the EPRI PWR Steam Generator Examination Guidelines, that a visual inspection of the previously installed steam generator plugs be performed to assess plug integrity. Additionally, the Examination Guidelines Section 6.10.1 states - "Verify the location and presence of existing in-service plugs." The conduct of the plug location and integrity verification was performed in U2R14 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.
4.0 Examination Results A summary of the bobbin and rotating coil (RC) examination results is located in Table 2 of this report. In addition, Appendix A contains a reference drawing of steam generator support locations.
The summary data sheets of Appendix B and C list all tubes in each steam generator with indications expressed as a percent wall thickness reduction, or as an analysis code. Appendix D contains summary data sheets for tubes classified as possible loose parts.
5.0 Examination Techniques and Equipment The eddy current examinations were performed by Westinghouse Electric Company using the Core Star OMNI 200 instrumentation. Westinghouse Anser acquisition software was utilized with both systems. The following frequencies were used for the tube examinations:
Bobbin Coil
- RC 500 KHz 300 KHz 300 KHz 200 KHz 100 KHz 100 KHz 35 KHz 35 KHz
- NOTE: For bobbin coil examinations these frequencies were utilized in both differential and absolute modes.
All tubing was examined with Zetec or Core Star manufactured bobbin coil probes and Zetec 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. Data acquisition in both steam generators was facilitated by using Westinghouse Pegasys fixtures configured with a dual guide tube in each of the hot and cold legs.
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.
6.0 Repair Techniques and Equipment All repairs were performed utilizing the Westinghouse mechanical rolled plug. The plugs were installed in accordance with the PVNGS work control process utilizing the Pegasys fixtures and associated remote plugging equipment.
TABLE 1 EXAMINATION
SUMMARY
SCOPE DESCRIPTION SG 21 SG 22 Exam Description Extents Scope Scope FULL LENGTH TEC-TEH 12547 12543 BOBBIN ROW I THRU 4 SHORT 08C-08H 278 278 RADIUS U-BENDS
- HOT STRAIGHT VARIOUS 48 30 RC HOT U & SQUARE BEND VARIOUS 148 184 RC COLD STRAIGHT VARIOUS 105 58 RC COLD U & SQUARE BEND VARIOUS 75 128 RC Notes:
- 1.
- RC examinations were performed on Row 1 thru 4 short radius U-Bends in lieu of bobbin examination.
TABLE 2 INDICATION
SUMMARY
DAMAGE STEAM GENERATOR STEAM GENERATOR MECHANISM 21 22 WEAR 0%-20%
142 218 20% - 29%
32 50 30%-39%
11 11
> 40%
4 4
PLUGGED (83)
(90)
Possible Loose Parts (RC)
PLI 0
0 PLP 16 9
PLUGGED (0)
(0)
Volumetric Indications SVI/MVI 0
1 PLUGGED (0)
(0)
PREVENTATIVE (0)
(0) 4 I
I I
I.
I 4-I I.
I
- 4.
I PLUGGED (83)
(90)
TOTALPLUGGED/%
(116 / 0.9%)
(127 / 1.0%)
NOTES
- 1. Numbers in (X) are tubes numbers plugged in each category
- 2. The above represent the numbers of tubes; not indications
APPENDIX A TUBE SUPPORT DIAGRAM LEGEND and ANALYSIS CODES
PVNGS Steam Generator REPLACEMENTS Spacing BW1 VI VSV3 VS5 11H lic 119H 36.75"8 SH359M" 06C 05H1 35.95 05C NI2 04H 36.34" 03H 36.33" 021H 36.33" 01H 20" I"
24" 04C 28.125" 03C 28.125" 02C 32.25" 01C
=
m I
I Center of 08H to 08C Row I - 17.415 Row2 - 19.736
.Row 3 - 22.056 Row 4 - 24.377 Row 5 - 26.698 Row 6 - 29.019 I
Inlet
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, typically used for cracks only 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 Analysis CODES:
A bsolute D rift....................................................................
A D I A pex A nom aly...................................................................
APA A fter Pressure Test............................................................
APT Bad Data.................................
BDA Bulge......
.................... BLG Dented Buff M ark..............................................................
DBM D eposit...............................................................................
D E P D ent....................................................................................
D N T Distorted Support Signal With Indication..........................
DSI Distorted Top of Tubesheet With Indication..................... DTI Geometric Indication.........................
GEO ID C hatter...........................................................................
ID C Indication Not Found.....................................................
1NF Indication Not Reportable..................................................
INR M ultiple Axial Indication...................................................
M A I Manufacturer Burnishing Mark..........................................
MBM M ixed M ode Indication......................................................
M M I Multiple Circumferential Indication...................................
MCI Multiple Volumetric Indication..........................................
MVI
N o D etectable D efect.........................................................
ND D N o D iscontinuity Found.....................................................
ND F N on-Q uantifiable Indication..............................................
N Q I N o Tube Sheet Expansion..................................................
N TE O bstructed...........................................................................
O B S O ver Expanded...................................................................
O X P Previous Bobbin Call.........................................................
PBC Possible D eposit.................................................................
PD P Positive Identification........................................................
PID Positive Identification V erified..........................................
PIV Possible Loose Part w ith Indication...................................
PLI Possible Loose Part............................................................
PLP Previous RC Call................................................................
PRC Possible Support A nom aly................................................
PSA Possible Support Indication...............................................
PSI Perm eability V ariation N oise.............................................
PV N Retest W ith 3 coil Probe................................................
R3C Retest Bad D ata..................................................................
RBD Retest Identification Check............................................
RIC Retest with Magnetic Bias RC Probe.................................
RMB Single A xial Indication......................................................
SAT Single C ircum ferential Indication.....................................
SCI Single V olum etric Indication.............................................
SV I Sludge................................................................................
SLG To B e Plugged...................................................................
TBP V olum etric Indication........................................................
V O L Util2 CODES:
B atw ing W rapper B ar W ear...............................................
BW W Change..........................................................................
CH H istory Review..............................................................
H R Inside D iam eter............................................................
ID N EW..................................................................................
N EW N o Change.....................................................................
N C N o Loose Part Present........................................................
N LP M anufacturing Induced G roove.........................................
M IG O utside D iam eter..........................................................
O D Pit like indication...............................................................
PIT Senior (Lead) Analysis Review....................................
SR Stake................................................................................
SK Tube to Tube W ear............................................................
TTW V olum etric Inside D iam eter...............................................
V ID
APPENDIX B STEAM GENERATOR 21
SUMMARY
DATA SHEETS
so - 21, P.1o'lards 2 0F2P14 PVUSOS 28088461 0442712009 +/-2:46:24 I POW COL VOLTS BEG 311M FER OWii LOCH E:I NCH1 IKCHN 3
CRLES CRMID CE5 BDST ESDT PD3A PTYPE CAL Li o0 5
3.33 0
NTE 2
TiC 23.L1 TMS TEO
.6!0 28420 17 CI I
3.6 8a 36.19 194,TE 2
.6!8 254B1 31 Ci I
I I3 31
.013 27 TE 2
TEN 21.21 TM 7ER
.6S3 ZBACC 52 HI I
- 6 4
4
.33 132 FCT 8
P2 DM2
-. 01 TSM3 T75
.630 ZB42C 32 Cl 46 4
4
.52 40 PCT 8
P3 BM2
-. 86 050 T$
.58a IPUFZ 75 CI i
I 6o 30
.11 3Z HTE C
TEC
.:2.79 T3M TE7
.650 0B420 31 Ci I
I 103 22
.37 108 PCT 11 P2 10c
.78 T*M TE0
.683 ZBAZ 31 Cu L03
+/-2
.74 50 PCT 13 P3 10C
.74 300 300
.600 IPAHZ 70 Ci Is 5
4
.24 54 PCT a
P2 BM2
-. 07 TSR 7EO
.S30 ZBAC 9
C9 36 24
.89 0
FPOT 13 P3 BM2
-. 73 0o0 T3
.583 IPiF!
76 Ci 26 26
.34 101 MBD 6
8 IH N
1.34 TMk3 TE7
.650 11ACC 51 NI I
4 6 1s
.30 108 PCT 9
P2
'I93
.92 75, T7O
.613 1BA0 273 Ol
- 6 15
.46 06 PCT 9
P3
'T93
.85 TM 53
.688 IP1JFZ 70 HI I
- 17 3
.A 101 PCT 19 P2 BM2
-. 72 TM3 TE7
.610 15l420 10 CI j17 38
.4S650 POT 7
?3 DM2
-.75 050 793
.583.I-PIFZ 75 Og I
I I S0 S5
.40 E5 MBD 6
91C L.11 TM3 TEO
.650 114A2C 26 Ci 4 4 SO
.33 88 MDo 6
06C 30.79 TE7 TEO
.6!3 21420 2
Ci I
80 68
.33 43 PCT 10, PC V72
.83 783 TE7
.6!0 ZA142 37 Hi o9 60
.61 60 PCT 11 P3
'YS2
.10 00H 792
.58a IPUFZ 79 NI o8 60 3.01 7S PCT 17 P3
'112
.680:
HE.52
.588 IPVFZ 79 Hi I
81 64
.33 2
MDmo 6
5 4C L0.38 TM3 TE7
.630 2BA54 24 CI 81 64
.26 78 MBD 6
UKI 28.91 TS3 TE7
.630 214A2 37 Ni 17 66
.26 137 PCT 3
P2
',53 3.20 711 T7O
.630 784AZ0 C
2 t
76 65
.33 e1 mDo 6
940 L.75 TM3 TE7
.86130 1BA1 23 Ci I
I 4
67
.91 E2 MBD 6
60C 1.63 050 TE7
.638 2MA40 22 CI I
I 44 67
.26 81 PCT 7
P2 U193
.81 TER TE7
.650 25A42 2
CI 4 4 67
.65 87 PCT 12 P3
'43
.73 TM S
.588 2Pif 70 Hi SE: 68
.63 116 PcT 11, P2 DM1
.81 TM 75 T1
.680 ZBAZ0 37 NJ S e 68
.61 81 PCT 11 P3 DMI
.64 001 TM3
.58a MPVFZ 70 HN 4
71
.63 02 PCT 11 P3 BMi
-. 98 0EM 0m0
.648 IPIPH 67 NHi 64 71
,50 70 PCT 16 P2
'(3
.24 TM T75
.683 15A40 24 Ci 64 71 3.12 S1 PCT 19
?3 413
.23 TM3 TS3
.580 IPJF!
70 Hi s8 73
.23 113 PCT 7
P2 BM2
.88 TE7 TE7
.630 25BA 3
Ci 73 1
.65 050 TS
.a88 MP!F2 75 Cl i
I Is 5
4
.24 114 PCT 7
P2 BM2
-. 91 TE7 TE7
.658 24A20 6
Ci 2S+/- 74
.5-1 56 POT 10
?3 DM2
-.77 050 793
.588 1-PIFZ 75 Ci 11 74
.17 50 POT 6
P2 DM2
-. 91 TE7 TE7
.638 5B4A20 5
Cl 11 74
.72 B4 PCT 11 P3 BD2
-. 77 060 TM3
.588 MP!FZ 76 Cai
- 6 6
75
.31 684 CT 12 P2 DW1
-3.65 TMI TE7
.638 25B41 I8 Nfl e6 75
.98 04 PCT 17 P3 BM1
-3.14 001 753
.588 IPIFZ 70; Hi i
I
- 0 75
.86z 10 STE 2TEN 2-3.06 TS' 75EE.630 1842 Z0 36 Hi
+/-2 77
.36 77 PCT 11 P2 BM2
-. 91 TE5 TE7
.6!8 2B4O 7
Ci 12 77
.83 87 PCT 12 P3 BM2
-. 98 050
.53
.58 3PJF!
75 CI 12 77
.96 03 PCT 13 P3 BM2
.71 0E5 TM3
.588 SPVFZ 75 CI
+/-2 77 TBP TE7 TE7
.6! 3 Z14AZ 108:0 CI I
13 78
.20 58 PCT 8
P2 BM2
-. 01 TE7 7EO
.638 14AZ0 8
cO 3.3 78
.8E 01 PCT
- 13.
P3 DM2
-. 75 050 T53
.688 1-WFZ 75 Ci 47 7S8
.34
- 15.
