Steam Generator Tube Inspection Report

ML083100123
Person / Time
Site:	Palo Verde
Issue date:	10/28/2008
From:	Weber T Arizona Public Service Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
102-05917-TNW/RJR
Download: ML083100123 (51)
v • d • e

Text

Technical Specification 5.6.8 Thomas N. Weber Mail Station 7636 Palo Verde Nuclear Department Leader Tel. 623-393-5764 PO Box 52034 Generating Station Regulatory Affairs Fax 623-393-5442 Phoenix, Arizona 85072-2034 102-0591 7-TNW/RJR October 28, 2008 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 PVNGS' 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 fourteenth refueling outage.

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

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

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

Sincerely, TNW/RAS/RJR/gat Attachment cc: (with attachment)

E. E. Collins Jr. NRC Region IV Regional Administrator B. K. Singal 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 0 Diablo Canyon

• Palo Verde 0 San Onofre 0 South Texas 0 Wolf Creek

&(4-7

Attachment Unit 2 - 1 4 th Refueling Outage Steam Generator Tube Inspection Report

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7 0

I U PaboVerlNdear &jemn Slafik UNIT2 U2R14 ARIZONA PUBLIC SERVICE P. 0. BOX 52034 PHOENIX, AZ 85072 Prepared by: Douglas B Hansen Date: 5-4-2008 Reviewed by: Date: 7 Z-f0 0, E ,

Approved by: Report Date:

Commercial Service Date: 9-19-86

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 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 8 1DP-9RCO1 as required by NEI 97-06. In addition, possible damage mechanisms were reviewed along with the specific requirements set forth in Procedure 73T1-9RC01 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. As indicated above, no defects exceeding the Technical Specification repair limits or the PVNGS Administrative Plugging criteria were identified. 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 Page 1

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 U2R14.

Finally, PVNGS Procedure 8lDP-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 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 Page 2

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 KI-z 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 managemenrt 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.

Page 3

SCOPE DESCRIPTION SG.21 SG 22 Exam Description FULL LENGTH I BOBBIN ROW 1 THRU 4 SHORT 4 RADIUS U-BENDS

• HOT STRAIGHT X RC HOT U & SQUARE BEND X RC COLD STRAIGHT X RC COLD U & SQUARE BEND N RC Page 4

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)

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 Page 5

APPENDIX A TUBE SUPPORT DIAGRAM LEGEND and ANALYSIS CODES

PVNGS Steam Generator REPLACEMENTS 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 I Row 6 - 29.019 I

Page 1

LEGEND ROW: Indicates the row number of a given tube.

COL: Indicates the column number of a given tube.

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

DEG: The measured phase angle of a given indication response.

IND: Indicates the analysis code or PCT for percent PER or PCT: The percent through the tube wall of a given indication CHN: Indicates the channel used to make the call LOCN: 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. 1 Vertical Strap ................................ VS1

1. 1 Batwing .................................. BW1

1. 1 Support Plate in Hot Leg ...... 01H

1. 7 Support Plate in Cold Leg ............. 07C Top Tube Sheet Cold Leg .................. TSC Tube End Hot Leg .............................. TEH Tube End Cold Leg ............................. TEC CRLEN: Indicates the flaw length, typically used for cracks only CRWID: Indicates the flaw width, typically used for cracks only CEG: Indicates the flaw length, typically used for cracks only BEGT and ENDT: Indicates the beginning and of the test; together they document the examination extent PDIA: Documents the probe diameter PTYPE: Documents the probe type CAL: Indicates calibration number L: Indicates the leg the examination was conducted from COM: This comment field is utilized to document comments Analysis CODES:

Absolute D rift .................................................................... AD I A pex Anom aly ................................................................... A PA After Pressure Test ............................................................. A PT B ad D ata ............................................................................. BD A Bulge .................................................................................. BL G Dented Buff Mark ...... ..................... DBM D ep osit ............................................................................... DE P Dent .................................... DNT Distorted Support Signal With Indication ........... :.............. DSI Distorted Top of Tubesheet With Indication ..................... DTI G eom etric Indication .......................................................... G EO ID Chatter ........................................................................... ID C Indication N ot Found ......................................................... IN F Indication Not Reportable ................................................. INR Multiple Axial Indication ...................... MAI Manufacturer Burnishing Mark .................. MBM Page 2

Mixed M ode Indication ...................................................... MM I Multiple Circumferential Indication .......................... MCI Multiple 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 W ith 3 coil Probe ............................................... R3C 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 Sludge ................................................................................ SLG To Be Plugged .......................... ......................................... TBP Volumetric Indication ....................................................... VOL Util2 CODES:

Batwing W rapper Bar W ear ............................................... BW W Change .......................................................................... CH History Review ............................................................ HR Inside Diameter ............................................................ ID NEW .................................................................................. NEW No Change ..................................................................... NC No Loose Part Present ........................................................ NLP M anufacturing Induced Groove .................................. MIG Outside Diameter .......................................................... OD Pit like indication ............................................................... PIT Senior (Lead) Analysis Review ..................................... SR Stake ................................................................................ SK Tube to Tube W ear ........................................................... TTW Volum etric Inside Diameter ............................................... VID Page 3

APPENDIX B STEAM GENERATOR 21

SUMMARY

DATA SHEETS

SB - 21 Palo Varda 1 UZ2R14 PYNGS2 221080441 04.127 12O4 +/-2r 5: Z~4 ROW COL VOLTS DEG 311D PER C3111LOOM, ""Ci* I" ICH+/-CRLE " CPRIO' CE M5T ENDT ' P0I' PTYP2 CAL LI I S0 5 L.! 0 MTE 2 TEC 21,11 M63 TE7 .610 ZBIAZC 17 Ci 164 NTE TCe WS3 TEO 31 CI

.612 ZB54:

23 .43 Z"7 HTE TSH 163 TER 52 CI

-2. 8S So .41 7211 PCT 8 ?2 BM51 - Tel TEO .6!1 ZBAZC 32 Ci 14 132 1035 .31 40 PCT O50 .533 0 PVFZ 75 CH

• 183

.63 32 MTE TEC TS3 TEO 31 Ci

.612 Z-BAZC I

34.6 3.4! 108 PCT S 92 .78 *53 TEO Ig0 .610 140AZ 31 42 .703 Ea PCT 13 P3 188 .74 In0 .640 :PAH7 70 CI MeC I5 TEO

.2. 64 PCT 8 ?C 1113 - .97 1S3 V53 .6310 TBAZO 0 CI HI FCT 13 P3 B52 - .73 76 Ci

+/-4 46 810 TER

.3! MBI L2.34 S63 s1 HI I137 03-"

1038 BW22 .580 :BpuP:

I 1 TEO PCT 4 PC 'I53 . PC 153 103 .6819 :BP4Z 27 CI 46 35 06 PCT 8 P3 V'3 .85 ZPUFJP

.580 HI 79 17 10c PCT TEC .611 Z-BAZC 96 1e PC - .72 10 PCT 7 P3 - .76 139C 76 Ci 38 .612, ZBAT-6 I 9 IS T£O Hi:

.2s. 60 MBH 41C 19. 13 163 .610 ZBZO 26 Ci 44 4, .2s TEO

. 33 9S MBM 30.79 *m TEE .683

.610 :PVFZ ZB:ZG Ci Ci

.34 TER

.G4 43 PCT 10 P2 ItsC .83 1S3 T72 .610 ZB4Z8 Hi 8g 60 PCT 104 P3 ODM .580 ZPUFZ 70 HI C-9 .53 .910 63 9-, PCT 17 P3 .640 163 .568 Z:PPZ 70 HI au 60 fg 0163 MBM 6 14.31 153 64 TE7 24 819 19 9 Y53 HI 64 *44 78 MBN 6 28.41 TEE .610 :1B4AZ 37

• .7 .4, 66 137 PCT 3 P2 1 . 21) TEE CI 6 .510 :54:0-

.7 I 8 so

.63 83 MBel 6 Blie 19.75 T53 23 CI 4 .610) :84:0-8711 Wes al

• se 67 6+/- MIII a12 3.63 OSC 72113 22 CI

!.53 .610 :54:0 7211 44 67 3.43 FCT BS2 .81 TEN Ca 67 B-7 PCT 81G 1 ?2P '(52 .73 TS3 T13 .S80 ZPUFZ 70 I

.3a 116 PCT 1s PC .81 TE3 .510 4BAZC 37 HI 44 6`0 a4C TEO Z3

.24 PCT 11 P3 P3 B'1 .84 .580 ZPJFZ 70 HII 644 .63 02 '(S3. H.

u4 71 PCT - .80 GM 720 .640 ZP1JPH 67 Hi

.69

.L7 70 64 71 PCT '(53 .24 TEO 242 71 .24 PCT 14 P3 5111 04C .23 *S3 723 .580 ZPJF 70 7I, 3.8 73 84 PCT 7 P2 .88 TER TE2 3

.13

.8 PCT 450 Ca 73 113 B511 -65 76

.61 26 74 ES F CT - .4'1 TER .610 Z:BZ4 S CII

.as 12 P3 -. 77 26 74 .86 PCT Bu.1 480 Oak V53 TEN: .680 ZPUF2 75 14 7 P3 P2 ý.580  !:PUFZ

.Is

.17 go - .41 TEE .612 :BAZO 11 74 66, PCT B52 TEI 6 11 74 84 PCT 11 P3 B52 - .77 TEH

@Os 76 0i BW2 .530 TBATC 153

-3 .65 .580 -PUiFZ 75 64 FCT 12 P2 35 awl, 70 HI 75 04 PCT 17 P3 -3.64 16.3 153 TE3

• 8:. 7E0 .610 ZBIZ0 CI 08 75 L14 HTE 21.0 3B 4OK TEO CI

.34+ 183 ci 7- POT B5ll .610 T-BAZ-

- .89 7211 .680 Z:PiF! 75 if I

.80 PCT 12 P3 2.2.. 0! TEO1 75 CI F 0T 13 Y3 .71 T53 Ss TBP BMI TEN .610 ZB:ZO 14,00 Ca 58 .580

.580 T:PUir:

ZPlF2 5112 O50 art- PCT 153 CI I13 77 78 .29 8 P2 5112 - .41 TEN 5680 ZPfUF! 8 CHi

• 13 78 78" .8B E3 PCT 11 P3 511l

-. 75 TE3 75 Hi 151 PCT P2 .82 .6!0 :B4: 5 i47 7S

.34 14 5112

.ea Pa .74 T15 .580 :Piw: 75 I47 94 PCT 13

.2+/- 101. F CT P2. .631 :84:0 6 i 4  !.71

.14 P3 409H .58D 70 SE4 go ECT 3.41 :pUFZ:

.......... .......... ..... -.-.....-.-....-.....-............... ......... -....... ......... 4 ..................................- .