PCT 10 P
BPM2
.82 TE7 T7O
.680 2BA4C 5
Ci 47 78
.88 654 CT 13 P3 DM2
.74 0E5 TM3
.688 TPUF 75 Ci s6 78
.21 103 POT 7
P2 BMi
!.75 TEE T7O
.830 BTCC 6
01 s6 78
.50 00 POT 9
P3 BMI 3.41 001 753
.588 SNP!F 70 Hi IROW COL
'JOLTS 05G 31103 P5K 03111 LOON 114011
[KOH2 3
CRLES CR311 CE DBEST 51487 P034 PTYPE CAL L I
......--...-...-.... 4---.................4..................................-................
Ss -
21 Palo W-r4. 2 912F14 PYMOS2 280884L 94g27.'205 22:46:24 I ROW COL VOLTS DEG 311D PER C*Hli LW1I INCH1 IKCH2 3
COLEN CRIED SEG BSGT ENDT PO3A PTYfPE CAL LI 4...........................................
164 70
.31 122 PCT 8
P2 BM2
.82 TEN TED
.618 ZDB*C 70 CO 164
- 7)
.713 96 PCT 11 P3 BM2
.82 ILC 755
.688 PFUFI 76 Cl I
'43
.. B&
TEN TED
.638 IBDZC 7
C*
20 88 3.83
- 77. PCT 27 P3 VS3
-. 02 s..
753
.688 2P1FZ 77 NJ 20 88 TBP TEC TEC
.638 2BACC 10O80 Ci I
36 So
.48 64 PCT 14 P2 BM2
-. 88 TEN TEC
.618 25B4C 6
Oj 15 88 3.11 K+/- PCT 17 P3 DM2
-. 88 OEC 753
.588 2PIF' 75 Cm 15 88 TBP TED TED
.638 ZB5.C 10830 CI I
37 88
.6!
06 PCT 17 P2 BM2
-. 07 TEN TEO
.608 T1BCC 6
Ci 37 88 3.44 78 PCT 21 P3 BM2
-. 7.
.588
- PiF:
75 Ci I
10 68
.28 118 FOT 8
PC BM2
-. 07 TER TED
.638 ZBAZO 6
CI 19 88
.77 Ea PCT 12 P3 BM2
-. 81 SEC 753
.588 2PVF:
75 CI I
I 43 88
.38 ES FPCT 11 P2
'IS3
-. 77 TEN TED
.638 251.20 6
CI 43 88
.83 K1 PCT 16 P3
'93
-. 77 753 753
.688 2P6F6:
70 HE I
42 81
.33 94 POT 8
P2 BM2
.83 TEN TED
.638 21BAZ 6
CI 42 81
.70 65 PCT 12 P3 BM2
.89 2EC 753
.588 zPrF:
- 5 Cl I
33 82 1.17 10+/-
PCT 37 P2 BM1
-. 8D TEN TED
.638 2DI.2C 6
CI 13 82
.2 10 D
CT 6
P2 BM2
-. 0's TEN TED
.638 25A1.2 5
CI 13 8Z
.48 11+/-
PCT 8
P3 BM2
-. 013 0E2 753
.688 EPIJFP 76 Cm 33 8Z 1.26 83 POT 32 P3 DM1 GEH 753
.688 2PlIF 77 HI 13 82
.61*
70 POT 11 P3 BM1
-. 25 GEH 753
.680 2PI*F 77 Hi 13 82 TBP TED TED
.638 ZBA52C 1080 C1 I1 82 3.18 133 PCT 24 P
BDM1
.SZ TEN TED
.638 2BA12C 5
Ci 1s 82
.26 93 PCT 8
P2 BM2
.95 TEN TED
.638 DA2-C 5
Ci 16 82
.65 0E2 753.
.680 PUFp:
76 CI s6 82 3.17 0
FPCT 28 P3 OWL
.86 SEH 753
.688
- P:FZ 77 HI I 6 82 TBP TED TED
.638
-DBA2 1080 Cm 137 82
.18 137 PCT 5
P2 DM1
.88 TEN TED
.638 25BA12 6
Ci 37 82
.46 63 POT 8
P3 BM1
.898 SEE 53 S58 zPiFZ 77 Hi 37 82
.62 E9 PCT 11 P3 1S3
.12 GEE 753
.688 2PiFZ 77 He 17 8z TBP TED TED
.638 ZB.C 1080 Cm I
- -h0 82
.66 04 PCT 16 P2
'93
-. 89 TEN TED
.638 ZB5CC 5
Ci 19 82
.96 7S POT 17 P3 713
-. 91 763 753
.588 2PIF6 77 He I
I 46 82
.63 43 PCT 14 P2 DM1
-. 88 TEN TED
.638 ZBATI 6
Ca 46 82
.Q 110 POCT 8
P2
'43
-. 83 TEN TED
.612 25BAT 6
ON 46 82
.2a O0 PCT 17 P3 BM1
-. 86 SE 753
.688 2P64F1 70 He 45 82
.62 08 PCT 18 P3
'43
-. 84; SEE+ 753
.688 2PIFi 70 He 47 82
.30 128 PCT 8
P2 DM1
-. 05 TEN TED
.638 2aDZC 6
Ci 47 82
.44 116 POT 8
P3 DML
-. 78 SEE 753
.688 2PUFZ 70 Ni I
I
- 6 84 1394 06 PCT 34 P2 DML
-. 84 TEN TED
.638 25BA12 6
Ci I1 84
.34 46 PCT 10 P2 DM1
.87 TEN TED
.638 2B51.2 6
Ca 16 84 2.63 83 PCT 34 P3 BM1
-. 04 SEE 753 A68 sPIF:
77 He 16 84
- 16.
P3, DM1
.81 SEH 753
.688 ZPIFZ 77 Hi 16 84 TBP TED TED
.638 ZBA2C 100B Cm 17 84
.43 52 PCT 12 P2 BD1
-. 83 TEN TEO
.638 21BA.2 6
CO 17 84
.84 108 PCT 16 P3 BM1
-. 98 7EH S
S]
.688 2PVFZ 77 He 17 84 ToP TED TED
.688 2B51.2 1O80M Ci I
i 30 84
.28 137 PCT 8
P2 DM1
.78 TEN TEO
.638 25BA12 6
CI 191 84
.5A 08 PCT 18 P3 DML
.88 SEE 753
.688 26PIF1 77 HE 19 84 TP TED TED
.638 ZBA2C 0OBO Cl I
I 47 84
.41 48 PCT 13 P2 BM2
.87 TEN TED
.638 2B51.2 6
0.
47 84
.c8 8
FOCT 15 P3 BM2
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P2 V33 P2 BD2 P3 V33 P3 DM2 P2 91S3 P2 BD2 P3 VS3 P3 U13 P3 WS3 I
I
- 54) 113
.20 159 PCT a
P2 BDI
.78 TEC TEN
.010 SA34C 3
HI
+.
.4-------------------
4 ---------------------.
- --.-----+
4------------
ROW COL V1T.
EOG I28D PER CHK LOCN IKNHL.
IHCM2 I
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I
+ ---
a
Palo Varda 2 U2R14 PVNGM2 2009040+/-1 4/2712098 22:40:24 ROW COL V01LTM DEG IND PER CHH' LOCN ENCHI 38C!2 C RLE CRID0 EG BEeT EKiT P0EA PTYPE CAL LI
+-.------------------------~---------------------------
+-------------------
+-------
O3 113
.98 85 PCT 12 P3 BWL
.91 09H V13
.380 ZPUF:
70 HI 41 114
.41 96 PCT
+/-2 P2 WW2
.57 TED TEI
.6+/-
T9BA4c 3
HI 41 114
.A 82 PCT 11 P3 BW2
.81 go9 Y3n
.3I ZPUFp 775 Cl 41 114 TaP TEO TEC
.6+/-1 ZSAZt 1009 CI 43 114
.18 141 PCT 6
PC 982
.99 TEt TEN
.a+/-0 94AZ 3
HI 43 114
.38 93 PCT 6
P3 982
.91 got Yn
.3ID 7PUFZ 75 Cl 43 114 TaP TEO TEC
.60i 24AZO 10og Cj 43 114
.52 94 PCT 14 PC B92
.95 TED TEN
.a61 e9AZC 3
HI 43 114 1.12 90 PCI 17 P3 M2
.9B Oge 913
.380 ZPUFZ 75 C 43 114 TEP TEO TEC
.a11 ZB9Z4 10O CI 47 114
.85 118 PCT 21 P2 9M2
.90 TEO TEN
.a11 2940c 3
HI 47 114 1.33 79 PCT 20 P3 982
.70 goo Va3
.390 SPUFZ 75 01 47 114 TaP TED TEC
.6+/-9 MA940 1009 CI 137 114
.33 04 PCT 1
P2 VZ4
-1.02 V93 TIEC
.6 1 BATC 292 C9 137 114
.54 08 PCT 11 P3 V'34
-1.24 V04 V84
.80, ZPUFZ 74 C I40 115
.I 113 PCT 1+/-
PC B92
-.99 TED TEH
.a10 ZBAZl 3
HI 40 115
-.72 81 PCI
+/-1 P3 B92
-. 93 080 Vl3
.390 ZPUFZ 75 Cl 40 115 TaP TEO TEC
.A1M hBAZC 1009 C1 42 115
.26 95 PCT 8
P2 Va3
-. 92 TEO TEH
.619 Z9AZC 3
HI 42 115
.39 143 PCT 11 P2 B32
-.87 TED TEH
.610 TBAIC 3
Hi 42 115
.04 83 PCI 10 P3 V93
-. 17 oar 9, 3
.M zpup:
75 C 42
+/-15
.09 92 PCT 11 P3 B92
-. 70 o09 Van
.390 ZPUF 75 C7 42 115 TSP TED TEC
.611 29410 1099 Cl 44 115
.74 127 PCT 22 P2 VS3
.71 TEO TEN
.6+/-0 9BAZ0 4
HI 44 11
.23 65 PCI 9
P2 082
.90 TEt TEH
.610 2AZ41 4
HN 44 115 1.76 78 POT 24 P3 VZ33
.77 oat Va3
.350 SPUF:
75 C1 44 115
.91 72 PCT 14 P3 B92
.99 090 Yo3
.31 SPUFZ 75 C 44 115 TaP TEO TEC
.a0l 2B4ZC 1000 CI 46 115
-52 11s PCT 17 P2 Va3 1.98 TEt TEH
.6+/-0 2BAZC 4
HI 46 115 M1 120 PCI
+/-0 P2 082
-. 49 TED TEN
.6+/-0 MAlC 4
HI 40 115 1.32 93 PCI 19 P3 Vi3
.es ot Vin
.380 PUFp:
75 c0 40 115
.73 105 PCT 11 P3 982
-.95 gou YZ3
.391 nPUFa 75 CI 46 115 TaP TECTED
.611 23A42C 009 CI I3 115
.21 112 PCI i1 P2 Y33
-.09 V23 TEN
.a+/-0 24AZC 34 HI I3 115
.92 99 PCT I6 P3 o3n
-.09 23 y93
.390 zPUF:
77 HI 0Z 115
.22 90 PCT 8
P2 aw1
.79 M23 TEH
.610 '9A10 34 Hi 52 115
. 1 93 PCT 13 P3 SKI
.78 09H 112
.380 SPUFZ 77 HI 39 110
.42 143 PCT
+/-2 P2 Owl
-.0%
TEO TEH
.60l, ZSAlc 3
HI s3 110
.44 97 PDT 12 P2 Vai
.71 TEt TEH
.611 SHAZt 3
HI 39 110 1.00 70 PCT 17 P3 CaH
.14 D9N 933
.381 2PUFZ 70 Hi 39 110
-78 99 PCT 14 P3 88L
-.09 0IN 913
.380 IPUFZ 70 HI 39 110
.S3 74 PCT 13 P3 M3
.e3 09H Vin
.390 ZPUFZ 70 HI I39 +/-1 TSP TEt TIC
.a0l 29Azc 10og C
41 110
-37 145 PCI 13 P2 92
.A0e 9AZC 4
Hl 41 110
.47 91 PCT a
P3 982
.7:
Ot V03
.391 ZPUFI 75 Cl 41 136 TP TE T-UC
.a+/-0 Z9AZC 1000 CI 43
+/-10.