I ROM COL VOLTS 0E2 311 PER OllI LOCII INCHI IIHICH 3 CR11EN CRI1D 2EGB5GT ENDT PCI PTYPE CAL LI

SS - 21 P.10o V.,4 % 2R14 P'*NS2 22082-1 2 7*2008 22:46:24 R0IN COL VOLTS BEG 3110,PER OMHiLOCHi KNCHl 1WCN+/- 3 CRLEN CRndID CEG SCOT END? P034 PT3'PE CAL Ll

~ ~ ~~~~~~~ ~

. . 4. . . . . . . .....

I I164 72) .33 126 PCT 0 PC INC .82 TER4 TEO .630 284ZC 70 cl 164 7 .73 6 PCT 11 P3 BWC .82 III TS5 .582 ZPSF1 76 Ci I I uo 82 1.28 78 PCT 27 PC 'T13 -. 84 TEN TEC .G6i TBAT!C 7 C1 66 82 3.83 77 PCT 27 P3 WS3 -. 02 MT5 V53 .683 ZPUF 77 HJ Zg' 8s TBP TEO TEO .612 Z*BAC 1ogo Ci 36 82 .4- 54 PCT 14 PC INC -. 88 TEN TEO .653 !R4A0 6 Ci 35 82 13 B6 PCT 17 P3 BWC -. 80 OEC VS3 .652 Z!PVFZ 76 Ca 36 82 TIP TEC TEO .612 7ZBRT 1000 CI 37 82 .63 DS PCT 17 PC BWC -. 07 TEN TEO .630 ZBAZC 6 Ci 37 8S 1.4-4 78 PCT 21 P3 BMC -_.7 98c T53 .583 ZPJFZ 76 Cl I

19 82 .28 118 PCT 0 P2 EWE -. 07 TER TEO .62 ZBAZC 6 Cl I3 8 .77 E3 PCT 12 P3 BN2 -. 81 2EC T53 .680 ZPUFZ 75 C1 I

• 43 82 .38 96 PCT 11 P2 '1$3 -. 77 TEN TEO .632 TBIZA 6 Ci 43 83 .9! B3 PCT 16 P3 'WS3 -. 77 T&3 VS3 .580 ZPJFZ 70 Hg I I 42 81 .33 64FCTP PC FN2 .03 TEN TEO .619 Z!BAZ0 Cl 49 81 .70 BE PCT 12 P3 INC .93 221 TS3 .582 ZPUFZ 75 CI I

13 82 6.17 102 PCT 37 PC OWL -.80 TEN TEO .612 ZBAZc 6 Ca 33 82 .22 10S PCT 6 P2 BN2 -a.' TER TEO .62 ZBA-ZC 6 Ce 33 82 .48 116 PCT 8 P3 BN2 -._03 2e5 S3 .580 ZPQF: 75 Ci 13 82 6.26 81 FCT 32 P3 311 -.62 OE51 TS3 .582 ZPPFZ 77 Hi 33 82 .63 72 PCT 11 P3 B5i -.25 O6S T53 .582 7PVFZ 77 Hi 13 82 TOP TEO TEC .612 7BAZC LQ2O Ci 35 82  !.L 133 PCT 24 PC 31I .52 TEN TEO .632 ZBAZC 6 Cl 35 82 .26 DO PCT 8 P2 B6Z .86 TEN TEO .619 ZEAZC 5 Ci 35 82 .78 SO PCT 12 P3 B62 .65 OE5 VS3 .82 :PUFZ 76 Ca Is 82 3.17 E2 PCT 2% P3 63I .85 Osm T53 .582 ZPVFU 77 Hi a3 82 TOP TEO TEO .610 Z8AZC 1Q00 C1 37 82 .18 137 PCT 5 PC B11 .B8 TEN TEO .653 !BAZC 5 Ci 37 82 .46 53 PCT 0 P3 B01 .89 OEM VS3 .682 ZP:FZ 77 Hi 37 8a .16 68 PCT 11 P3 V53 .12 OEN TS3 .58 ZPVFZ 77 Hi 37 82 TBP TEO TEO .612 ZBAZC 1QOO C1 36 82 .56 64 PCT 16 PC 'I53 -.85 TEN TEC .610 ZBAZC 5 Cm 36 82 .66 7S PCT 17 P3 '153 -.01 '53 V53 .658 ZPIJFZ 77 Hg 45 82 .6A 43 PCT 14 P2 F3I -. 88 TEN TEO .610 7BAZC 6 Ce 45 82 .29 110 PCT 8 PC '153 -. 03 TEN TEO .613 ZBIAZI 6 Cu 4s 82 .a8 62 PCT 17 P3 B31 -.85 OEM V54 .680 ZPUFZ 76 Ni 46 82 .62 62 PCT 10 P3 W93 -. 84 OEM V53 .582 ZPJFZ 76 Hi 47 82 .30 128 PCT 0 P2 B31 -. 051 TEN TEO .610 ZBAZC S Ce 47 82 .44 116 PCT 8 P3 311 -. 78 OEM S3 .5682 ZPVF: 76 Hi IS 4 3.04 6S PCT 34 PC 1 -._04 TEN TEO .610 ZTRZA 6 Ca I E 84 .34 46 PCT 10 P2 B61 .07 TEN TEO .632 ZBAZ: 6 Ci

• 6 84 2.31 B1 PCT 34 P3 DWI -. 04 *am 753 .580 ZPiiFp 77 No s5 84 .2i Ea PCT 16 P3 B51 .01 OEM '153 ,58a ZPTUF2 77 Hi 36 84 TaP TEC TEO .612 ZIAZC 120 Cl 37 84 .43 56 PCT 12 P2 B61 -. 83 TER TEO .612 ZIAZT 6 Ca 77 84 .04 102 PCT 1 P3 Bl -_.7 GEN '53 .582 ,ZPUF 77 Ho 37 84 TIP TEO TEO .610 ZRAZI 1Q20 Ci 13 84 .28 137 PCT 0 PC2 Ow .7 TER TEO .650 ZIAZC 6 Ci 36 84 .AS 68 PCT 10 P3 B61 .80 OE6 V53 .582 ZPPaF 77 HN 3g 84 TaP TEO TEC .6Aa ZIaZI 1020 Cl 47 84 .42 48 PCT 13 P2 B32 .07 TEN TEO .653 ZBAZO 6 Ci 47 84 .2a 62 PCT 16 P3 B52 .82 2EO '53 .680 ZNPF! 76 C1 81 84 .36 66 MOM 6 elm: 31.75 '50 TEN .619 ZEAZI $5 Hi 107 84 .26 132 PCT 8 PC B51 -3.78 V53 TEN .613 ZTRZI 43 Hi 107 84 .46 03 FCT 12 P3 B2i3 -2.7a 026 '52 .582 ZP. F 77 HI il1 84 .02 103 PCT 21 PC '193 -3.65 'S13 TEO .612 ZRAZO 36 Ci 13L 84 3.67 6 PCT 26 P3 '13 -3.51 'S13 53 .582 ZPUF! 77 Hi 40 8S .66 ea PCT 17 PC '13 .82 TEN TEO .632 ZIAZI 6 CO S4 8a .99 BE PCT 17 P3 '53 .01 '3 S1253 .580 ZPVFZ 77 NH

• RON COL YOL?5 DEG INC, PER OHII LOCH INCHI IitCN2 3 CRLEN CP31ED CEG 62Cr END? P034 PTYPS CAL Li

......... ..- r-......-.-... ....... -#.........

So - 21 F.10 Vo'erd. 2 VZF14 .PYWSS2 2,0OD8401 W/27M09) 12:46:24

.................................................................. 2............-.......

........ 4 ....... .......... ......: ..

IFlow COL VOLT-S DEG 311D PER 03i11011C INCHi IWCHZ S OPLEN CR010 CEG SAT EMOT P03A PUYPS CAL Li

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

i 37 88 .2+/- 04 PCT 7 P2 '113 .a's TER TEO .628 114F0 6 CI i 37 88 .67 SS FCT 12 P3 £53 .9D 753 753 77 Ha

.680 SPOTS 8a .71 Ina FCT -,6D TEE TEC .6Sa 1P4FZ 5 Ci Om 753

.680 S-BAIT!

• 41 88 .96 SO FCT 17 P3 IOU -2.03 77 Hi TEO TEO 88 TBP .610 Z1BZC 1000 Ci I 41

• 41 TEE TEO 86 .70 09 PCT 18 P2 ',13 2.00 .610 ZSPZI 6 CiI 88 1.44 8! PCT 23 P3 '3M WS3 TS3 .580 IPUF4 77 HI 46 I 46

.70 TEN TEO 87 .8. 114 PCT .73 TMI 753 .612 1BAZC 6 Ci 87 i.01 83, FCT 17 P3 '113 .SSD ZPUFZ 77 Hi i 48 87 TEN 751 TEO 75:3

.34 64 FCT 18 P2 BM2 .73 6 Ci 4B 87 1.28 6:2 PCT 10 P3 BM2 .86 .610 Z1BMW 76 Ci TE3 TER Ss 87 .27 35 PCT 10 P2 DM1 -2.13 .622 1141T0 73 Hi S6 87 .20 12 POCT 8 P2 753 VS3 TER .680 IPAZO 56 .60 OUR 753 87 06 POT 16 P3 DM1 .Sao T-PUFZ 56 .90 70 Hi 87 .67 ES PCT 10 ?3 '113 .70 .680 IPJFZ 41 0016 TEM 753 TEO 41 as .4 11 S FCT 12 P2 BM2 -2.04 TEM TEN .613 184A1 8 Ci 41 aSL .10 39 PCT 6 P2 BDM .90 .6!9 1BA10 8 Ci as: .82 SO PCT 13 P3 BM2 -. 85 0016 TS3 .680 ZSPUFZ 76 Ci

• 41 a41 aa .70 BE PCT 11 P3 BD2 .72 TEO TEC .680 ZSPlF! 75 CI as TIP .622 71B4710 10 00 Cm

• 41 TEN TEO 43 as 89 .4! 11Z PCT 12 P2 DMl .88 TEE TEC .6208 1810 8 Ca

.26 137 PCT 8 PC '13 .61-3 TBATC 6 43 S&

as .906 Ci

.81 EQ FCT 15 P3 BMI .Aas -PUFZ 77 Hi I43 as 76 C 43 .77 70 PCT 14 P3 '113 -. 27 TEO TEO .680 SPOT! 77 HiI TIP .680 SPO!C 1000 Ci as .1.07

.820 1141T0 49 as TEN TEO 40 .20 74 PCT 6 P2 BMZ -. 03 TEC Y53 6 Ci Sa

.40 70 FCT 6- P3 DM2 .580 ZPOFZ 76 C Sa ,Bs TEN TEO I163 as: .27 03 FCT 8 P2 BDM .86 .629 18410 37 C1 0053 53E a L63 .76 E POCT 12 P3 BM2 .680 SP-lFZ

.79 lie VS6

• 16.5 80* .34 126 PCT 1% PC BM2 .79 37 CiI 2.12 77 FCT 17 P3 BM2 210 756 .610 PBAZO 76 CI 166 80*

aD

.72 TEM TEC 76 OI 42 80 .10 70 FOT 6 PC BW2 .680 SZPOz 6 Ci 80 .3S 84 FPCT 6 P3 BM2 .42 TEN TME TEC YTE .821137B4710 76 Ci

• 42 TIP 1000 CI

• 4 6 08K 0D .2s 71 1631 32.47 TMJ TEN .620 14AZ1 36 78 HI Ci t41 0g .23 6! PCT 7 P2 V43 -. 77 TEN TEO .612 18A4O 6 CI

.29 67 POT 0 P2 BM2 .. 00 TEN TEO .612 1B410 87 Ci 41 go 41 03 .67 &Z PCT 0 P3 V53 .66 080 V53 .SaO SPOFZ 76 Ci 41 .76 84 PCT 12 P3 BM2 0E0 753 .580 SPTFZ L7 Ci 00 TEO TEt .652 1ZB40 78 CI 41 TIP

-. 9 46 g0 .3A 12+/- PCT 18 P2 BDM TEN TEO .862 ZBAZ0

-. 04 46 91 .SS ES PCT 15 P3 BMi OEe. 753 .680 S-TFZ 77 Hi a46 01 .67' 81 PCT 12 P3 BM1 -. 67 OEM 753 .680 SPOFT 77 Hi

• 46 01 TIP TEC TEO .680 14AZ1 1020 Ci i 46 02 4.1! 04 PCT 46 PC BDM -. 24 TEN TEO .620 ZBAZ1 8 CI 46 02 .66 Ed POT 16 P2 DM1 -. 21 TEN TEC .612 11AZ4 6 Ci 46 02 .2+/- 6+/- POT 7 P2 BDL .07 TER TEO .860 5ZBAZ 1.6M 77 FCT 30 P3 BD1 MEl VS3 ,ESD T-PVFZ 77 Hi 02 0E5 W53 a580 SPOFZ 46 02 1.17 8i PCT 2G P3 DM1 -. 28 GEM 753 .680 SPOFT 77 Hi-I 46 92 .18 34 FCT 4 P3 BML .63 TEO TEO .610 S-TZO 77 Hi S46 02 TaP 10o0 Ci 46 03 .28 111 FCT 8 P.2 '113 .03 TEN TEC .680 1BAZ1 5 Ci 46 03 .33 166 FCT

• P2 BM2 .70 TEE TEO .620 14AZ0 SCi 46 03; .51 SO PCT 8 P3 VS3 .87 Me8 753 .580 SPTF! 76 C 46 03 .62 108 PCT 18 P3 DM2 .ED 0se 7S53 .50T SPOF! 75 CI 46 03 .64 10. PCT 16 13 BM2 .61 OF6 753 .589 SPOF! 76 Cj TIP TEO TEO A30 TBAT-C 1080 CI 46 0i 46 04 .6o 107 FCT 13 P2 VS3 - .70 TEN TEO .60 Z1BAZO 6 Ci

• 46 04 . m Ea F-CT 18 P3 £5'3 -. 91 731 753 .680 SPOFZ 77 Hi

-A.03 a47 04 .57 00 PCT 16 P2 DM1 TEN TEO .680 Z11Z1 6 Ci I 47 04 .44 8. FPCT 12 P2 '153 TEN TEC .680 1BAZ0 6 Ci I nOw col VOLTS DEG 3II0 FER 0311 LOCH1 IHNiC1 186H2 I CR6LEN C0"11D CEG B0GT ENiDT  ?DSA PTUPS CAL LI

s6 - 21 Palo Word. 2 SCR14 PYNOS8 2008D441 226:24 2.:27/2008 1 ROI COL VOLTS DEG 311D PER (nJI LOCHI INCR1 INH2 I CRLEN C0H5D CEG BS36T ENDT PDIA PTYPS CAL LI

.47 94 .82 90 PCT 1S P3 OiL -1.01 OEM 513 .680 BPJFZ" 77 Hi 1 47 94 3.98 U 7 POT 18 P3 WS3 -1.18 OEM 153 .68D ZP4JFZ 77 HI 47 04 TBP TEO TEO .610 TBAT0 100 Ci I I.

• 4r 94 .s6 S7 PCT 14 PC W83 .84 TEM TEOC .61 ZIAC 5 Ci 49 04 1.10 79 PCT 20 P3 183 .89 163 V53 .680 ZPJFZ 77 Hi 49 04 TaP TER TER .612 BATC 1000 Ci LOB 06 .29 138 P*T 8 PC 183 -. 83 153 TER .610 2BA!O 44 Ha 108 S .613 G4 POT 1I P3 W83 -. 77 153 T53 .680 EPUFZ 77 HI 49, 36 .7s US POC 10 P BOil -.. 85 TER TEC .610 ZBAZO 6 Cl 49 go 1.42 SS POT 23 P3 Bil -. 286 OOH Y53 .580 ZPJFZ 77 Hi 49 06 .72 92 PCT 13 P3 Bil -. 97 801 153 .680 ZPIJFZ 77 HI I4 96 TaP TEO TEC .610 ZBAZC LOBO Ci 48 97 .26 121 PCT B PC Bil -1.1z TEE TEO .61a ZBAZO 6 Ci I48 07 .47 92 PCT 8 P3 BiL -3.87 awl IS3 .680 ZPUFZ 77 Ha IB 07 TOP TEO TEO .610 ZBBAZC 1090 Cl I

S47 M 13.8 06 PCT 36 PC Bil 3.00 TER TEO .610 ZBRAZ 6 Co I47 "8 .46 81 PCT 12 PC 193 3.04 TER TEO .630 ZBAZO C Ca

• 4 08 2.76 77 PCT 37 P3 BWL .86 8E6 S53 .683 ZPUFZ 77 HI 1 47 N8 .03 7S POT 16 P3 'IS3 .S0 OEM IS3 .680 ZPIJFZ 77 Hi a 47 OR TOP TEO TEC .612 -B-A!C 10i0 Cl I ,

1 49 .6N 9S O POT 17 P2 BiL -".92 TEE TEC .610 TBAZC 6 Ca J40L g .0S S4 PCT 14 P3 00H 1.2> OCR 153 .68a ZPTiFZ 77 HI 1 49, 08 1.33 82 POT 21 F3 51W1 -3.18 8011 15 .680 ZPFUFZ 77 Ifa 49 1 09 TOP TEC TEC .632 ZBAZC LOBO CI I I I 46 09 .34 63 POT 18 PC BOw -3.82 TER TEC .632 ZB-AZC 6 Ca 46 1 09 .42 70 man 6 0ac 8.88 T*EN TEC .619 ZRAZC 6 Cl 46 09 .e1 901 PCT 18 P3 Bil2 -. 02 OsE 153 .68 ZPJFZ 76 Ci 46 00 TaP TEC TEO .612 ZBAT¢ 10130 C1

, I I 91.0*0 3.1 03 PCT 26 P2 Bil -. 87 TEE TEC .612 ZRBA! 6 Ci 1O go 3.63 83 PCT 24 P3 BiL -. 85 O91 153 .680 IPlJF 77 Hi S10 0 TOP TEC TEI .610 ZBBAZO LO2 Ci I

46 183 3.80 go PCT 33 PC Bil -1.05 TER TEC .612 ZBAZO 6 Ci I46 1e .43 124 PCT 13 PC '183 -. 07 TEE ,TEC .612 ZBAZC 6 Cm

• 46 1N0 v.6. 8 PCT 36 P3 Bil -1.01s 0EM 5 .3Sag ZPVFZ 77 HN 46 100 1.00 El POT 17 P3 153 -.87 061 m5i .680 ZP1JFZ 77 Hi 46 1O TaP TEC TEC .613 ZBAZ7C 1080 Cm I I 47 10 3.47 04 PCT 28 P2 OiL -. 14 TER TEO .612 ZBAZC 6 Ci 47 100 3.48 68 PCT 24 P3 BiOL -. 84 OE6 IS3 .. SO ZPJFZ 77 HI 47 10 TOP TEO TEC .632 eZ0ze 1ean CI I I 49le 1t .83 98 PcT 28 P2 Bil .85 TER TEC .610 ZBAZO 6 Ci a49 100 3.08 el PCT 18 P3 BlL .89 9HE IS3 .680 ZPUFZ 77 Hn 49 108 TOP TEC TEC .632 ZBAZC 100 CI I I 146 10 .3S 11S PCT 1 PC OiL -. 83 TER TEO .632 HBA.! 6 Cg 46 ,101 .81 110 FPCT 14 P3 BiL -. 83 0E6 S53 .680 ZPJFZ 76 Ha 46 Ll0 .67 81 FCT 10 P3 BWI .6.9 OE1 153 .680 ZP1F2 76 Hi 46 101 TOP TE1 TE7 .632 ZBAZC 1008 Cl I I 48 10 .61. 76 PCT 17 P2 Bil -. 77 T61 TEI .612 ZBAZC 6 to 48 101 .84 102 POT I P3 BiL -,77 O01 153 .680 ZPIJFZ 79 HN 48 101e Top TE0 TEC .610 ZBTZC L030 Co I10 L0 .22 ES F T 7 P2 Bil -. 86 TE1 TE1 .632 ZBAZO 6 Ci 1O 101 .20 SS PCT 8 P2 Bil .82 TEE TE1 .612 ZBAZC 6 Cl

.0r 101 .74 77 PCT 13 P3 BiL -. 07 0O9 v53 .680 ZPijFZ 76 Hi 1O 101 .86 87 PCT 16 P3 Bll .74 OR V153 .680 ZPUFZ 76 HI

,10 101 TOP TEO TE7 .612 ZBAZO 1000 Ci I I S4 10 .38 101. POT 11 P2 Bil -3.42 TE1 TEO .610 ZBAZO 5 C!