120 PCI 21 P2 982
.15 TEO TEH
.l0e SSTAC 4
HI 43 110 1.12 79 PCT 17 P3 982
.72 Oat V93
.381 2PUFZ 75 Cl 43 110 TSP TEC TIC
.611 Z4AZc 1009 C
43 118
_33 84 PCT 12 PC 982
.92 TEO TEN
.O6L Z9AZC 4
HI 43 110
.07 a5 PCT 11 P3 982
.77 goa Va3
.380 SPUFZ 75 C1 43 110 TSP TEO TED
.a1 HBAZt 1006 CI 47 110
.33 143 PCT 12 P2 owl
-.73 TeO TEH
.610 Z1AZ0 4
Hj 47 110
.74 77 PCT 13 P3 SKI
-. 73 08H M(3
.39 0Zp:FZ 70 HI 49 110
.63 93 PCl 20 PC Owl
-. 82 TEC TEN
.610 ZBAZC 4
HI 49 110
.21 52 PCT 11 P2 Owl
-. 20 TEO TEN
.610 S*Hlt 4
HI 49 110 1.07 92 PCT 1s P3 awl
-.92 09H Va3
.3UD SPUFZ 70 HI 49 116 1.08 90 PCI 18 P3 ewl
-. 20 098 933
.50 ZPUFIZ 70 Hi I
48 117
.23 162 PCT 8
P2 U93
-. 70 TEO TIM
.6+/-1 ZBAZC 3
HI 1 48 117
.57 93 PCT 11 P3 133
-. U93 823 V93
.38 PUFI 70 HI I
37
+/-18
.41 III PCT 12 P2 9W
-. 93 TEO TEH
.6+/-0 24AZ0 a Hi I ROW COL 90231a DEG IND PER CHRt LOCH EINHI 3OCt92 I CRIE.K CR820 EGEBE.
IT ElIOT P014 PTYPE CAL LI I---------
I----------------------------------
,-----------4-------t-----4----4 7
36fi 21 Pala Varda 2 UR14 PVNHE32 20080401 04/27/2009 22:40:24 4----------------4------------+----4---
4 I R*w COL VQ0T3 011 END PER CHIO LOON
[KCHL flCH.2 I COILER CRWID CEG REIT ENOT PUZA PTYPE CAL LI I
37 118
.53 98 PCT a
Pi 942
-. 92 09a V33
.50 ZPUF:
75 c0 37 118 TaP TEC TEC
.01D ZBAZO 1009 CI 41 118
.5z 127 POT 14 PS B41
.04 TEC TEN
.a01 z942c a NH 41 11U
.33 102 POT 10 P2 942
-. 93 TED TEN
.A1 ZBAZ 3 HI 41 118
.&4 103 PCT 10 P3 942
-.70 09o Va3
.59 Z:PUFp 75 01 41 116
.81 S7 POT 14 P3 ow1
.94 013H 103
.Sao ZUFp:
78 Hg 41 118 TaP TE TEI
.010 ZBZC 0
1000 Cg 43 118
.28 122 POT a
P2 aw1
.91 TED TEN
.010 Z9BAZC 3
H 43 118
.24 112 PCT 7
PS 1a3
.73 TED TIN
.019 ZB9Z2 3
HI 43 119
.53 58 POT 10 P3 941
.91 O9N V13
.390 spUF:
78 HI 43 118
..7 74 POT 15 P3 M03
.91 099 V.13.590 ZPUF*
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.010 Z29Z2 100 CO 47 11 1.4.0 114 POT 29 PC SW+/-
.as TED TEN
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Hg 47 118 1.A 79 PcT 25 P3 SK1
.C8 ON V103
.59 ZsPUF:
78 HI 49 118 1.53 118 POT 34 PC 9W1
.73 TED TEN
.a1D z2zC 3 NH 49 118 1.79 74 PCT 27 P3 OWL
.73 099H V33
.390 ZPUFZ 70 Hg 05 1.s
.25 152 POT 9
PC 942
.HI V13 TEN
.019 9BAZC 34 HI 05 118
.8a 90 POT 15 P3 9W1
-98 09H 1
,5902 ZPUFZ 77 HI 07 118
.71 79 M1N 0
080 22.19 Vo3 TEC
.010 ZBAZ9 45 C 3a 119
.38 120 PcT 13 PC 08H
.74 TED TEN
.019 Z9AZC 4
HI 3a 119 2.39 I02 PCT 42 P2 123
-..99 TED TEN
.010 ZA9C 4
Hg 3a lit
.70 117 POT Si PC 942
-. a5 TED TEN
.010 z29z0 4 N 30 119 i.1S 79 POT 18 P3 V13
-.78 090 103
.590 ZPUF:
75 Cl I3 119 3.37 77 POT 49 P3 103
-. 77 090 V03
.599 ZPUFZ 75 C1 34 119
.950 78 POT S
P3 V13
-. 77 09o v13
.598 ZPUFP 75 Cl 30 119 1.11 83 POT 17 P3 942
-. 71 0O9 103
.590 ZPUFZ 75 Cg 34 119 1.10 90 POT 18 P3 08)H
.74 09H4 0H
.000 ZPAIK f0 Hg 30 119 TSP TEi TEN
.A10 294ZC 1000 CI 38 119
.33 129 POT 12 PC 941
.O1 TED TEN
.A1D 2BA2C 4
HN 38 119
.5.4 107 POT 18 PC M3
-. 78 TED TEN
.010 A
92C 4 Hg 38 119
.58 89 POT 11 P3 CON
.0 9O1N 08N
.590 sPUF:
76 N4 38 119
.97 91 POT 12 P3 OWL
.01 0ON Va3
.500 ZPUFZ 76 HI 3s 119 1.01 73 POT 17 P3 V03
-. 78 093 V03
.59 ZPUFZ 78 HI 38 119 TSP TED rIc
.019 29AZC
+/-000 CI 40 119
.31 141 POT 14 P2 BW1
.74 TED TEN
.019 Z9A2C 4
Hg 40 119
.93 99 POT 10 P3 aw+/-l
.74 0O9 103
.59 zPUFz 78 Hg 40 119
.5i 71 POT 10 P3 103
-1.06 09H 103
.59, ZPUFZ 70 H 40 119 TSP TED TEC
.a10 ZBAZC 1o00 C
44 119
.33 134 POT 12 PS Va3
-0.3 TED TIN
.01 ZBAZC 4
NI 44 119
.87 a3 POT 15 P3 V03
-. 83 V23 Y03
.SOD ZPUF 70 H
48 119
.42 109 POT 14 PS YU
-. 75 TED TEN
.01o ZAZC 4
Hg 48 119
-75 71 POT 13 P3 103
-.75 Vol3 03
.590 ZPUF2 78 H
35 129
.52 133 POT 17 P2 U13
.78 TED TEN
.019 ZA9c 4
Hg 35 120
.64 99 POT 50 P2 942
-.91 TED TEN
.019 ZBA22 4
Hg 35 120 1,22.
92 POT 18 P3 103
.73 090 103
.59 2PUFP 75 0g 35 129
.87 58 POT 13 P3 942
-.95 090 Va3
.599 ZPUF:
.01a 2942c 1000 Cg 37 129
.64 122 POT 20 PS 941
-.95 TED TEN
.01 ZB9ZC 4
Hg 37 120
.1A iG6 POT 7
P2 B92
-.00 TED TEH
.419 ZBA2 C 4 Hg 37 120
.45 1iG POT 7
P3 942
-. 74 0o9 133
.599 ZPUFZ 775 C 37 120 1.19 74 PCT 20 P3 OWL
-.75 COX vzz
.59 ZPUF:
.019 29ZC 1000 Cg 41 120
.22 135 POT a
P2 103
-.05 TED TEN
.010 2A90C 4 Hg 41 120
.95
- 72. POT 12 P3 103
-.85 V33 V13
.530 ZPUFP 78 Hg 43 129
.90 124 POT 1s PC V10
-. 71 TED TIN
.019 29ZC 4
Hg 43 129 1.09 73 POT 18 P3 Y01
-. 71 V23 03
.590 ZpUF:
78 H
45 120
.42 1i3 POT 14 PC 9W1
-.90 TED TEN
.019 ZA94c 4 Hg 45 120 109 119 POT 28 PC* 1
-.76 TED TEN
.419 29B4z 4
Hg 41 129
.91 98 POT la P3 DM1
-.90 OH W33
.390 2PUFZ 78 Hg 45 129 1.84 73 POT 27 P1 V13
-1.01 09M V03
.59 SPUFPS 78 Hg 47 120 1.0 113 POT 29 P2 V13
-.97 TED TEN
.419 29420 4
Hg 147 129 i.84 95 POT
- 28. P3 13-3
-.87 1191 W33
.5990 2PUP 78 Hg
+----4---t.*-~---4 4----------......-------.........
ROW COL VOLTZ 0DE END PER 0HK LON
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21, Palo 'ords 2 U2R14 PVN632 20090401 04127/2000 22:46:24
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I ROW1 COL V4LT2 0ES IND PER CHN LOCH ECHI INCO11 I C.LE CRW1D CEO 00GT E11T POIA PTYPE CAL LI 79 121
.28 98 PCT 10 P2 v43
-. 03 4M3 TCH all ZBAZC 30 HI S79 120
.87 99 PCT 15 P3 423
-. 75 V33 423
.s2o zPUp:
77 HI 38 121
.97 114 PCT 23 PC 423
-.75 TED TEH
.a01 9BAZO 3
HI 38 121 1.35 go PCT 22 P3 V33
-. 75 V33 Y23
.520 IPUFT 70 HI 38 121 TaP TED TEC
.010 zBAZ0 10o0 CI 40 121
.35 101 PCT 10 P2 V23
-. 91 TED TEH
.010 ZIAZC 3
HI 40 121
.1S 78 PCT 11 P3 423
-. 91 V23 V23
.350 ZPUFZ 70 HI 4I 121
.32 129 PCT 9
PC 912
.03 TED TEH
.010 ZBAZ0 3
HI 48 121
.92 91 PCT 14 P3 012
.88 81H2 43
.5b0 SPUFP 75 C1 80 121
.25 101 PCT 10 P2 OWL
-. 79 V33 TEH
.010 TBATC 30 HI 83 121
.70 74 PCT 13 P3 OVI
-. 83 09H V42
.520 ZPUF:
77 HI 154 121
.31 137 PCT 11 PC U42
.03 V33 TEH
.010 204Zc 30 HI 154 121
.75 82 PCT 13 P3 V42
.09 33 V22-
.3H0 ZPUFP 77 HI 43 122
.Z2 70 PCT 7
P3 DVI
-0.7 TED TEH
.010 M9ATO 3
HI 43 123
.04 94 PCT 11 P3 OWL 7
01 V23
.500 29UFZ 70 HI 47 123
.20 124 PCT 0
P3 B%2
-.2+/-
TED TEH
.010 SHAIC 3
HI 47 123
.47 78 PCT 7
P3 BDW
-. 78 02 13 3
.505 ZPUFZ 75 CI 49 123
.32 150 PCT 10 P2 C VI W2 TED TEH
.010 MATZ0 3
HI 49 122
.87 08 PCT 15 P3 MVI
-oz2 0911 43
.50 ZPUFI 70 HI 5a 123
.40 150 PCT 13 P2 OWL
-1.0e V43 TEH
.010 Z0AZC 31 HI I5a 123 1.02 20 PCT 17 P3 BDI
-1.06 091 V23
.520 ZPUFZ 70 HI 29 124 1.30 115 PCT 31 P2 BVI
.99 TED TEH
.010 94BAC 4
HI I 9 124 2.29 G1 PCT 32 P3 OWL
.90 021 423
.520 ZPUFZ 70 HI I 9 124 TSP TED TED
.010 ZBAZC 1000 CI 45 124
.30 123 PC?