14, 101 3.87ý 66 PCT 18 P3 011 -3.30 DO9 E11 .680 ZPVFZ 79 HI 64 101 3.67 112 FPOT 31 P '18*3 -. 11 .53 TE1 .610 Z-AZO 17 Cg 64 101 3.84 77 PCT 28 P3 183 -. 84 153 153 .680 ZPVFZ 79 Hi

• 4 101 .60 72 POT 11 P3 183 .8, 113 153 .68 ZPIJFZ 79 Hi I

66 101 .26 134 PCT a P2 1893 -. 7& 153 TE6 .630 ZBAZO 17 Ca I6 L10 .73 81 POT 13 P3 V53 -. 85 T53 153 .580 ZPJIFZ 70 Hi 40 102 .77 12 POT 18 P2 Bil -. 83 TER TE7 .612 ZBAZO 6 C:

l ROW COL VOLTS DEG 311D ER 0111 LOCH 1011 IKCH! 3 CRLEN CFRlO CE[ BIST ENDT PCA PTVPE CAL LI

- - .. -.. +..

4

SE - 21 Palo W-44. +/- U2R14 PYNISI 220934L 04te27?1200 +/-2: 48:24 I BOE COL VOLTS BEG 311D PER CMli MR01 IHCN1 IRCH! 3 CRLEN CaNED LEG B29? END? POIt PYPE CAL Lo 40 L02 .. 2 01 FPCT 18 P3 OWL -. 86 OUN T53 .683 2PWFZ 76 Hi 49 102 TaP TEC TEC .610 $3ACC 1030 CI I

59 102 .2S 122 PCT 8 P2 753 -. 85 793 TEC .610 7-ZCC 17 Ci So 102 .BE: 96 PC 21 P2 PC3 '13 7E9 .i .2610 ZBZC 17 Ci So 102 .64 84 PCT 10 P3 ,S3 -. 89 TS73 T53 .- 90 !PIFZ 79 Hi S80 102 .72 83 PCT 26 P3 V'13 .75 v53 TS3 .683 ZPIJFZ 79 HI I

71 102 .29 8* mom 6 04H 7.89 793 TEN .960 IBATC 34 NI

• I 101 102 .40 67 PCT 13 P2 754 3.09 7M3 TEC E 691 TBAC 42 CI 101 102 .87 9S FPCT 17 P3 '1S4 3.07 754 T54 .589 IPWFZ 74 Cl I I 1 46 103 .9 877 PCT 7 P2 911 .87 TE7 TEN .693 TRAZC 2 Ha 46 103 .61 03 PCT 11 P3 314 .83 am1 753 .689 IZPQFZ 79 HI 49 103 ToP TEC TEC .690 ZBAOC 1009 Ci I

66 103 3.4+/- 113 PCT 32 PC '153 -. 81 T73 TEN .610 hZlO, 34 Hi 66 103 3.36 10+/- FCT 32 P2 '33 .89 7,M TEN .639 2842 34 Hi 66 103 3.684 8 PCT 28 P3 '153 -. 75 753 T53 .589 SPIFZ 79 Hi S66 103 .8+/- 79 PCT 14 P3 V73 -. 6z 793 753 .598 :MPFZ 70 HI 66 103 3.1r, 76 FCT 28 P3 V.3 .83 7S3 TS3 .983 IPUf! 70 Ni 46 104 .18 97 PCT 6 2 B4m2 -. 096 TEC TEN .693 ZBZCC 1 Hi 45 104 .28 11 FCT 5 9P3 B92 -.0s 0E9 753 .580 IPUF! 75 CI 49 104' TIP TEC TEC .613 23Z2 1030 Ci I I S1 104 .26 67 PCT 8 P2 914 .8D TEC TEN .691 23TCC 1 Hi S1 104 .60 83 PCT 11 ?3 81L .89 SOH 753 .680 ZP!FZ 76 Ni 81 LO TIP TEC TEC .6910 2BCC 1OBO CE

• I 4S 109 .7-7 82 PCT 1 P2 91L -1.82 TEC TEN .932 ZBZ2 1 Hi 48 105 3.00 108 PC? 25 P2 '153 .81 TEC TEN .612 ZBZC 1 Hi 48 10S 3.84 83- FCT 28 P3 914 -3.82 KIr T53 .583 ZPUF! 76 Hi 48 105 .94 77 PCT 16 P3 814 .82 B6t 753 .689 ZPUF! 76 HI 48 105 3.10 76 FCT 20 P3 7S3 .81 SRI 753 .980 ZPUF 76 Ni 48 105 ToP TEC TEt .612MAZ C 1030 Cl I

5O 105 .29 109 PCT 8 72 814 -3.02 TEC TEN .612 2BAZC 1 Ni So 105 .86 Ea PCT 15 P3 814 -3.2 091 753 .58D ZPUFZ 76 HN SO 105 TIP TEC TEC .612 ZA8CC LOO Cl 49 109 .37 103. PCT 1i 2C 912 -.91 TEC TEN .620 MATO 1 Hi 49 109 .63 87 PCT 10 73 812 -_.83 0O 753 .593 SPu;! 75 C, 45 L09 TIP TEO TEO .610 2BCT-C 10O CI I I 47 105 .24 60 PCT 7 P2 91L .85 TEC TEN .612 2BAZC +/- HI 47 L10 .43 47 FCT 8 ?3 814 .85 0E$ 753 .580 IPUFZ 76 HI 47 109 TIP TEC TEC .610 24A20 1000 CI I

SS LO .67 ea FCT 17 P2 O14 3.71 TEC TEN .610 2BA2 I Hi SS 106 .67 03 PCT 12 P3 814 3.71 GOI 753 .580 2PIJF2 76 Hi I

O9 109 .30 48 PC? 10 P2 B82 .63 793a TEC .612 ZAZC 42 CI So 10 .73 0+/- FCT 14 ?3 B32 .73 age 754 .580 IPUF! 74 CI I

4S 107 .83 96 PCT 20 P2 V33 -. 59 TEC TEE .692 29.CC 1 HN 48 107 .37 So4 FCT 11 PC B12 .67 TEO TEN .612 Z*10 +/- HI 48 107 3.83 78 FCT 26 P1 "3 -_.50 793 753 .583 ZPWFZ 76 HI 48 107 .79 F1 FCT 14 ?3 '153 3.34 T79 TS3 .580 2MFW! 76 Hi

• 4 107 .68 107 FCT 14 P3 912 .87 SW2 753 .680 2PMFZ 81 CI

• B 107 TIP TEN TEN .613 Z3ZC 10oD Ci I

S0 107 .96 123 PCT 23 P2 31L .87 TEC TEN .610 Z84cC 1 Hi SO 107 3.74 "* PCT 26 P3 81L .87 01H 753 .983 SPi!FZ 76 HI So 107 TIP TEN TER .612 ZZ8C 1000 Ci I I 74 107 .90 93 Hall 6aQ1H 7.92 T73 TEN .610 28420 34 Hi I

179 107 .4.' 114 PCT i1 P2 V33 .to 753 TEO .610 29CC 40 Cj 170 107 .46 E FPCT 18 P3 ',13 .83 753 753 .683 ZPWFZ 81 CI

• 4 LOSE .08 06 PCT 23 P2 91L -._1 TEC TEN .612 ZAZC 1 Hi 46 108 .33 101 POCT 0 P2 82 -a.s TEC TEN .632 2BCC70 1 Hi 49 1O8 .76 82 FCT 12 P3 814 -. 04 0EC 753 .80 ZMPTFZ 75 CI 46 LO 3.7S 83 FPCT 26 P3 81L -. 21 OE8 7S3 .580 2PJFZ 76 HI 49 18 TaP TEC TEO .630 29BCC 1000 Ci 47 10. .20 58 FCT 8 72 WE3 -. 84 TEe TEN .612 18CC¢ 1 Hi

• 47 1M .4-4 67 FPCT 8 ?3 Y33 -. 84 783 753 .683 2PWFZ 76 HI I ROE COL. VOLTS DEC 3I1D FER (M11 LOCH IMIC1 ttH2 +/- I CR.LE CRM1D LEG B3MT ENDT P0EA PTfPE CAL LI

.. . . . . .. ... . . . . . .4-. . . . .

- +4 ..

6

as - 21 Palo Varda 2 U2R14 PVNG32 20020401 04/27/2.0*8 22:6:24 I ROW COL VOT3 0EE IND PER CHU LOCN DICHl 1*1HC2 I ORLER CRW1D DEE jEGT EI"T PMtA PTYPE CAL LI 4g 108 3.34 104 PC1 44 PC SWI -. 9c TED TEN .810 294Z0 1 HI 49 109 .49 122 PCT 14 P2 SKI .93 TED TEN .a0 ZB9ZC0 HI 49 108 3.40 74 PCi 41 P3 WKI .. 02 Call V83 .580 ZPUF2 78 HI 49 108 1.11 78 PCi 19 P3 SWI .93 0CH V13 .580 IPUFZ 70 HI 49 10L TSP TED TEO .010D 2520 100 Cj I

So 109 .18 58 Pei a P2 M1t .99 TED TEN .a10 M90 1 HI 50 109 .59 59 PCi 11 P3 SRI .89 09S V13 .580 ZPUFP 78 HI 50 109 TSP TED TED .A10 20A420 10G0 C0 I

SO 109 .34 150 PCi IQ P2 sKI -. g0 V33 TEN .8+/-0 Z9ZC 33 HI SO 109 .84 77 PCT 15 P3 SKI -. 79 1011 132 .590 ZPUFZ 77 HI I

110 109 .33 120 PCi +/-o PC M33 2.09 V13 TEN .a09 24ZC 31 HI 11a 109 .05 75 PCT 12 P3 VW3 1.08 V13 V13 .590 IPUFZ 77 HI I I 45 110 .Z3 58 PCi 7 Pt awI -1.05 TED TEN .810 -24C2 I HI 45 110 .54 93 PCi +/-o P3 awl1 -1.05 0)K Va3 .590 IPUFP 70 HI 45 110 TSP TED TED a810 ZB9Z4 1OG0 eg I

48 111 .33 72 PCi IQ Pz SKI -.98 TED TEN .810 2:BAC 1 HI 48 111 .- o 110 PCi 12 P3 SKI -. 08 9+/-l 133 .580 ZPUFP 70 HI 48 111 TSP TED TED .010 2..2ZC 1000 Cg 47 112 2.82 107 PCi 42 P2 BSK -1.02 TEC TEN .810 2B9Z0 I Hg 47 112 .25 37 PC1 a P2 SKI .98 TED TEN .810 2B942 1 Hg 47 112 .07 101 PC1 18 P2 V13 -. 75 TED TEN .810 Z92zc 1 Hi 47 112 .27 115 PCi 8 PC 1M( -. 09 TED TEN .810 M9TZO 1 Hg 47 112 1.04 93 PC0 23 P3 Va3 -.82 agD V33 .390 zPUFr 75 Cg 47 112 .01 100 PC1 10 P3 5112 -. 71 09D V83 .590 2PUFP 75 Cg 47 112 3.17 73 PC1 40 P3 SKI -1.02 C9) V33 .590 ZPUF 70 Hg 47 112 .03 87 PC1 11 P3 SKI ..9 08)

O 33.580 2*UF2 70 Hg 47 112 1.45 77 PCi 23 P3 133 -. 75 0al V13 .590 PUFNZ 70 Hg 47 112 .01 91 P01 11 P3 133 -. 20 C0R V13 .s90 ZPUFZ 70 Hg 47 112 TSP TED TED .010 M9AX0 1OG0 0 49 112 -.0 100 PC1 14 PC SKI -1.07 TED TEN .010 B2Z2 1 Hg 49 112 .83 80 PC1 14 P3 BSI -1.07 09H 133 .580 ZPUFP 70 Hg 49 112 TSP TED TED .810 Z04ZC 1000 0 51 112 .22 51 P01 7 P2 SKI .02 TED TEN .010 2MA20 1 Hg 51 112 .32 81 PC1 a P3 SKI .91 QS0 YE2 .390 ZPUFZ 78 Hg 37 112 .24 118 POT 8 P2 V82 1.02 V33 TEN .010 ZB9Z0 33 Hg 57 112 .04 98 PC1 12 P3 142 1.02 SNI V33 .580 2PUFZ 77 Hg 59 112 .28 141 PCT 9 P2 SKI .77 V13 TEN .810 ZE0ZC 33 Hg 39 112 .38 92 PCi 11 P3 SKI .74 C9)1 132 .580 zPU": 77 Hg I

113 12 .34 111 PD1 9 P2 V14 -. 02 112 TED .810 2.BZC 42 CD 113 112. .5 90 PCT 13 P3 1S4 -. 01 V14 V34 .580 zpFu: 74 0g 42 113 1.11 99 PCi 25 P2 V33 -.90 TED TEN .a10 Z2AZ0 - I HI 42 113 .30 128 PC1 9 P2 B12 -. 93 TED TEN .810 zB9zc 1 Hg 42 113 .42 121 Pei 12 P2 M12 1.00 TED TEN .810 ZA90 I HI 42 113 1.85 70 P01 2A P3 V33 -.57 090 133 .590 ZPUFZ 75 0g 42 113 .44 9o PCi 7 P3 B92- -. 91 C08 133 .380 ZPUFP 75 Dg 42 113 .98 0. PC0 15 P3 912 .89 oCO 113 .590 :PUFz 75 Cg 42 113 TSP TED TED .80 I 1 L9420 0 Og 44 111 1.51 122 PC1 30 P2 133 -. 80 TED TEN .810 z9Az4 3 Hg 44 113 .77 109 Pei 19 PC B92 -1.02 TED TEN .810 22zc 3 HI 44 113 2.03 aI Pei 28 P3 U33 -. 75 090 v13 .5890 ZUFZ 75 Cg 44 113 .88 98 PCi 13 P3 B02 -. 97 0C9 V13 .590 ZPUF2 75 0g 44 113 TSP TED TED .010 ZB9Z0 100 Og I

48 113 .47 103 PCT 13 P2 U33 -. 58 TED TEN .810 254ZC 3 HI 4a 113 .30 90 PCi 9 P2 91(2 .91 TED TEN .810 294ZC 3 HI 4a 113 1.60 78 PC1 23 P3 133 -. 54 COD 133 .580 ZPUIF 75 0g 4.8 11 .74 93 PCI 12 P3 B92 .90 0C8 13 .590 ZPUF2 75 CD 4a 113 TSP TED TED .a10 2ZC 10G0 0g 46 113 1.31 121 PCT 28 P2 aKI .83 TED TEN .810 290ZC 3 HI 48 113 .-4 120 PC1 17 P2 133 -.51 TED TEN .810 2Z9C 3 Hg 48 113 2.28 77 PCI 32 P3 911 .93 9H1 V23 .580 ZPUF! 78 HI 48 113 L.37 77 PCI 2:2 P3 133 -. 57 9)11 133 .390 2PUF2 70 HI 48 113 TSP TED TED .10 294AZ0 1000 CI I

5a 113 .28 18 PCi 8 P2 awl .78 TED TEN .81G 25420 3 HI

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

I ROW COL UGITS BEG IN8D PER CHU LO*N KCHl I1CH102 I OILEK CDWID CEG BEGT ESIT P014 PTYPE CAL LI 4 -----. ---

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

a

2G - 21 Palo Varda 2 U2R14 PVN&22 20080401 0412720098 22:40:24 I ROW -COL VOITC DEO IND PER OCH LOCN IHON1 210Z, I CILEK CR10D DEG DEET EIWT P01A PTYPE CAL Lj

+---------------------------t----+-----t-----4.-----+--.-+----+---1----t------+ ----

,------ .- I.--------

113 .08 85 PCT 12 P3 DM1 .91 091 VZ3 .580 ZPUFZ 70 Nj 41 114 41 90 PCT 12 P2 DM2 .57 TED TEN .010 ZSAZ0 3 HI 41 114 .9U 82 PCT 11 P3 BD2 .91 Dec Vwa .s90 ZPUFZ 75 Cj 41 114 TSP TED TEO .010 0BACC 1OO Cj 43 114 .18 141 PCT 0 P2 DM2 .98 TED TEN .010 24A20 3 HI 43 114 .3A 93 PCT 0 P3 EM2 .81 0O9 V-3 .590 ZPUFZ 75 C0 43 114 TSP TED TEC .010 ZBADC LOW Cj 45 114 .52 94 PCI 14 P2 DM2 .93 TED TEN .010 ZIAZC 3 Nj 45 114 1-1Z 89 PCI 17 P3 B%(2 .90 Dec vt3 .3u8 ZPUFZ 7; Cj 4! 114 TOP TED TEC .a10 ZbAZD 1000 CD 47 114 .85 Ila PCI 21 P2 BM2 .90 TED TEN .010 ZBAZC 3 Nj 47 114 1.33 79 PCT 20 P3 DM2 .70 USC Val .590 ZpUF: 75 Cj 47 114 TSP TED TED .010 Z2BAZ0 100O C 137 114 .35 04 PCT 9 P2 V84 -1.02 V23 TED .a10 ZAZC 40 Cj 137 114 .54 88 PCT 11 P3 V84 -1.24 V84 V24 .590 ZPUFP 74 01 4 115 .69 113 PCI 18 P2 DM2 -. 99 TED TEN ai10 2942C 3 NJ 40 115 .72 81 PCT 11 P3 BD2 -. 83 ago VII .590 ZPUFP 75 CO 40 113 TaP TED TED .010 ZbAIC 10L00 C 42 113 .20 95 PCT a P2 V23 -. 92 TED TEN .010 ZAZC 3 Nj 42 115 .39 143 PCT 11 PC ED2 -. 87 TED TEN .010 3AZ4c 3 Nj 42 115 .04 93 PCT 10 P3 VZ3 -. 17 Dec VZ3 .580 ZPUFP 75 Cj 42 115 .9 92 PCT 11 P3 DM2 -. 70 CBC VI3 .590 ZpUFZ 75 Co 42 115 TSP TED TED .010 24AZC 1000 Cj 44 115 .74 127 PCT 22 P2 VZ3 .71 TED TEN .010 ZAZ0 4 Nj 44 115 .23 03 PC? 9 P2 DM2 .90 TED TEN .010 20AZC 4 Nj 44 115 1.70 78 PC1 24 P3 V33 .77 Dec V83 .590 IPUFP 75 Cj 44 115 .91 72 PCT 14 P3 DM2 .89 C9C V43 .s90 IPUFZ 75 Cj 44 115 TSP TED TEO. .019 baAzD 1000 c 40 115 .52 119 PCT 17 P2 VU3 1.98 TED TEN .019 SBAzC 4 NJ 4 115 .28 1250 PCI P2 DM2 -. 49 TED TEN .010 Z2AZC 4 Nj 4a 113 1.32 91 PCT 19 P3 V33 as 080 VI .580 ZPUFZ 75 CD 40 113 .73 103 PCI 11 P3 DM2 -. 95 CAD VU3 .590 ZPUFP 75 Cj 4 113 TSP TED TED .019 ZBAZC0 1000 C 58 11 .215 112 PCI 11 P2 Val -. 09 423 TEH .010 2BAz0 34 Nj 5a 113 S92 99 PCI 10 P3 Y2S - .09 Vo3 VSS .390n I-PUPI 77 NJ 02 113 .z2 90 PCI a P2 DM1 .79 V83 TEN .019 ZAZ50 34 Nj 02 113 .09 93 PCT 13 P3 DM1 .78 09H 522 .580 ZPUFP 77 Nj 39 110 .42 143 PCT 12 P2 DM1 -. 09 TED TEN .010 Z4AZC 3 Nj 39 113 .4" 97 POT 12 P2 Val .71 TED TEN .019 z2Az2 3 Nj 39 110 1.00 76 PCTI 17 P3 OGN .14 OWN vas .590 ZPUFZ 70 NJ 39 110 .78 U9 PCT 14 P3 DM1 -. 69 091 V8H .580 ZPUFP 70 Nj 39 110 .83 74 PCT 1! P3 V23 .83 09H VI3I .590 ZPUFP 70 Nj 39 110 TaP TED TrEC .10 Z4AZC 1000 Cj 41 110 .17 145 PC7 13 P2 DM2 .81 TED TEN .010 Z3AZC 4 Nj 41 110 .47 91 PCT 8 P3 BD2 .72 GCe Yza .590 ZPUFZ 75 Cj 41 110 TSP TED TED .010 ZBAZC 1000 D 43 11 .AS 120 PCT 21 P2 DM2 .95 TED TEN .010 ZBAZC 4 HN 43 110 1.12 78 PCT 17 P3 BDM, .72 09C VII .590 ZPUFE 75 01 43 110 TSP TED TED .010 z2Azc 1000 0 45 110 .33 94 PCI 12 P2 BD2 .92 TED TEN .010 z2Azc 4 Nj 45 110 .07 89 PCI 11 P3 DM2 .77 a9g VWa .510 ZPUFZ 75 Dj 45 116 TSP TED TED .010 Z4BAZC 1000 C 47 110 .33 143 PCT 12 Pa BDI -. 73 TED TEN .010 3AZC 4 Nj 47 110 .74 77 PCT 13 P3 DM1 -.73 091 was .580 72PUFZ 70 Nj 49 110 .A5 83 PCT 20 P2 DM1 -. 92 TED TEN .010 284A0 4 Nj 49 110 .29 52 PCT 11 P2 DM1 -. 20 TED TEN .010 "AZC 4 Nj 49 110 1.07 92 PCT 18 P3 BD1 -.82 O9M VII .390 ZPUFI 70 NJ 49 110 1.08, 90 PCI 18 P1 BM1 -. 20 09H1 VII .590 ZPUFZ 70 Nj 48 117 .25 102 P01 0 Pa Y3 - .70 TED TEN .010 24AZC 3 Nj 48 117 .37 93 PCT 11 P3 Val -. 83 43 V"1 .580 ZPUFP 70 NJ 37 13B .41 110 PCT 12 P2 BD2 -.93 TED TEN .010 Z4AZC 3 HN