11 P2 MVI
-. 23 TED TEH
.010 94AZ 4
HI 45 124
.54 105 PCT 10 P3 DVI
-. 03 091 133
.5O0 PUFI 70 HI I 0 125 2.07 1318 PCT 35 P2 a1w
.29 TED TEH
.010i A
Z CAZ H
I 0 125 2.57
. B PCT 33 P3 OWL
.99 021 423
.Age IPUFP 76 HI I 0 125 TSP TED TEC
.010 4BAz0 1000 CI M
125
.22 43 PCT 7
P3 owl
-.9a TED TEH
.010 254A2 3
HI I
125
.34 55 PCT 10 P2 BWV
.Oz TED TEH
.010 2BAZO 3 H 28 125
.51 79 PCT 9
P3 BVI
-.99 02H V23
.520
- PUFP 70 HI S2 125
.71
-72 PCT 13 P3 OWL
.82 09H V13
.530 ZPUFZ 78 HI I
125 TSP TED TEC
.010 9AZ0 1000 CI I
30 125
.0 135 PCT 0
PC OWL
-. 95 TED TEH
.010 29A40 3
HI I
30 125
.28 102 PCT 5
P3 MV
-. 90 021 V33
.520 IPUFz 70 HI I
30 125 TSP TED TEC
.010 94A20 1000 CI 32 125
.46 92 PCT 13 PC awl uD TED TEH
.010- 2MAO 3 HI I
32 125
.81 90 PCT 14 P3 aWL
.9o 02H 423
.9
- PUF 78 H
I 32 125 TSP TED TEC
.01 24BAZO 1000 CI 160 125
.81 25 PCT 30 P3 812
.90 433 TEDC
.01i zAz2 50 CI 160 125 1.29 24 PCT 19 P3 312
.74 110 U45
.520 2PUF2 77 Cj I 5 120
.37 97 POT 10 P2 B32
-.20 TED TEH
.01a 2BAZO 5
HI 2I 120
.6S 92 PCT 13 P3 912
-.70 080 423
.5BG 2PUF2 75 C1
-35 120 TSP TED TEC
.010 204A2 1000 C1 27 120
.20 135 PCT 8
P2 DVI
-1.00 TED T£H
.010 2ZO42 5
HI 27 120
.04 24 PCT 11 P3 OWL
-1.06 091 U43
.520 TPUFI 70 HI 27 126 TSP TED TEC
.010 2BAZ0 1000 CI 2I 9
120
.2a1 11 PCT 8
PC owl
-.90 TED TEH
.010 ZA2c 3 HI 29 120
.55 91 PCT 10 P3 OWL
-. 96 0u2 U43
.5ug ZPUFZ 70 HI 29 126 TSP TED TEC
.010 2AZC 1000 CI 31 120
.00 134 PCT 10 P2 awl
-.95 TED 7EH
.01t 2042c 3 HI 31 126
.2S 125 PC?
8 P2 ol
.H7 TED TEN
.010 2BA02 3
HI 31 126 1.01 90 PC?
17 P3 BVI
-. 96 021 V21
.590 ZPUF-78 HI 31 126
.63 77 PC?
11 P3 Baw
.237 021 V343
.52 PUFI 70 HI 33 120
.1A 137 PC?
0 P2 awl
-.91 TED TEH
.010, ZA4O 3
HI I
33 126
.24 137 PCT 7
P2 awl
.24 TED TEH
.010 DBA:C 3
HI I
33 12&
A34 70 PC?
7 P3 BDI
-. 93 0em 423
.52 2PUF2 70 HI 33 126
.48 96 PCT 9
P3 BVI
.H4 021H 94.
.5 IPUFZ 76 HI
+-
+---4
+----------------------......-.....
4....-..........
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21 Palo Verde 2 UL2R14 PVNM.2 290-44Z1 04/27/2098 22:40:24 I ROf COL VVITS DES 28D PER CNN LDOCN ICHI INCH2 I C'RIER CRWID CEG BEGT E11T P02A PTYPE CAL Ll 33 120
.70 77 PCT 13 P3 VI3
.65 CON VS3
.5U0 SPUFZ 76 HI I
17 120
.47 137 PCT 13 P2 EDI
-1.07 TED TEH
.a01 ZMAZO 3
HI 37 120
.18 89 PCT 11 P3 B91
-1.07 08H V23
.5BO IPUFP 76 HI I
43 120
.23 as PCT a
P2 BDi
-.91 TED TEN
.a1 9AZC 3
HI 43 126
.33 s8 PC?
0 P3 BWI
-. 91 CON VI3
.590 !PUFS 76 HI I
45 120
.Z3 123 PCT 7
P2 5)2
-. 95 TEC TEN
.0a0 Z9BAC 3
HI 43 120
.12 03 PCT a
P3 912
-. 95 090 V33
.59 ZTPUF:
76 c0 I
13 12d
.52 11M PCT 14 PC DM1 1.27 TEC TEN
.a10 ZBA0C 3
HI 53 120 1.03 77 PCT 17 P3 aWI 1.27 09H VII
.59g ZPUFP 70 HI I
CZ 127
-21 147 PCT 0
P2 911
.O2 TED TEN
.ai 29BA4C 6
HI
+/-2 127
.80 97 PCT 10 P2 9W2
-. 7%
TEC TEH
.a0i 9BA20 5 HI 2
127 1.01 90 PCT 17 P3 B92
-. 54 09o VZ3
.590 :PUFI 75 CI I
127
.47 15 PcT g
P3 911
.Oz 09N VZ3
.5ge ZPUF; 76 HI I22 127 TaP TED TOC
.00 94BAZ0 1000 CI I
I 12 127
-33 107 PCT 9
P2 V94
.82 M2 TEC
.010 294A20 CI I I12 127
.75 91 PCT 13 P3 Y14
.74 V24 V94
.530 EPUFZ 74 CI I
I 23 1Z2
.37 59 PCT 13 P2 E91
-.95 TED TEN
.0+/-i z9Az0 a HI 23 129
.22 105 PCT 8
PC VS3
.65 TEC TEN
.0G9 ZBA4c 6 HI 23 128
.57 104 PCT 10 P3 9)t
-.65 0CN VU3
.359 ZPUFZ 70 HI Z3 128
.4AS 92 PCT 9
P3 V23
.61 0O9 VZ3
.385 IPUFZ 70 HI I 3 128 TOP TEC TEC
.019 z9Azc 1000 CI I
2.3 128
.34 131 PC?
12 P2 B)1
-. B1 TED TEN
.019 z9Azc 0
Hg 25 128
.70 81 PCi 13 P3 5W1
-. 81 09N V83
.39D IPUFZ 70 HI I
28 129
.43 80 PCT 12 P2 VI3
-. 79 TEC TEN
.019 Z4AZ0 3
HI M
129
.74 80 PCT 13 P3 VW
-.79 v92 V23
.599 ZPUFZ 76 HI I
02 129
.51 109 PCT 15 P2 V83
.7 V231 TEC
.019 29420 C1 52 129 1.08 70 PCT 18 P3 VZ3
.7*
921 V-3
.3fl SPUFZ 70 HI I
I 101 132
.0 115 PCT 18 P2 VaI
.64 V93 TEH
.010 ZBAZ4 27 HI I 101 132
.89 89 PCT
+/-1 P2 VC4
.97 V32 TEC
.09 29BA2C 30 C0 I 101 132 1.91 89 PCT 20 P3 V24
.81 V94 V94
.599 sPUFp 70 CI I 101 132 1.3L 80 PCT 2+/-
P3 Val
.9a V93 VII
.59G ZPUFZ 77 HI I
I 1 03 132
.32 78 MON a 07H m.19.8 V93 TEN
.019 84A2c 27 NI I
I 47 134
.30 112 PCT 9
P2 9)1
.77 TED TEN
.019 29BAc 5 HI 47 134
.83 91 PCT 14 P3 911
.77
- 09)
VZ3
.580 ZPUFZ 76 HI I
101 134
.43 114 PCT 13 P2 VII
.84 V23 TEN
.019 29BZC 27 HI 101 134
.83 91 PC?
20 P2 916
.79 V32 TEC
.019 24A2c 49 CI 101 134
.23 121 PCT 7
P2 5M1
.79 9U3 TEC
.a19 Z9BAZ4 9 Cg 101 134
.32 1L3 PCT 9
P2 110
.69 921 TEC
.a01 29A42 49 C 101 134 1.34 85 PCT
+/-2 P3 VIl
.71 V91 Val
.AUG ZPUF=
77 H 101 134
.84 83 PCT 13 P3 V16
.33 11i 916
.589 2PUF2 77 CI 101 134 1.74 84 PCT 24 P3 915
.9a 110 U95
.389 IPUFP 77 Cg 101 134
.39 103 PC?
0 P3 9142
.U' 110 V95
.380 ZPUFP 77 Cg 151 134
.59 93 PCT 9
P3 110
.79 11c Va5
.593 ZPUFZ 77 Cg I
112 135
.34 81 PCT 9
P2 VS4
.77 V93 TEC
.019 ZBA2 C 2
4 0I 112 131
.01 84 PCT 13 P3 Y24
.79 V94 V94
.59o sPUFZ 74 ClI 143 136
.42 1
NlT 2
TEN 23.01 V23 TEN
.019 z9Azc 29 HI I
34 137
.37 91 PCT 11 P2 DIN
-.95 TEC TEN
.019 ZA940 5 HI 34 137
.54 99 PCT 12 P3 UCH
-. 95 0O6 01H
.009 ZPAIC-80 HI I
142 137
.13 359 RTE 2
TEN 23.2i 921 TEN
.019 ZBAZO 20 HI 23 133
.23 104 PCI 7
P2 V113
-. 97 TEC TEN
.019 24A2c 6
Hi
+/-5 13
.02 74 PCT 11 P3 V93
-. 97 923 V91
.303 ZPUFI 76 HI 38 14,1
.37 14 flT
+/-
TEC
+/-3.00 TED TEN
.01 Z9A2C 5
HI 1
142
.63 79 Om N
0 4H 2s.013 0ON TEN
.019 ZAT04 20 HI 39 142
.40 170 XTt 2 TEC 23.04 TEO TEN
.0e 29BA40 6 HI 153 144
.33 04 MOH 6
4H1 1+/-2.U1 923 TEN
.a19 28AZO 23 HI 143 140
.:4 9
RTE 2
TEH 23.02 V31 TEH
.019 94AZ0 23 HI
+--------------------*----+
4+ý 4-----------4 4----
I ROW COL VOITS CES END PER CHN LOCHN EH C
ICH:2 I
GW*ILE CRWID CEO BEGT EHZT POIA PTYPE CAL LI I
10
Palo Varda 2 U2R14 PUNGS2 20O0134.01 04/27/2009 22:48:24 IRO COL 80T13 MEG IlND PER CNN LOGN IIHCNI 1HC2 1
COSLEN CRNID CEG BEGOT E14T POA PTYPE CAL LI 4---------
+----+------*------4----.
4a 147
.00 G
HIE 2
TEO 23.0m Va3 TEo
.010 ZB9ZC 53 C:
1 148
.24 94 PCT 7
P2 03C
-1.90 090 TEo aIG T-BOZC 089 C 1
148
.33 85 PCIT P3 930
-e.s 03C 030
,D00 ZPAtE 79 CI 131 150
.30 132 PCT 9
P2 V13
-. 71 V23 TEC
.010 Z2AZC
.9 01 131 150
.79 78 POT 14 P3 823
-. 5" V23 V83
.390 ZPUF7 77 HI 39 152
.20 53 PCT a
P2 V33
.91
- v23, rio
.0+/-0 zBAZC 00 C0 39 152 z29 97 PCT 0
P3 113
.91 823 V23
.500 ZPUFZ 77 HI 38 153
.30 59 PCT S
P2 833 1.15 823 TEO
.010 Z91ZC 00 Cl 83 153
."0 77 PCT S
P3 n3
+/-.4 823 1V23
.300 ZPUFZ 77 HN I12 15
.3.5 353 H1E 2
TEN 23.00 V23 TEH
.8+/-0 19120 21 HI I
24 159
.30 58 1491 0
08H 0.89 823 TEN
.810 ZB9ZC 9
HII 129 104
.34 07 PCT 12 P2 113
-. 71 v23 TEN a810 Z9BA2 19 HI 129 104
.99 82 PCT 10 P3 in3
-. 75 V23 V23
.380 2PUFZ 77 HI I
L9 100
.37 07 1GH 0
MIN 33.3 8
V23 TEN
.010 ZAZO a
HI I
82 107 1.23 112 M9 0
013H 18.84 823 TEN
.810 Z9AZC 17 HI I
20 171 A37 75 M3H 0
04H 29.75 823 TEN
.010 2912 9
HI 34 171
.78 2
WYE 2 TEN 22.99 823 TEN
.810 9Z0BAZC H
77 172 1.59 100 HTE 2 TEC 23.09 V83 TEC
.810 Z9AZ0 58 C0 33 178
.2S 113 PCT 8
Pt V33
.73 v23 TEC
.010 T591.