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

I ROW COL V40T17 CEG 21D PER CHN LOCN ICHNI INCD Z I O.LER CR152 DEG BDGT ECHT P014 PTYPE CAL Lj

- ------- t---------,------------------------------ *- --................................- .

7

32 - 21 Palo Varlde 2 U2R14 PVNr&2 200D0441 04,27/+/--009 22:40:24 RO COL 1G07T EO 1N40D PER CHN LOCH [KCHNI 1c40z 2 C1LE2K CRW10 CE BESGTEBunT P0A PTYPE CAL Li 37 11a .53 W9 PcT 8 P3 a%,- - .92 080o V3 .580 ZUF" 75 CO 37 1la TUP TED TEOC .ai zeAzc 1OGO Cj 41 11a .52 127 PCT 14 P2 OWi .84 TED TEN .010 ZBAZc 3 HI 41 1WS .33 102 PCT 10 P2 B%_- -. 83 TED TEH .0O1 z1A2 3 NI 41 118 .64 103 PcT IQ P3 914. -. 70 0o9 a3 .SOD ZPUF 75 C1 41 118 .81 97 PeT 14 P3 OW .04 081H VZ3 .80D ZPUFZ 70 NI 41 114" TOP TED TMC .00D Z9AZC 1000 C0 43 118 .28 122 PcT a P2 OWi .91 TED TN .aiD .BA.0 3 Hg 43 138 .24 112 POT 7 P2 V,3 .73 TED TEN .010 ZAZC 3 HI 43 11* .53 59 Pci 10 P3 awl .+/-1 0814 a3 .SOD ZPUFZ 70 HI 43 119 .87 74 PcT 15 P3 813 .+/- 09g1R 1"3 .59D ZPUF. 70 Hg 43 118 TaP TED TEC .00D z9azc 1000 CI 47 119 14A 114 PiT C9 P2 W. .90 TED TEH .010 ZBA9C 3 Hg 47 119: 1.04 79 PcT 2" P3 OWL .ga8 091H 3 .50D ZPUPz 70 Nj 49 119 1.53 119 PcT 30 P2 OWL .73 TED TEN .O1D .CAZ 3 HI 49 118 1.79 74 PcT 27 P3 -WI .73 09H 133 .580 ZPUF. 70 Hg 0" 1,1 .23 1+/-5 PCT 9 P2 owl .81 823 TH .a01 Z9AZC ,.

34 05 1143 .90 8D Pci 15 P3 OWi 091 Gem 13 .590 2PUPZ 77 N I 7 119 .71 70 MNH 9 0180 +/-2.10 V03 TIC .010 29cC -15 Cg 30 119 .38 125 PcT 13 P2 0a1 .74 TED TEN .010 z9Az2 4 H 30 119 2.39 102 PcT 42 P2 M33 -. W0 TED TEN .OD ZBAZC 4 NI 30 119 .70 117 PcT 21 P2 O912 -8.5 TED TEN .010 zeAzc 4 H 31 119 1.19 70 PcT 1i P3 133 - .79 090 V23 .590 ZPUFZ 75 Co 30 119 3.37 77 PcT 40 P3 V.3 -. 77 08ag 13 .50D ZPUFP 75 C1 3a 119 .0-S 70 PcT 9 P3 V3 - .77 0O9 W83 .5OD ZPUFZ 75 Cg I3a 119 1.11 83 PcT 17 P3 9142 - .71 0O9 133 .59D ZPUFZ 75 C1 3a 119 1.10 90 Pc7 18 P3 "SH .74 0914 09H .a9D zPAIC 90 HI 3a 119 TSP TEH T£H .010 29Zc 1009 Cog 38 119 .33 120 PciT 1 P2 OWL -.81 TED EH .010 2.9zc 4 NI 38 119 .54 107 PcT i1 P2 2,3 -.78 TED TEH .0I1 ZAZC 4 Hg 138 119 .38 as PcT 11 P3 0314 .-08 OGe BaH .50D ZPUFZ 70 NI I 38 119 .67 91 PcT 12 P3 Wl .91 0914 1r3 .5O9 ZPUFP 70 NI 3a 119 1.01 73 PcT 17 P3 M3 - .78 0814H w3 .50D ZPUFP 70 Hg 3a 119 TaP TED TED .0l1D ZIZC 100 CI.

440 119 .39 141 PcT 14 P2 OWI .74 TED TEN .01D 2MAX2 4 NH I44 11S .93 99 PcT 10 P3 SK1 .74 091H W83 .SOD ZPUF: 70 Hg 44 119 .51 71 PcT Ic P3 US3 -1.00 0914 V13 .580 ZPUFZ 70 NI 40 119 TSP TED TEC .1D Z9AZ0 10OG0 CI 44 119 .33 134 POT 12 P2 1as -. 03 TEC TEH .010 29AZC 4 Hg 44 119 .87 83 PcT +/-5 P3 V23 -.83 803 133 .580 ZPUFZ 76 Nj 48 119 .42 199 PcT 14 P2 1,3 - .75 TED TEN .0L1 ZBACC 4 Hg 48 115 .75 71 PcT 13 P3 V13 -. 75 823 ws3 .390 ZPUFZ 70 Hg 31 12D .%Z 133 PDT 17 P2 v33 .70 TED TEH .010 ZBAZC 4 NI 35 120 .A4 99 PcT 20 P2 B942 -.91 TED TU .01D 2BAZC 4 HI 35 120 1.22 92, PcT 18 P3 US) .73 090 VS3 .590 ZPUFZ 7"5 0g I3 120 .A7 58 PcT 13 P3 Mk-_ -.05 080 Un .59D ZPUFP 75 Cj 33 120 Tlp TED TE .0L+/- 29A42, +/-o00 CI I 37 120 .04 122 PcT 2.0 P2 Wiv -.95 TED TEN .0ID 2942C 4 Hg 37 120 .19 100 POT 7 P2 8142 -.90 TED TEH .010 ZAZ0 4 NJ 37 120 .45 103 POT 7 P3 9142 -. 74 OD V12s .959 ZPUFP 75 CI I 37 120 1.19 74 PT 2+/-0 P3 BWi -.79 091H 133 .50D ZPUFZ 70 Hg I 37 120 TaP TED TIEC .01O ZAZ0 1000 CI I I 41 120 .2Z 135 PrT 8 P2 13) -.85 TED TEN .010 29420 4 Hg 41 120 .5 72-- PcT 12 P3 US) - .935 83 US) .390 ZPUFP 70 NJ 43 120 ._9 124 PDT 19 P2 vas -. 71 TED TEN .010 z2Azc 4 Hg 43 120 1.019 73 PcT 18 P3 IUI -.71 V,23 V13 .390 ZPUFZ 70 Hg 43 120 .42 133 PCT 14 PC WIW -.90 TED TE1 .0+/-0 ZBAZC 4 NJ 45 120 1.99 119 PcT Cas P2 a33 -. 75 TED TEN .010 ZBAZ 4 Nj 45 12D .91 SO PcT 10 P3 awl -. 90 094H 13 .580 ZPUFZ 70 Ng 45 120 1.84 71 PCT 27 P3 V3 -1.01 0O91 W23 .590 ZPUFP 70 Hg 47 120 1.09 113 PCT 28 P2 U33 - .97 TED TEN .01AD 24AZC H 47 1201 1 .9 95 PcT 29 P3 Uas -. 87 V03 Was3 .5"0 zPUF: 70 Hj I ROW COL 8r017 CEO IND PER CHN LOCH INCHI TINC02 I OJLEII CR14D CDEG BEBT ENIDT P01A PTYPE CAL LI

+----- .