02 Cg 313 178
.30 109 PCT 9
P2 V33
.75 823 TEC
.010 ZB9ZC 55 C0 113 178
.72 87 PCT 13 P3 in3
.As V23 vin
.90 ZPUF2 77 HI 21 190
.13 180 HIE Z TEN 23.08E V23 TEN
.810 z0Azc 7
H 81 182
.23 74 GMN 8 8C 18.94 823 TE0
.810 ZBAZ2 55 CO 44 195 48.0Z 185 IHIE 2
TEH 22.24 233 TEN
.81e ZBAZ2 18 HM 23 190
.-0 5
tIE 2
TEN 23.09 823 TEN
.810 2AZ0C 9
H 93 180 1.03 174 HiE 2
TEC 23.00 803 TEC
.810 Z9AZ0 37 C0 21 202
.35 75 514G 0
01c 10.50 V83 TEC
.810 Z9AZ0 01 0g
+
tt--------------- 4-------------
44----t----4----------
I ROW COL VOIT3 DEG SID PER CHN LDCN KOHNH H1H012 I CRLER CRWID CES BEGT E04T P1EA PTYPE CAL LI
÷ 4-.-------- ------------------------
Tu~gi: 227 flac~otdzý 622 It
APPENDIX C STEAM GENERATOR 22
SUMMARY
DATA SHEETS
CC -
22 Palo Veodo 2 U2214 PVNGO 2008*84,1 54t2712008 22:13:11 I RON COL VDLTC DBE Iii PER CNN LOON INCI1 INCH2 I
MELEN DRNID CEO BEST ENDT PDIA PTYPE CAL LI 3-0 3
.41 123 PCT 10 P2 aOH
.79 133 TEN
.810 28Z0 53 NJ 3a 3
.03 11 PCT 8
PS CON
.79 09H 00H
.580 ZPAHC 83 NI 51 18
.29 31 HRM 8 OSH 0-11 123 TEH
.010 29A2C 49 NJ 1a 21 51.00 3
NTE 2
TON
-C10 33 TEN
.010 ZRA4C 30 Ki 84 2%
.42 122 POT 11 P2 143
.73 123 TEC
.010 25ZC 27 O1 84 29
.49 129 PCT L2 P2 V02 1.00 V23 TEN
.81I Z8Z4 47 NJ 84 29
.00 107 POT 8
P3 V02 1.04 V12 V2`
.580 ZPrFZ 82 NI 84 29
.94 87 PDT 14 P&
103
.79 U23
'23
.5w0 ZPLFF 82 CI 31 10
.58 143 POT 9
Pa0 80
-. 84 04 m
.800 2PAHZ 7901 84 33
.29 120 POT 8
P2 912
-.81 V13 TEC
.810 28ZC 31 0I 8.4 33
.59 102 POT 10 P3 912
-. 70 US9C 144
.5w=
ZPLFZ 77 C
1 108 13
.29 79 POT 8
P2 100
.82 Va3 TEC
.810 Z24ZC 36 Cl 1 108 33
.47 78 PDT 8
Pa 100
.78 LOC UCC
.000 ZPAIC 79 01 77 a8
.32 126 POT 8
P2 090
.83 113 TEC
.1+/-0 29420 32 0g 77 38
.58 s
POT 9
P1090
.80 098 094
.800 a
PaH 79 01 79 7
XS
.20 111 POT 9
P2 102
-. 54 V11 TEN
.810 ZRA842 48 NJ 79 3.8
.45 80 POT 6
P3 V02
-. 54 V12 M2
.58*0
- PFz 82 NJ 61 18
.32 93 POT 8
P2 9H2
-a.8 Val TEC
.810 94AZC 32 C1 a8 38
.45 01 PCT 7
P1 9M2
-. 62 U9SC 24
.580 2:Pl1Z 77 Cl S 0 41
.30 00 POT 8
P2 iOH
-1.37 1V23 TEN
.G10 0BAZC 43 HI 9S 41
.01 I11 POT 7
P3 IOH
-1.37 I1O 103
.800 ZPANZ 83 NJ In2 44
.44 130 POT 12 P2 V03
.08 V13 TEC
.810 ZAZC 30 01 1-+/-3 44
.39 144 POT 18 P2 140
.83 V13 TEC
.810 ZBAZC 30 C0 123 44
.70 31 POT 12 P3 V05
.59 Va2 115
.530 2P1Fz 77 01 123 44 1.12 87 PDT 17 P3 103
.w V113 ye3
.380 ZPLFFO 82 CI 4
45 113 PDT 8
PS B92
-0 G0 SEC
-.54*, 2PUNH 08 Ni 137 48
.71 136 2ZV P1 V1o 4-53 Va1 W22
.5w ZUF7
- 82. NHj in1-55
.39 137 POT 11 P2 I1
-1.23 233 TEC
.814 Z8ZC 30 CI In+/-
55
.38 71 POT 9
P3 1ic
-1.82 11C 110
.800 2p744Z 79 01 152 55
.20 110 POT 3
P3 11C
-1.01 IIC 110
.880 ZPAN.
79 0I 113 58
.39 8a POT 11 P2 V03
-. 78 V13 TEC
.81+/- 28A.C 38 C0 I13 50
.90 84 POT 15 P3 Va0
-. 72 13 M3
.580
- P:F=
82.C 114 57
.35 109 POT t1 P2 V103
.82 143 TEC
.814 28AZC 38 O!
114 57
.72 77 PCT 12 P3 U03
.'8 V23 113
.580 ZP7UF:
82 C:
118 5i7
.41 93 POT 11 P2 142
.77 V13 TEN
.810 284ZC 42 NJ 118 57 1.00 90 POT 13 P3 102
.77 V12 12:
.580 2PUFl 82 HI 120 57
.30 131 POT 9
P2 143
-.40 Y423 TEC
.810 284AZ 39 01 J12E 57
.55 as POT 9
P31403
-.5a 1423113
.510 271ff:
82201 I12 08
.59 113 POT 15' P2 V03
.83 143 TEC
.815 28AZC 38 01 I12 08 1.29 80 POT 28 P1 V03
-57
- 123 V.3
.3W9
- PU; 82 01 152 61
.25 112 POT 7
P2 V03
.61 V3 TEI
.810 24AZ0 39 0i 152 61
.52 93 POT 9
P3 V03
.67 123 V13
.su4 2*71f:
82 01 47 84
.31 138 PCT
.8 P2 9wl
-1.81 TEN TEC
.010 Z28C 4
of 47 64
.08 102 POT 9
P3 a914
-1.81 083' VD3
.5Ua 2PU7a 82 NI 24 05
.73 110 POT 18 P2 V10
.7a TEN TEC
.610 RA84C 4
01 24 05 1.11 8a POT 18 P1 103
.-94 143 V23
.580 2PUF2 77 NI 3a 05
.77 149 POT 17 P2 Va0
.82 TEN TEC
.810
.3-c.4C 4C I30 85
.55 92 POT 9
P3 1403
.62 143 193
.580 273111 77 NJ 153 08
.59 110 POT 14 P2 B92
.60 V13 TEC
.810 28420 39 01 1513 6 1.23 93 PCT 19 P1 BH2
.IC 113*
.180 ZnPU:
70 01 I1519 6
.00 04 POT 15 P2 892
.73 123 TEC
.8154 28AZ0 39 01 1519 8
1.34 92 POT.
28 P1 RHO
.75 110 25 3
5IN 27p(1F=
78 C1 18 07 51.07 181 NTE 2
T5C 22.04 TEN TEC
.614 3
BAZC 0
3 01 ROW COL VOLT7 016 BEG 3
PER CNN LOCN INCHI INCH2 1
ORLEN ORkED CEO BEST ENDT P0IA PTYPE CAL LI
+-----------
+---+--
t -------.-------------..
ca -
22 Palo Vold. 2 U291-PFNGD2 20080401 04.'272008 22:53:1L RON COL VOLTC DEE IND PFJR OHN LOON 2NCK1 IIICH2 I
OLECN ORMI)D CEO BEET ENOT PDIA PTYPE CAL LI 4----*----*----+---4---------+----
132 07
.27
+/-a2 POT 7
P2 VOS
.73 023 TEC
.010
,BAZC 39 DI 132 07
.81 92 POT 13 P3 V^5
.73 Yes V23
.5a0o ZPUF2 70 DJ 128 07
.05 115 POT i5 P2 BM2
-. 73 V83 TEC
.010
.B5Z0 39 DI 158 07 1.42 93 POT 21 P3 BD2
-.73 11C V25
.5-6 2PUF5 70 Oj I1C0 07
.42
+/-26 POT 10 P2 BD2
-6.0 V83 TIC
.0+/-0 28CZC 39 0I IG+/-
07
.91 8a POT 14 P3 BM2
-. 8&
L1I VS3
.580 2PUF12 70 01 I+/-5 68 8
.7 G0 POT 13 P2 DM2
.77 V3 TEC
.010 2E.ZC 40 01 139 58 1.00 99 POT 10 P3 DM2
.77 11c 723
.580 ZFP LF 70 0O isl 08
.20 45 POT 0
P2 DM2
.72 V23 TEC
.010 29420 40 O1
+/-0+/-
GB
.59 +/-04 POT 10 P3 8D2
.72
+/-1C V2!
.56` 2PU2 70 0I S15 09
.39 80 POT 10 P2 Val
.94 VS3 TEN
.010 :BAZC 39 Ng
+/-54 69
.87 97 POT 1l P3 Val
.81 Val Wei
.580
= LFPFz 82 NI 8
7+/-
11.82
+/-97 Nrc 0
TEO 23.03 V.13 TEC
.010 04Azc 24 o0 1,28 71 17.14 182 NTE 2
TEC 22.84 V23 TEC
.010 2EAZC 41 0;
134 71 1.25 178 NTE 2
TEC 21.68 V03 TEC
.010 28ig 0 41 01 101 72
.-7 136 POT 13 P2 003
.c.c V23 TEC
.0+/-0 ZRZC 40 01 101
- 72.
1.24 8-4 POT 19 P3 V03
.54 V23 V23
.5s0 aPUFn 82 01 42 73 53.78 179 NTY 2
TOM
.Go TEN TEC
.010 24AZO 0
01 100 73
.30 99 POT 8
P2 V0l
.82 VU3 TEN o0+/-0 2BAZ0 39 tI d10O 73
.80 54 POT 11 P3 Val
.82 Vl Val
.580 2zpufl 82 NI I
104 73
.55 Z
POT 13 P2 BMZ
.o5 083 TEC
.010 Z94ZC 41 01 104 73 1.33 82 PCT 20 P3 DM2
.5!
+/-1C was
.5o :PUFp:
70 01 I03 74
.79 133 POT
+/-7 P2 DH2
-. 70 V83 TEC
.0+/-0 2B5Z0 41 01 503 74 1.39 89 POT 21 P3 8D2
-. 76
+/-10 Va3
.5S2 zPUFz 70 0D 14 75
.05 +/-02 POT 17 P2 DM2
-1.%31 V23 TEC
.010 Z:9Z0 15 01 1 14 75 1.22 93 POT 19 P3 DM2
-. 83 08C
'123
.580 2PuFFO 75 c1 14 75 TBP TIC TEC
.010 28ZC 1000 01 I
I 24 75
.37 44 MEN 0
ONM 29.08 TEN TEC
.0+/-0 2842C 5
01 i9 70
.33 91 POT 10 P2 BH2
.67 TIN TEC
.010 28ZC 5
01 19 70
.50 64 POT 10 P3 DM2
.7!
02C V13
.5.80 -P1F2 75 01 19 70 TOP T7E TEI
.010 28ZO 1000 Og 23 70
.38 113 POT 10 P2 BM2
.53 TEN TEC
.0+/-0 28AZC 0
01 23 70
.04 101 POT 1+/-
P3 8M2
.83 880 V,23
.ý580 ZP1f 75 01 23 70 TBP TEC TEC
.010 2BAZ0 1000 01 IO0 70
.70 10!
POT 10 P2 V0l
-.67 V33 TEN
.0L0 28AZC 39 Hg 101 70
.47 103 POT 11 P2 VOI
.02 VU3 TEN
.010 Z28Z0 39 NI 10+/-
70 1.55 81 POT 1
P3 001
-. 87 UZ1 Wa+/-
_so :PUf.
82 NI 101 70
.83 92 POT 11 PS Val
.&2 021 Wei
.580 2PUF 822 NJ 22 77 1.02 89 POT 23 P2 aMl
-. 90 TEN TEI
.010 Z.AZC 5 01 22 77 L.38 98 POT is P3 DMl
-. 83 G88 V23
.560 2PU42 77 NI 22 77 Ta?