a

Pala Vardo 2 UZR14 PVNS19 O239401 34!2721008 22:40:24 FLOW COL VOTi DEG IND PER CHN LOCN EKICHI IMO11 I CRLER C0112D DEG SEGT EKlDT PO01 PTYPE MAL Lj 73 123 .28 99 POT 1Q P2 V.3 --. 03 9V3 TEN .010 MSAXC 30 Nj 79 120 a7 99 PCT 15 P3 V43 -. 75 V93 V3W .5BO ZPUFZ 77 HI 38 121 .97 114 POT 23 P2 V83 -.75 TED TEN .01A ZAZO 3 Hi 39 121 1.35 9 POT 22 P3 83 - .75 V03 123 .580 ZPUFI 70 HI 38 121 TIP TEC TED .03 ZsZC 1,040 Of 40 121 .35 101 POT 10 PC Vn3  :.91 TED TEN .01a ZUAZD 3 NH 40 121 .59 78 POT 11 P3 23 -. 91 923 M 33 .591 ZPUFZ 70 Nj

,4S 121 .32 129 POT 9 P2 BD2 .03 TED TEN I.D1 B2Z0 3 Nj

.48121 .92 91 POT 14 P3 &- .aA 9N2 vi3 .59D ZPUFZ 75 Cl

.0 121 .2_ 101 POT 10 P2 B91( -.79 V23 TEN .013 Z9ZC 9 30 HN M0 121 .70 74 POT 13 P3 91( -. 93 091 832 .590 ZPUFZ 77 Nj 154 121 .31 137 POT 11 P2 Vi2 .63 M23 TEN .0ad ZA942 30 Nj 154 121 .7 O92 POT 13 P3 832 .59 v92 V32 .593 ZPUFZ 77 NJ 43 122 22 70 POT 7 P2 awI -.97 TED TEN .0ID ZBAZC 3 H:

43 122 .4 94 POT 11 P3 9(1 -.97 08m Vi3 .593 ZPUFP 70 Nj 47 122 Z20 124 PCT 0 P2 9112- -.81 TED TEN .010 ZBAZ9 3 Nj 47 122 .47 78 POT 7 P3 V1( -. 78 09g via .390 ZPUFZ 75 CD 4.9 122 .32 150 POT 10 PC 91(1 -.SC TED TEN .015 ZB9Z4 3 Nj 49 122 .87 08 POT 13 P3 DVI -SC2 09m 03 .58B, ZPUFZ 70 Nj 5a 123 .4a 153 POT 13 P2 DV1 -1.06 V03 TEN .013 Z94ZC 31 NH 50 123 1.02 95 POT 17 P3 DVI -1.05 091 '33 .39D ZPUFZ 70 Nj 29 124 1.30 115 POT 31 P2 B11 .90 TED TEN .013 ZBZC 4 NJ 29 124 2.29 S1 POT 32 P3 911 .9D 09N U33 .593 ZPUFZ . 76 Nj 29 124 TaP TED TED .013 ZB9Z0 1,00 0I 45 124 .30 123 POT 11 P2 911 -9.3 TED TEN .010 .Z 9Z0 4 Nj 45 124 .54 105 POT 10 P3 B9( -. 93 0am Va3 .590 ZPUFZ 70 NI s0 125 2.37 1.1 POT 33 PC B91 .89 TED TEN .010 ZB0ZC 5 Nj 20 125 2.57 83 POT 33 P3 B91 .89 01H 833 .590 ZPUFZ 70 Nj 20 125 TaP TED TED .01I Z94ZC 1300 D1 28 125 .2. 43 POT 7 P2 91(1 -.99 TED TEN .810 29Z4 3 Nj 2W 125 .34 55 POT 10 P2 91( .82 TED TEN .010 94,0Zc 3 Nj ZS 125 .51 79 POT 9 P3 91( -. 99 081 Vi3 .593 ZPUFZ 70 Nj 26 125 .71 7a POT 13 P3 OWI .92 09H V33 .560 ZPUFP 76 HI 26 125 TeP TED TED .013 Z94ZC 104 CI 30 125 .20 135 POT 0 P2 91( -.90 TED TEN .010 ZAZ . 3 NI 30 125 ._2 102 POT I P3 OWL -. 95 081 vas .580 ZPUFZ 70 Nj 30 125 TaP TED TED .01 Z94Z0 109O C[

32 125 .48 92 POT 13 P2 911 so TED TEN .018 ZBAZC. 3 NJ 32 125 .a1 90 PCT 14 P3 9( .go 01H via .583 ZPUFZ 76 Nj 32 125 TSP TED TED .01d Z9Zc 1093 Dj In1 125 .91 85 POT 29 P2 91(2 .93 923 TED .010 z9AZC 530 C 18 125 1.29 84 POT 19 P3 91(2 .74 1tc 3W .383 ZPUFLP 77 CD 25 125 .37 97 POT 10 P2 B%2 -8.90 TED TEN .01a 9 ZBZC 5 Nj 25 120 .85 91 POT 13 P3 912 -. 70 OBe Vi3 .sa0 ZPUF2 75 01 25 123 TSP TEC TED .010 Z9Z4 1090 Dj 27 126 ý.2 131 POT a P2 91( -1.93 TED TEN .810 ZBAZ 5 NI, 27 125 .-4 84 POT 11 P3 91i -1.33 081 Uv3 .sso ZPUFZ 70 Nj 27 123 TaP TED TED .013 Z9ZD 100G C 29 128 .20 119 POT 8 P2 91( - .95 TED TEN .013 Z9BAZ 3 Hi 29 120 .55 91 POT 10 P3 Bbr2 -. 90 O1 V33 .3a0 ZPUFZ 70 NJ 29 123 TSP TED TED .013 ZB9ZC 1099 D 31 123* M5 134 POT 10 P2 9W1( -. 90 TED TEN .03 z2Azc 3 NI 31 125 .25 125 PCT 8 P2 91( .97 *TED TEN .010 z2z4 3 NJ 31 128 1.01 90 POT 17 P3 BW1 -.95 091 Vi .593 ZPUFP 76 Nj 31 120 .63 77 POT 11 P3 B91 .a7 09H v3i .see 2PUF 76 Nj 33 120 A1S 137 POT 0 P2 B91I -. 93 TED TEN .013 Z2942 3 N 33 123 -24 137 POT 7 P2 91( .84 TED TEN .013 z9zc 3 Nj 33 128 .34 70 POT 7 P3 B91 -.93 09114 33 .590 ZPUFZ 70 Nj 33 120 .48 9S POT 9 P3 B1(1 .Ge4 081 Via .593 ZPUFP 76 Nj

+ ----* --- .T-t -- t -H-D f ---- t -------- ----- ---- ---- - -

• D-------eT----T---P-------------------------

I ROW COL, VOLTi CEG IND0 PER CNN LOON IRCNi 211D12 I DRIER CR1120 DEG BEST ElIOT - P014 PTYPE CAL Lj

---

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

9

s3 - 21 Pala Varda 2 U2.R14 PVN&G1 20080401 94/27f2008 22:40:24 I ROW COL VOI.TZ DEO ID PER CNN LOCN INCHI 21112 I ORLEN CR112D CEO SEGT ERMT POIA PTYPE CAL LI

+--------------4--- --------------- - + --------------- 4--s-----------------------I - -----------

+ ---- I----t+.

1 33 120 .70 77 PCT 13 P3 423 .05 08H 423 .5A ZPUFZ 70 NJ 137 12 .47 137 PCT 13 P2 DWI -1.07 TED TEN .010 zBAzc 3 Hi I 37 120 .59 85 PCT 11 P3 awI -1.07 0OH 423 .580 ZPUFZ 70 NI 43 126 -25 0s PCT 8 P2 aw1 -. 91 TED TEN .010 9)ZBZ 3 HN 43 128 .33 98 PIT a P3 SKI -. 91 O0H 433 .580 ZPUFZ 70 NI 45 120 .23 128 PeT 7 P2 DM2 -.90 TED TEN .a1o 20Az4 3 NI 41 120 .52 03 PCT 8 P3 DM2 -.95 08C 423 .580 ZPUFZ 70 Co 35 125 .52 118 PCI 14 P2 EVI 1.27 TED TEN .010 ZBAZC 3 NI 55 120 1.03 77 PCT 17 P3 DVl 1.27 CSO 423 .580 ZPUFZ 70 N S2Z 127 .21 147 PCT 0 P2 DwI .8z TEC TEN .0aD ZBAZ4 5 NJ 22 127 .00 97 PC1 10 P2 D- -. 79 TED TEN .01i oze4z 5 NI 22 127 1.01 90 PCT 17 P3 DM2 -. 54 080 423 .580 ZPUFZ 775 Cl I