TEC TEC
.00 ZBAZC 1000 01 I
j 84 77
.35 88 POT 9
P2 V02
.77 U23 TEN
.8102 ZR420 37 NI 6.4 77
.8-87 POT 13 P3 V02
.94 W32 W22
.580 2PUPF 77 NI I
132 77
.40 103 POT 12 P2 003
.'s?
V13 TEIC
.0+/-0 2AZC 40 O1 132 77
.91 87 POT 15 P1 Va33 79 V23 V23
.5-0 2PUF2 92 01 I
154 77
.20 l+/-4 POT 8
P2 004
-. 98 V33 TEC
.610 Z8820 40 01 15"4 77
.30 72 POT 0
P3 024
-.98 VS4 V24
.5m ZPUFTI 76 01 I
23 78
.45 125 POT 13 P2 BM2 1.00 TIN TEI
.010 2BCZC 5
0g 2.! 78
+/-.31 91 POT 20 P3 DM2
.70 980 Y23
.5804 2P1F2 74 01 2I 78 TEP TEC TEC
.0+/-0Q ZAZC 1000 Og I
I 1 78
.45 83 POT 1+/-
P2 V03
-. 91 UV3 TEC
.0+/-0 282C 21 0I 91 78
.88 80 POT 13
-P3 V03
-.80 033 V23
.580 2P UPZ 77 NI 28 78
.02 113 POT 10 P2 DMl 1.03 TEN TEC
.0+/-0 2A882 5 01 28 79
/.91 8
POT 14 Ps DM1
.78 08H V23
.380
--PUr=
77 NJ 28 78
.30
+/-04 POT 0
P3 VO^
.99 081 wa3
.50 2Puf2 77 Mg
-I L-*------------
4 4T-------- -------------------------
RON COL OOLTO DEE 11(3 PER CNN LOON INOHi ENCM2 I
CORLEN ORMID CEO BEET ILNDT P01A PrVF1 CAI. Li 4--*--------------------+---------------4--.---------------4t----
Ca -
22 Palo Ve; do 2 U2MI4 PVNGO2 20080401 84t27/2008 22:53:11 ROW COL VOLTC DEG END PIE CHN LOCN 0NC14 1HCH2 I
CRLEN CR14D CEO BEuT ENDT POZA PTYPE CAl LI S....
÷.
+-..
+.....÷....----------4--÷.÷......-----
- ÷---
+
1 28 79 30 I301 I301 32 32 32 34 34 3a 3a 52 31 31 31 51 51 I 117 117 63o (3*
30 I303 30 I303 3a I301 90 o9 108 108 53 53 34 34 34 38 38 38 4a 40 Ica I108 33 35 I35 37 37 37 79 79 79 79 79 79 79 79 79 79 79 79 SD 88 8D SD SD 8D 8D 81 81 81 81 81 81 81 81 81 81 81 81 81 82 82 92.
82 83 83 83 83 83 83 83 83 83 83 84 84 84 84 84 84 TB?
.315 74 PDT
.58 90 POT TaP
.34' 94 POT
.50 107 POT
.39 122 POT
.84 84 POT
.20 144 POT
.54-90 POT
.54 120 POT
.77 92 POT Ta?
130 POT
.79 100 POT
.25 07 POT
.45 108 POT
.40 04 POT
.78 92 POT 1.35 100 POT 1.22 120 POT 1.79 8S POT 1.20 90 POT
.3, 87 POT
.78 99 POT 1.80 L02 POT 2.-8 85 POT TBP
.43 119 POT
.78 110 POT
.53 131 POT
.99 87 POT
.58 89 POT
.00 8O POT
.20 119 POT
.00 95 POT
.39 84 POT
24 P2 914 15 P3 914 1D P2 914 S
P3 914 ID P2 awl 9
P3 awl 11 P2 awl 13 P3 awl 5
P2 awl P3 awl 13 P2 awl I2 P3 awl 11 P2 awl 12 P3 awl 7
P2-B92 8
P3 awz iD P2 8H2 18 P3 9142 ID P2 512 13 P3 B12 28 P2 awl 24 P2 8M2 25 P3 sw2 17 P3 awl I1 P3 awi a
P2 113 18 P3 V013 9
P2 512 13 P3 B92 a1 P2 B82 32 P3 9142 1a.
P2 914
- 1.
P:
9141 13 P2 B92 15 P3 8142 Is P2 912 18 P3 B92 10 P2 V03 11 P3 V13 7
P3 V03 a
P2 9142 11 P3 9142 14 P2 814 17 P3 9142 11 P2 9142
+/-3 P3 9H12 22 P2 a14 I7 P3 awl
.84
.71
.6a
. SO
.97
.91
.83
.87
.E8
-. 9-3
-. 93
-. 9I
-. 79
-. 70
-.88*
-.98
-.68
-. 75
-97
-.9*
-.83
. 97
-. 94
-. 87
-. S,2 S.-
-1:.17
-.83
-.80
-.80*
I 9I3
-. S-
-.77
.81
+/-. 02'
.9,3
-. 53:
-.95,
-. 9,0
-. 78
-. 92*
-. 51 TE7 TEC
.810 ZSAZC LOGO C0 TEN TEC
.810 2a8zc 5
01 0814 V23
.56.8 ZP11FZ 77 NJ TEC TEC
.LO 2BAZC 1000 01 TEN TEC
.810 ZA8CC 5
CO 0811 V23 nSO ZPUfZ 77 NJ TEC TEC
.8L1 ZA8C LOO 01 TEN TEC
.8L1 ZAZC 5
01 08al V23
.5560 p LP*F 77 HI TEN TEC
.810 ZBZC 5
01 09-4 113
.580 ZPUF11 77 HI TEN TEC
.10 ZBAZC 0
01 081 V23
.5403 ZPIFZ 77 HI TEC TIC
.810 28CCO 1000 0
TEN TEC
.810 24ZC 0
01 08" '3
.5.0 2 PLIFZ 77 NI TE3 TEC
.810 ZBZC 40 C01 100 125
-540 2P1F7 70 Oj TE3 TEC 810 B2Z0 42 01 109 M25
.540 :pUFZ 70 01 V83 TEC
.610 2AZC 4.2 01 LOD 'I25
.56,3 ZPLIFZ 70 01 TEN TEC
.810 ZBAZC 0
01 TEN TEC
.810 28ZC 0 C0 084 123
.5813 ZPUF7 74 01 a-M123
,.5.80 ZPUF2 77 HI 0811 '123
.540* 2PW?!
77 HI TIC TIC
.810 28ACC 1000 0 I I
1E3 TEC
.8LO ZAZC 21 CI 1123 1123
.5E.8 2PWF!
77 NI TE3 TEC
.81G ZBZC 42 01 MIC M25 540 ZPUFZ 70 01 "3 TIC
.810 2B8CC 42 0I DiC 115
.580 zPUrZ 70 01 TEN TEN
.810 ZBAZC 1OO 0I I
TEN TEC
.8G ZA8CC 5
01 091 113
.5.60 _P F 77 Ni 1
113 TEC:
.810 ZAZC 42 01 IlC W25
.580 ZPL1Z 70 01 I
TEN TEC
.810 28ACC 5
0I 0SH 123
.560 ZPUF 74 01 TIC TIC
.810 28CCO 1000 01 TEN TEC
.810 ZAzC 5
01 I23 253
.5*0 ZPUFr:
77 Hi 1423 1123
.5.80 2PWZ
?T TEN TIC
.LO 8AZC 5
01 OSC 123
.5890 ZPUFZ 74 0
143 TEC
.810 2BAZ0 43 01 IiC 1125
.5.0 2PI1F2 70 0
TEN TEC
.Gi 2SACC 5
01 080 W23
.ý580 2PLZ 7
01 TEC TIC
.510 28ACC 1000 0
TEN TEI
.81O 2Z54C 5
01 04I.
113
.5.0 ZPUFZ 77 01 TEC TEC
.610 ZBA40 1000 01 4----------
+--
+---------------
I I
I ---------
I ROW COL VOLTO DEG END PER CNN LCH INCH31 ICH2 I
CRLEN COR3D CEG BEGT ENDT PDfA PTYPE CAL LI
+--------------------------------------------
3
SG -
22 Palo Vot.a 2 U2914 PVNG02 20080401 04-27/fl0O8 22:33:11 ROW COL VLT2 0DE 1K49 PER CHN LOCN 2NCHI INCH2 I
CLEN CRH14D CEG BEET ENDT POIA PTYPE CAL LI 4
4-----*
43 84
.37 147 POT t0 P2 V23
.77 TEN TEC
.010 Z1AZC 0
al 43 84
.53 88 PCT 9
P3 V'13
.85 V33 V23
-VA ZPUTZ 77 NI 45 84
.30 73 PCT 8
P2 B81
-.90 TEN TEC
.110 18ATC 0
0I 43 84
.70 103 PCT t1 P3 814
-. 73 08M
'23
.580 IPIfl 77 NI 47 84
.30 150 POT a
P2 9wl
-. 53 TEN TEC
.110 ZBAZC 0
01 47 84
.51 108 PCT 8
P3 511
-9.3 9,B4 M23
.580
- PUF= 80 NI 51 84
.45 130 PCT 11 P2 9142
-.09 TEN TEO
.010 1BZC a
CI 5 1 84
.59 93 PCT 10 Pa Bm2
-.,4 890
'123
.10 PUFZ 74 C0 107 84
.29 108 POT 8
P2 B92
.90 V23 TEC
.A10 ZAZC 42 CI 157 84
.02 10a PCT t0 P3 9M2
.90 11 ye2
.SW ZPUFI 70 CI 38 85
.01 120 PCT 15 P2 814
-.93 TEN lEC
-. 10 1AZC 0
Cg 38 85
.89 123 PCT 19 P2 V'3
.91 TEN TEC
.110 Z1AZC 0
0I I
38 85 1.20 104 PCT 24 P2 BM2
-. 73 TEN TEC
.810 ZRAZC 0
C 38 85 1.41 71 PCT 21 P3
'23
.73 00 '123
.,580 IP;FZ 74 01 38 85 1.70 80 PIT 25 P3 912
-. 70 O08 '13
.580 lPlFl 74 0I 38 85 1.21 93 PCT 17 P3 814
-. 869 083 '3
.5-80 PUFl 77 NI 38 85 TSP TEC TEC
.110 1CAZC 1000 0I 4-4 85
.43 05 PCT 1t P2 91l
-1.09 TEN TEC
.O10 ZAZC 0
C0 44 85
.89 104 PCT 13 P3 B14
-. 93 1S
'3
.M50o ZPLFZ 77 NI 47 81
.48 98 PCT 13 P2 941
.88 TEN TEC
.110 1AZC 5.01 47 81
.59 118 PCT 18 P2 V23
-.9 TEN TEC
.110 MATOC 5 C 47 80
.91 8a PCT 12 P3 914
.88 08.4 V23
.5,0 :purZ
-81 Hg 47 81 1.01 88 PCT 13 P3 V23
-. 88 08N
'13 M
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COLEN CR34D CEG 8EGT ENDT PDZA PTYFE CAL Lj t----
4------------
4--------------
3(1 -
22 Pa1o Ve;,d-2 UM.14 PVN240 2008041 84;27/008 22:513:1+/-
POW COL VOL0C 1
EG 001(
PER CHN LOCH INCHI INCH2 I
C0LEN VRWMD CES BEET ENDT PDIA PTYPE CA.
-+
105 127 I 05
+/-20 22 127 S.2 127 I24 127 24 127 24 127 28
+/-27 28 127 LIOA4 127 104, 127 I"50 127 I+/-8127 157 128 157 128 157 1+/-8 154 129
+/-04 129 I11 130 M
11 130 103 13B I104
+/-3 104 131 153 13.2 4
133 S118 33 I18 133 138 133 130 133 I158 33 is+/-5 133 102 133 5102 33 i+/-19 134 I19 134 In 12134 125 134 1+/-51 134 181 134 a1i 134 ISO 135 135 135 I13 135 I58 135 158 135 Ic15 135
.53 141 POT 12 P2 DM2
-.90 V13 TEC
.610 ZBZC is 1.30 92 POT
.03 98 POT
.20 70 POT
.40 103 PDT TBP
.35 09 POT
.55
+/-13 PDT TBP
- 47 909 POT
.00 81 POT
.87 85 POT
.34' 02 POT
.07 95 POT 1.00 84 PDT
.25 +/-18 POT
.70 89 POT
.33 74 POT
.4A9 95 PO:T
.44 98 POT
.89 82 POT
.37 117 POT 1.02
+/-08 PDT
.31 123 POT
.94 104 POT
.29 130 PDT 1.04 92 POT
.32 111 POT
.44 102 PDT 1.53 93 POT
.37 134 PDT
.70 I+/-0 POT
.81 125 PDT 1.30 101 POT
.29 101 POT
.49 101 PDT 1.14 102 PDT 20 11 7
8 P3 P3 P2 P3 DM2 DM2 DM1 11 P2 DM1 7
P3 DMl V03 V03 BM2 BM2 DM2 DM42 DM2 Va 3 1(03 VC3 BD2 DM2 SW2-DM2 DM2 BM2 DM2 V__3 DM2 VC3 V03 V03 1(23 Bwz BD2 DM2 DM2 V04 VC.
VC4 BD2 DM2 DM2 DM2 BWZ DM2 DM2 DM2 DM2 DM2
-.83
.99
-.95
-.95
.79
.79
.90
.81
- 78
-.75
-.98
-9,4
.G8
.11
.73
.91
.81
-.S5
-S.7
.83
.s0
.S3
.S8
.78
- o.,9
.81
.73
-.59j
-. 74
-.809
-. 84
.S3
.S3
-. 97
-. 94
-. 91
.84
-. 93
.9'2
-. 77
-.60
-. 87
-. 8.
-.B88
+/-11 L11 TEC 082 TEC TEC Bgai TEC TEC U33 1(33
+/-11 V33
+/-11 1(33 Va 3 V2 3 123 V23 V2 3 1+/-4 VY3 V14 V* 3 082 V23 (33 V2*3 Y(3 1(33
+/-14(
V133 VS 3 V23 lE4 V33
+/-14
+/-11 1(33 VS3 V14 V13 1+/-i 1(23 V33 lie TEN V'M TEC TEN I'M3 TEC TEN TEO V23 TEC V25 Yes TEN V23 1*23 TEC lies TEC W$27 TEC TEC V23 TEC DEC TEN TEN TEC V32 TEC ve3 TEC V204 TEC V24 TEC ves
',25 TEC ves TEC V8.3 TEC V23 TIC
. 5J-B3
.540
.510
.580
.010
.590
.010
.564
..Clio
.010
.5+/-0
-540
.6010
- Ota
.580
.5*80
.010
.510
.549
.010
.210
.5+/-0
.010 5340
.010
.580
.010
.540
.010
-580
.510
.5W0
.010
. SOU
.,big
.5m0
.510 580
.580
.584
.810
.580
.10+/-
ZPUFZ ZP UFý ZBAZC ZPUF:
ZBAZC ZBAZC ZPnF:
ZBAZ4
- 8424 ZPUF-T ZAZC ZP8FZ ZPAZC 2P11fz ZPIFZ ZBA.C ZP"F2 2BZC
--PUF Z Z84ZC ZBR.ZC ZPUFrr ZPIPH 28424 28Z24 ZPUFZ ZBAZC ZPUF__
ZBAZC ZPUFZ ZBAZC ZPUFZ ZPUFZ ZBAZC ZPUTZ I-RAZC zptrFZ ZRA.Z0 z2P82 2PL,1.2 73 73 82 LOGO 4
82 1000 82 58 73 50 73 73 20 82 82 59 73 4a 75 29 73 38 73 28 75 20 82 20 82 57 73 57 73 40 73 40 73 57 73 73 20 73 50 73 50 73 50 Ic+/-0
+/-13 1.85 93 PDT 2G pa SM2
-.%I iev2
.540J
- rutZ 73 I102 13 1.01 111 POT 22 P2 BDM2
-."7 133 TEC
.010 28'-C 50 el I1d2 135 1.48 94 POT 22 P3 DM2
-.li e10 V25
.5.80 ZPLrF 73 01 L ---------
... + ------------------------------------------
r IROW COL 1(0T1^ DEG 1213 PER CNN LOCH INCHI 1114H2 I ORLIN O2MWD CEO BEET EMIT PDIA PTVPE CAL 15 4----------.-
4------4-------
lip
00 -
22 Palo Uoada 2 UMAI PMNG02 20080401 05M2712009 22:53:11 ROW COL VOLTO DEG IKM PER CNN LOCK INOKI INCH2 I
CRLEN CRMID CEG BEST ENDT PDZA PTYPE CAL LI 4-37
+/-13
.19 113 POT 5
P2 v03
-.60 TEC TEN
.810 ZAZC a
NJ
+/-59 138
.07 99 POT 17 P2 BH2
.00 Y23 TEO
.010 ZBAZC 56s C:
Ills9 +/-3 1.53 92 POT 23 P3 DM2
-.81 110
'1
.550 zPLWZ 73 0O 151
+/-1a
.45 8D POT 12 P2 DM2
.85 v83 TEC
.680 2BAZC 58 CO 181 115 1.15 88 POT 18 P3 BDM
.9-3
+/-ic '*5
.5&3 ZPFIT 73 of S2z2 137
.22
+/-30 PDT 7
P2 804
-.88 V23 TE0
.5+/-0 2842C 40 01 122 137
.81 95 POT 14 P3 80-4
-. 84 V84 '124
.560 z*P1FZ 73 01 13a 137
.45 112 POT 11 P2 8M2
-.8V 833 TEC
.8+/-0 ZAZC 57 0
158 137 1.27.
92 POT 20 P3 DM2
-.69
+/-1c 'M5
. 580 ZPIJ*F2 73 0O
+/-00
+/-37
.29 88 POT 7
P2 BM2
.65 883 TEC
.510 ZBAZC 57 C0 t+/-0 137
.73 84 POT 12 P3 DM2
.95
+/-10
'18
.560 211FF.
73 CI 98 1339
.3-107 POT 8
P2 V02
.64 V33 TEN
.010 ZBAZC 25 NJ SC 139
.72 80 POT 9
P3 822
.54 v3z V2'2
.so zpUFr-82 NI iolo
+/-
39
.27 83 POT 7
P2 V02
.70 8M3 TEN
.5L+/- ZBAZC 25 NJ t+/-0 139
.53 93 POT 7
P3 1102
.70 V3Z
'1z
.5W: MPF:
82 NJ 1+/-7 145
.34 130 POT 9
P2 V03
-.6-8 V3 TEC
.810 Z3AZC 49 01 117 14D
.98 83 POT is P3 V03 0g 833 V13
.IS0 ZP L? Z 82 CI 83 142
.42 99 POT 10 P2 1103
-.&0 V83 TEN
.5+/-0 ZZCC 23 Nj 83 142
.92 83 POT Is P3 V83
-. 7a V83 V'3
.58o =PUP:.
82 CI S+/-01 14Z
.30
+/-12 POT 7
P2 DM1
.91 V33 TEN
.510 ZRAZO 25 MI 101 142
.47 81 POT 5
P3 DM1
.91 ION V'Z
.3,0 zPUFZ 82 MI I02 143
.33 114 POT 6
P2 802
.73 V83 TEN
.5+/-0 26BZC 23 NI 102 143
.82 Es POT 10 P3 802
.88 882 122
.563 ZP11F2 82 NJ 120 143
.70 9S POT
+/-5 P2 802
.87 983 TEN
.010 ZBAZC 23 NI 120 143
.98 91 POT 12 P3 V02
.57 282 '132
.560 2PIFZ 82 NJ 120 143
.75 98 POT 9
P3 V-32
.74 832 '122
.540 2PUF2 8M M
I13 148
.53
+/-03 POT
+/-2 P2 822
-A.8 V33 TEN
.5+/-0ZA2-"C 23 NI S13 148 1.34 94 POT 17 P3 802
-.69 v82 '12
.580 zPIf7l 82 NJ 53 148
.25 41 POT 8
P2 803
-.50 933 TEN
.- 10 B294C 24 NI 83 148
.79 59 POT 13 P3 V03
-.76 V83 '123
.580 2PUFZ 82 01 Iog 148
.23 31 POT 6
P2 823
-.98 823 TEN
.O+/-0 ZA2.C 24 NI 109* 148
.75 84 POT
+/-2 P3 V03
-.6o V83
'13
.5w0 zPrfz 82 01 1+/-2 149
.32
+/-10 POT
+/-8 P2 V03 1.03 V33 TEN
.510 ZSAZC 22 MI 1+/-2 149 1.14 87 POT 16 P3 v83
.79 V83 'M3
.580
--.P:
8-2 01
- +/-18 149
.30 92 POT t0 P2 DM1
-1.34 V83 TEN
.5+/-0 2BAZC 22 NI 118 149
.52 99 PCT 7
P3 DMl
-1.34 ION '11
._563 2PUTf 82 MI 120 149
.28 88 POT 9
P2 DM1
-..94 V33 TEN
.5+/-0 266ZC 22 NJ I120 49
.04 91 POT 8
P3 D1
-.94 ION Val
.560 2PUF.
82 "I
I
- 1 +/-15+/-5
.79 114 PDT
+/-7 P2 DM3
-.73 833 TEN
.510 28AZC 23 Nj ILI L5I 1.15 89 PDT 14 P3 aM1
-. 73 LOH '1I
.51,0 2PUT2 82 NI I
o0 151
.28 57 POT 7
P2 802
-.09 V33 TEN
.f+/-0 2Z8CC 21 "I
8I 0
15
.87 93 POT 9
P3 V02
-.69 V22 V'z
.560 2PIFZ 82 NI I
49 154
.29 81 POT 9
P2 803
.73 983 TEO
.50Q 28AZC 50 01I 157
.25 97 POT 7
P2 BM2
-1.80 983 TEC
.510 ZBAZC 50 01 M
157
.00 82 POT
+/-5 P3 BD2
-1.45 090 W2.3
.5m0 "PUF2 77 01 I
IS12 157
.29 58 POT 9
P2 8103
-. 90 2V3 TEC
.5+/-L0 ZA8CC 50 01 a2o 157
.50 72 POT 8
P3 8^3
-.71 V23
'123
.60 p21z2 a-, el I
49 158
.25 95 POT 8
P2 803
.S7 833 TEC
.5+/-0 2BZC 50 01I 1+/-3 158
.10 92 POT 5
P2 805
.90 823 TEC
.010
"-A-20 50 01 I
£ 1 104
.35 89 POT 9
P2 BD2
.80 V33 TEC
.8+/-0 28AZC 53 C1 05 154.
.70 58 POT 12 P3 Dm2
.81 a90 '24
.'80 2PUF2 77 01I 1
4 185
.52
+/-22 POT 11 P3 DM2
.54 8+/-
.540 IPIINH 73 NJ I
H-------------------------
E T----------- I I ROW COL 801.10 REE 11( PER CNN LOCH INOHI IHCH2 I
"LION ORMID, 0EG BEET EDM0 PD14 PTYPE CAL. Lg 4----------------------------------------------
+---------------
13
CG 2
Palo verde 2 U2214 PVNG02 20080401 04;27/2008 +/-2:33:11 I ROW COL VOLTC DEE In PER CHN LOCH
.NCH.
INONCH2+ I LEN CL MD CEG BEET ENDT PDXA PTYPE CAL LI S4-----*-.....
1----------------------4-----------4---.
4------+.
4-----------4----
104 103
.21 47 PCT 7
P2 DM2
.90 VS3 TEC
.O1 3Z8C 30 C1 104 105
.00 93 PCT 10 P3 Dw2
.52 10C VI4
.ss0 ZPUFZ 73 C1 S112 +/-5
.30 l10 PCT t0 P2 aM!
-. 73 V.3 TEN
.oL Z34ZC 20 NJ ILZ 105
.07 108 PCT 9
P3 awl
-. 73 ION Y,72
.358. ZPUFz 82 NI I
I 99
+/-00
.23 138 PDT 7
P2 BD2
.-s V33 TEC
.010 Z OZC 0
C0 99 t00
.39 93 PCT 7
P3 DM2 1.01 OC WT4
.3E.
ZPLFZ 73 C1 5 a 9
10
.23 07 PCT 7
P2 DM2
-. 82 UV3 TEC
.810 Z34ZC 32 C1 S4 jo0
.30 94 PCT 7
P3 DM2
-. 8&
10 WZ4
. 453 ZPUFZ 73 C1 87 17G
.22 142 PCT 7
P2 BD2
.03 U3 TEC
.O10 2942 32 CI 87 170
.31 ag8 PDT 0
P3 DM2
.94 09C WT4
.53 ZPUF2 73 C1 I +/-01
+/-70
.27 148 PDT 8
P2 DM2
.79 V.3 TEC
.510 19420 32 C1 101 170
.33 81 PCT 0
P3 DM2
.88 LO
/34
.380 ZFUFZ 73 Cg S44 173
.21 87 PCT 7
P2 V33
-.07 VZ3 TEC
.010 24ZC 32 CI I
I 4
175
.43 113 PDT t0 P3 DMl
-.82 08M4 09
.544 ZPLWH 7
N J Jog 1
O0
.31 81 PCT 7
P2 V03
-. 72 V23 TEN
.810 2BZC 17 NI l0o
+/-80
.93 83 PDT i5 P3 903 V33 '13
.Sai0 IPUFZ 82 C1 108 J1a
.33 127 PCT
+/-3 P2 V03
-V.90 83 TEN
.010 294C 1
NI I104 j1a 1.34 80 PCT 20 P3 903
-.92 833 'M3
.560 2PUF=
82 C1 S4.---------------------------,-------,----.*-----,---------4.--
4 4 --
4-----
I ROW COL VOLT.
DEE G
n PER OHN LOCN INCH!
IHOH2 I
ORLEN ORM)D CEG BEGT ENDT PD1A PTYPE CAL LI
~
Tu6qa: 292 RfteO43: 770 14
APPENDIX D PLI & PLP DATA SHEETS
SO -
L1 Palo Po;do 2 U2114 PVNG022 20080401 e4A271Z00G 22:Z305B ROW COL VOLTS DEG IND PER CNN LOCN INCHI
[RCH2 1
MPLEN CRNWID CEG EET ENDT POIA PTYPE CAL LI
-+------------------
4---4 s8 15 1.02 84 PLP 8
010
.ll B1c O10
.100 2*p*:
79 C0 SO 15
- 1. 1.1 8 PLP 8
010 1.14 O10 010
.90l ZPAIZ 79 0;
87 1i 1.344 03 PLP 9 010 1.28 81c 010
.100 ZPAHI 79 D0 38 79 1.94 88 PLP 8
TON 8.89 TEN 011
.900 ZPAR:
s0 KI 39 88 1.29 82 PLP 8
TNH 0.01 TEN GIN
.AM :MPANZ 80 NJ 157 142
.83 47 PLP 8
07H 27.83 87H OEM
.1O8 ZPAMC 80 NI 143 158
.27 09 PLP 8
02C 18.45 82C 003
.620
-PASZ 79 0;
143 15G
.21 71 PLP 8
020 18.91 82C 032C
.-002
-PA..
79 CD 142 151
.21 241 PLP 8
020 18.83 82C 030
.100 ZPAHZ 79 0:
I 144 151
.15 70 PLP 8
020 18.50 820 030
.160 ZPAH.
79 0;
143 152
.31 W8 PLP 8
020 19.09 820 030
.800 ZPAHZ 79 D0 4914 152
.34 73 PLP 8
02C 18.83 82C 030
.100 ZPAM2 79 DC 144 153
.80 03 PLP 8
02C 19.84 82C 030
.600
'PA-4 79 Cl I140 153
.00 05 PLP 8 02C 18.77 820C 032
.100 ZPAHN 79 CD I145 154
.71 70 PLP 8
02C 18.02 8z2 030
.000 ZPAHI 79 C0 14" 155
.20 a3 PLP 8
020
- 9.
"C 030
.O00 ZPAS42 79 cl 144 155
.55 130 PLP 5
080 24.o27 08*
09C
.500
PAM
83 0I 143 158
.11 78 PLP 8
020 20.40 82C 030
.882 ZPAM2 79 cl I 45 158
.00 57 PLP a
02C 18.95 82C 820C
.8001 ZPAMH.
79 CI 145 158
.07 42 PLP 9 02C 17.12 82C 0320
.800 ZPAHZ 79 C0 4 ----
.÷ 4..
.÷ 4
. +-....÷-..--
ROW COL VOLTS DEG IND PER CNN LOCN 3NCNI 180H2 1 CELEN CRNID CEO BEET ENDT PDtA PTYPE CAI.
-+------------------------
- ---------4--------------
T*Ehoi.:
11 RQa~ordD;:
28 1
0G -
22 Palo Voide 2 U2314 PVNE22 20080401
,4:27i2008 22:11:49 ROW COL VOLTI DEE END PER CHN LOCN INCHI ONCH2 I
CELEN cR14D CEG BEGT ENDT PDIA PTYPE CAL Lj
,--------+----------------------
17 02 1.25 83 PLP 8
TQH 2.08 TOH T2WIN.C ZPA.I 83 HI 19 O
.91 81 PLP 8
TOH 1.97 TSM TI
.2M 0N ZIPAI 8-H I 53 104 1.91 87 PLP a
FOP
.50 FOP FOP
.00n ZPA.H 80 Co 52 105 1.47 85 PLP 8
FOP
.07 FOP FD?
.000 IOPAHZ 78 CI 34 125 1.85 88 PLP 8
FDP
.-1 FOP FOP
.OMQ ZPAII2 78 O1 30 123 2.01 88 PLP 8
FOP
.53 FOP FDP
.00d ZPA=C 7E8 0
- 3.
120
.00 87 PLP 8
FOP
.55 FOP FOP
.0,00 ZPA..
78 cj 8
199 2.05 87 PLP 8
020
.24 02*0 02C
.000 ZPAMZ 79 Og 7 200 2.01 83 PLP a 02C
.22 020 020
.000 ZPAMZ 79 0;
+-------------------
+---+
IPO COL
- VOLT, DEE EN0 PER CNN LON 3NCH1 EMONH I
CELEN CRN1D CEG BEET ENDT POIA PTYPE CAL Lg
+'
4 44 TuLa.: S RoorCiM.t 9 1
APPENDIX E PLUG History and Maps
PLUG HISTORY.
STEAM GENERATOR 21 STEAM GENERATOR 22 OUTAGE/YEAR NUMBER OF
% BOBBIN NUMBER OF
% BOBBIN PLUGS EXAMINED PLUGS EXAMINED FACTORY 2002 0
NA 1
NA BASELINE 2-03 10 100 12 100 U2M12 1
<1%
0 0
U2R12 8
100 7
100 U2R13 14-100 17 100 U2R14 83 100 90 100 TOTAL 116 127
SG - 21 Tubes Plugged in U2R14 Pao Verde U2R14 PVNG62 2RSoG a
Wt Islab in hen Plugged
- 3:3 Ptuggod lube a 53 Stay Red
- ; i : : ::i
, o..
. o o,
..o n
,o i
i
.l
.. l.
l *'
l -
.l
.l. '..
...°[..
...l °
.l.
.l.°'
l.
l.
. l.........
' ° '
° l° *'
°.
l l.'°
- r
- *°
'l
' 'l
.' l°
'l
.' l`
- I" '.
e "
I '
- '*.' n..- -< r.
.[ -.
i* r.
.r ]
.* l.
. l-
.- ] - -..= -F
.- 'L..r -. n- -..- -*
I.'..
' n.".
- *: ' ': -l: ' -l - -:F -: -': -* : --E
' ':I ': -E : ': : -: "[ ' ':÷ ': ' ': ' l: ' '* - ':E ':' ':': : ': I ': :I: : 'l : ': :': * -: :÷ ': ' ': ' * : -: * ': :.
" '[.
L.
.L.
- °
- [
°. 1,° 1 ' " ' ' l.. L,'f '
'[
. l'
.° ° ' '.
., l'
' l '. l,,r ° 'L,.
.. l'
' I"*"
,, 1" ' 1 '.
1,,I'
' " *r l..l
'*V.
- ~~~ ~ ~ ~ ~ ~~~~~~~..'...'. : '... '.'.
.l:
- l ': 1 " ':.1 :.1': 1 " : ' l.:'
".:: ' '1 1..'
.=
=
.==.=====
.====
.
=.
..===
=
====.
==
==
- :-i-:-i:- -I-.: ;-: I-:-
1:- -t-.:: -:- -:- 1:.: I.: :1: :.1 :. 1:. -1.;:1:
!:!i :!: :!: i!:! i:! ii! !:i
!:!i :!: :!:i!: :i:! !i! !:i !:! !:!: :!: "
" !:! !:!: :!: l!: :!::.
- :,r : -s :,l :,: -
- t,: :- :+r
+:,,: :,:j :,: :*: t, t'm 141 1109 ISO LAB 1)5 191 Ito IS to 105 to IS Of 144 as at 15 16 44
SG - 22 Tubes Plugged in U2R14 Pfo Verde U2R14 PVNGS2 2RSG 4 ~ia lmba to bto PI.gqnd 0 37 P lugge
- Tubm,
- 53 Stay Rod I
if LIS it It W A 41 45
$4 1%
GO 0 M
A GO GIA Of Lee 106 11* till lit 121 L3# ISO to LAID 1114 is$ Lee 1111 IN I)% led to I"
I" IN I
I I
I I
I
... I....
I.....
.. I.
. J :......
- 0.
.4, e...
.. I.
. I..
.,J,.
F.
A :
A:
I..
I..
I 7:7, a
to te
.141 29 n
je N
a Z#
III a
M M
N Led IN LIM Ile 124 LIS Lie LZ to to 154 155 L"
111141 t7l in I"
I" L24 tin 20 VMftgft MWES GOOMO&M-W"M Wdý MIMS 176 106 IN5 Lee 713 411 295 94
'Il t4l 66
APPENDIX F FORM NIS-1
NIS-1 FORM OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS
- 2. PLANT PALO VERDE NUCLEAR GENERATING STATION 2a. ADDRESS 5801 SOUTH WINTERSBURG ROAD, TONOPAH, ARIZONA 85354
- 3. UNIT NUMBER 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 2MRCEEO1B Ansaldo 211 NA 160 STEAM GENERATOR 22
APS NIS-1 BACK PS OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS
- 7. EXAM DATES April 2008
- 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 degraded or 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 on the following pages were plugged as a result of this examination.
The number of tubes plugged are as follows:
SG 21 = 83 tubes SG 22 = 90 tubes WE CERTIFY THAT THE STATEMENTS MADE IN THIS REPORT ARE CORRECT AND THE EXAMINATIONS AND CORRECTIVE MEASURES TAKEN CONFORM TO THE RULES OF THE ASME CODE, SECTION XI.
DATE Lk" SIGNED: ARIZONA PUBLIC SERVICE COMPANY BY CERTIFICATE OF INSERVICE INSPECTION I, THE UNDERSIGNED, HOLDING A VALID COMMISSION ISSUED BY THE NATIONAL BOARD OF BOILER AND PRESSURE VESSEL INSPECTORS AND THE STATE OF PROVINCE OF ARIZONA EMPLOYED BY HSB CT OF HARTFORD, CONNECTICUT HAVE INSPECTED THE COMPONENTS DESCRIBED IN THIS OWNERS REPORT DURING THE PERIOD
"'-z-O,* TO 6-'o-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 THE EXAMINATIONS AND CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT.
FURTHERMORE, NEITHER THE INSPECTOR NOR HIS EMPLOYER SHALL BE LIABLE IN ANY MANNER FOR ANY PERSONAL INJURY OR PROPERTY DAMAGE OR A LOSS OF ANY KIND ARISING FROM OR CONNECTED WITH THIS INSPECTION.
-ý7.d 4 ='
INSPECTOR COMMISSIONS
,2-
'k, A 2/-k NATL' BOARD, STATE, PROVINCE DATE
APS NIS - 1 FORM OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS
- 2. PLANT PALO VERDE NUCLEAR GENERATING STATION 2a. ADDRESS 5801 SOUTH WINTERSBURG ROAD, TONOPAH, ARIZONA 85354
- 3. UNIT NUMBER 2
- 4. OWNERS CERTIFICATE OF AUTHORIZATION NONE
CO COL POW COL SO" COL Raw COL 1
010 COL
.50 1.7 14 75 40 103 2m 120 31 128 29 8B 45 1o0
- 19.
76 48 103 12 127 34 121 31 8s 49 lee c3 78 50 103 33 8Z 50 109
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