1 127 .47 52 PCT 9 P3 awl .82 0SH 8 43 .580 ZPUFZ 70 NI I1 127 TaP TED TIC .010 z2Az0 100 CI I 102 127 A3S 107 PCT 9 P2 424 .8 423 TED .010 Z2BAZC 0 cI IB1M 127 .75 93 PCT 1 P3 V41 .74 424 V42 .580 IPUFI 74 C1 Z3 128 .37 50 PCI 13 PC SWI -A.85 TED TEN .010 zDAZc 0 NJ 23 128 .22 105 PCT 8 P2 413 .05 TEC TEN .a1D Z9Z4 0 NI I3 12. .57 104 PCT 10 P3 awl -.415 08H 423 .580 ZPUFP 70 NI 23 128 .48 92 PCT 9 P3 423 .65 O1 V43 .580 2PUFZ 70 NI 23 128 reP TED TIC .010 M42 1ac3 CI 25 128 -34 131 PCT 12 PC awI -. 81 TED TEN .010 zeA4C 0 NI I5 128 .70 81 PCT 13 P3 EDI -. 81 0W11 423 .580 ZPUFP 70 NJ 28 129 .43 80 PCT 12 P2 413 -. 79 TED' TEN .019 Z9AZ4 3 Nj I2 129 .74 80 POT 13 P3 413 - .79 -3 423 .580 ZPUF2 70 NH 02 129 .51 109 PCT 15 P2 423 .75 V33 TED .019 z2Azc 45C 62 129 1.08 70 PCT L, P3 V23 .70 V43 V43 .580 ZPUFZ 70 NI 101 132 .99 115 PCT 18 P2 41 .04 V33 TEN .010 zBAzc 27 NI 101 132 .99 85 PCT 21 P2 V44 .97 V33 TED .010 zBAzc 50 CD I 301 132 1.91 80 PCT 10 P3 Z42 .83 V34 424 .580 ZPUFZ 70 CI 101 132 1.58 80 PCIT 1 P3 421 .93 V43 Va1 .580 ZPUFZ 77 NH I13 132 .32 78 M*N 0 07H 3D.88 V23 TEH .010 294Z2 27 NI 47 134 .30 112 "PCT 9 P2 DMl .77 TED TEN .010 ZBAZC 5 NH 47 134 .83 85 PCI 14 P3 DVl .77 01H 423 .580 ZPUFJ 70 NH 151 134 .45 114 PCT 13 P2 411 .84 V43 TIN .010 ZBAZD 27 HI 101 134 .8S 95 PCT 10 P2 415 .79 V43 TED .010 Z94AZ 49 CI 101 134 .23 121 PCI 7 P2 DM2 .79 V43 TED .010 z2Az4 9 40 101 134 .32 135 PCT 9 P2 110 .89 V43 TED .00 ZBAZC 49 Cl I11 134 1.34 85 PCT 12 P3 V41 .75 V43 421 .580 ZPUFZ 77 NI 101 134 .84 83 POT 13 P3 415 .33 110 U25 .580 ZPUFZ 77 C1 I01 134 1.74 84 PCT 24 P3 25 .A8 110 425 .580 ZPUFZ 77 CI 101 134 .39 103 POT 0 P3 DM2 .82 110 435 .580 Z9UF2 77 01 101 134 .59 83 POT 9 P3 li1 .71 110t 25 .580 IPUFI 77 CJ 112 135 .34 81 POT 9 P2 V44 .77 433 TEO .a10 z20z2 48 O I12 135 .61 84 PCT 13 P3 424 .79 434 U24 .580 ZPUFZ 74 CD 143 130 .42 1 11TE 2 TEN 23.05 V23 TEN .010 Z4AZ 28 NI 34 13,7 .37 83 PCT 11 P2 silH -.95 TED TEH .010 ZBAZ0 5 Hg 34 137 .04 89 PCT 12 P3 0-H -. 95 0OH1 DIH .000 zP41C 80 NJ 142 137 .15 359 1ThE 2 TEN 23.22 V43 TEN .010 1AZ0 20 NI I3 138 .13 104 PCT 7 P2 423 -. 87 TED TEN .010 ZBAZ0 5 NI 21 118 .02 74 PCT 11 P3 V23 -. 87 423 423 .588 ZPUFZ 70 HI 38 141 .37 14 11T1 2 TED 23.00 TED TIN .010 ZA42 53 Hg 1 142 .05 79 $OD 8 D4H 29.03 0O8 TEN .010 ZBAZC 20 NJ 39 142 .4a 170 tEE 2 TEC 23.04 TEC TEN .010 Z0AZC 5 NJ 155 144 .33 04 MBM 8 N4H 22.91 423 TIN .010 Z2AZ0 23 Hg 143 140 .-4 0 1T1 2 TEN 23.02 V43 TEN .010 B2Z4 23 NI

+.-,-----------+---,-------.----------4-----------------4---.------------------------- ------------------ *... ....

ROW COL 40T2 BEG IND PER CHN LOIN NI U*HDH'2- I ORLEN CR11D CEO SEGT ERiT PO1 PTYPE CAL LI

÷.---4----. ........ . . ----------------

-.. ..------- ÷ 10

26 - 21 Palo Verda 2 U2RI4 PVNG2 290930401 04/27/2008 22:46:24 I ROI COL VOlTA 2EG IND PER CNN LOOHN IICHI 10CH1 I CRLEN CRW1D CEG REGT EWOT POZA PTYPE CAL LI

---

-t-------------- ----------- + ---

---

t* - --------------------- +------- ----- ---

4a 147 AC0 0 lTE 2 TEC 23.90 V13 TEC .0l1 ZBAZC 53 Cl 1 148 .24 84 POT 7 P2 M30 -1.90 080 TE0 .010 Z9AZC 08 Cl 1 14-* .33 89 PCT 0 P3 03C -. 89 030 .090 ZPAtC 79 C 131 150 .30 132 POT S P2 103 -. 71 V33 TEC .010 Z9AZC 49 C0 131 150 .79 78 PcT 14 P3 V13 -. 52 V03 V13 SD0 ZPUFP 77 Hg 39 152 -20 53 PcT a P2 V13 .91 V13 TEC .010 84A2C 00 Cl 39 152 .19 97 PCT 0 P3 1M3 .01 113 V13 .580 ZPUFP 77 HI 38 153 -30 58 POT 9 P2 V13 1.15 V33 TEO .010 29A4C 00 C 3: 153 .M 77 PcT S P3 103 1.15 V13 V23 .580 zPUP 777 I10 155 .35 353 1TE 2 TEN 23.00 M13 TEN .010 Z9AZO 21 HI 24 159 .3a 58 NN 6 08H 0.091 V03 TEN .010 ZAZ0C a NJ 12 I 104 .34 07 PCT 12 P2 M03 -. 71 V113 TEN .010 2942c 18 NH 129 104 -89 82 POT 10 P3 V13 -. 79 V13 V13 590l ZPUFZ 77 Nj 19 100 .37 07 NON 0 DIH 33.39 V03 TEN .010 9AZO NH 8z 107 1L23 112 mON 0 I3H 19.04 V03 TEN .010 Z9AZC 17 NI 20 171 .37 75 NOH 0 04H 29.75 V03 TEN .010 ZBA90 8 NI 34 171 -79 2 1TE 2 TEN 22.99 V83 TEN .010 ZAZ0 8 HI 77 172 1.59 100 11TE 2 TEC 23.09 V03 TEO .010 29ZC 50 Og 33 178 .29 113 PcT 8 P2 103 .73 V03 TEO .010 Z9AZC0 02 C 113 178 .30 109 PCT 9 P2 1M3 .75 113 TEC .010 ZSAZ9 55 Ci 113 179 .72 87 PcT 13 P3 103 as V33 103 .380 ZPUFp 77 Nj 21 180 .13 100 TE2 2 TEN 23.09 V33 TEN .010 ZBAZC 7 H 81 182 -25 74 ONH 0 01C 18.84 V13 TEO .010 ZB4C 05 CO 4a 185 48-M2 185 1TE 2 TEN 22.24 V33 TEN .010 z2A9c 10 NI 23 180 .A8 5 11T 2 TEN 23.09 V03 TEN .010 2842C 8 Nj 39 180 1.03 174 RTE 2 TEO 23.00 V33 TEO .010 ZBAZC 57 C1 21 202 .33 75 MNH 6 01c +/-0.50 V33 TEC .0a0 ZB4ZC 01 0I

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

I ROW COL VUlTS DEG 11D PER CHN LOHON EICHI 10C12 1 CRLEI CRW3D CEO BEGT EMiT POEA PTYPE CAL LI

---

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

Tu6aes 227 Rcarodn: 022 11

APPENDIX C STEAM GENERATOR 22

SUMMARY

DATA SHEETS

CG - 22 Palo VoIdQ 2 U2214 PVNGC2 20000401 04127IM08 22:53:11

-.. . .... e......... +. . .... ---------....-------

.+ . . . .. ÷ . .÷....... --......-- ---......------ ---

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

R*W COL VO0LTS REE I11N PER CNN LOCN INCKi ICH--. I CRLEN CROED CEG BEGT ENWT POIA PTYPE CAt. LI

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

3a 3 .41 L23 PCT +/-0 P2 ONH *79 V13 TEN .0+/-i0 23AZC 53 HI 3a 3 .03 +/-I1 POT 8 P3 BON .79 BIN 0OM .500 +/-PAMZ 83 Nj

.29 51 NHM 0.11 V13 TEH .010 ZCAZC 49 HI 510 51.6O 3 NHTE 2 TON " .10 V13 TEN .010 3-CC 50 HI 84 .42 122 POT P2 V33 .73 113 TEC .0+/-0 ZAZC 27 CO 84 .49 123 POT P2 V12 1. 20 V23 TEN .810 ZRAZC 47 HI 1.00 84 .66 107 POT P3 V12 V12 V122 .580 ZPUFl 82 HI 84 .84 87 POT P3 V03 .78 113 M3 .5680 ZPFFZ 82 C0 I

.58 100 POT pa ag0 -.84 gc DEC .M00U PAN" 79r CO I

84 .29 L20 POT P2 9HZ - .81 V13 TEC .8+/-0 Z+/-8ZC 31 CO 84 .59 102 POT P3 9Hz - .70 39JC 114 .5SW +/-PIFIZ 77 Oj I

.29 79 PDT P2 100 .82 113 TEC .810 Z8ACC 36 C1

.47 78 POT P3 100 .78 100 L10C .900 ZPANZ 79 01 I

77 .32 l+/-2 POT P2 090 .9 113 TEC .810 +/-B9ZC 32 CI 77 .50 GO POT P3 09C 090 010 .600 ZPAMZ 79 CI I

79 .26 111 POT P2 V02 113 TEN .610 23AZC 48 NI

-.S14 79 .5 80 POT P3 122 -. 64 V13 Vz2 .3.8O ZPIFZ 82 HI 89 .32 35 POT P2 9H2 - .83Z 123 TEC .010 ZRZCC 32 CO

-89 .45 01 POT P3 9H2 -5.82 0g9 V14 .50 +/-PUIFZ 77 C1 I

SO3 .30 00 POT P2 ION -1.37 U23 TEN .010 ZCAZC 43 HI

.61 111 POT P3 ION ION 1014 .804) PANZ 83 N1 I

.44 +/-30 POT P2 V33 V23 TEC .010 Z+/-8ZC 36 0I 12'3 .39 1441 POT P2 115 .83 V13 TEO .610 Z+/-AZC 30 01 12.3 .78 91 POT P3 V25 .59 25 ws .580 ZPUFZ 77 C1 1.12 87 POT P3 V13 .58 V13 V'3 .5E-0 ZPFZ a.8 C1 I"~

.42 115 POT P3 9HZ ý63 0814 88C .540 ZPIFIPH a8 NI 117 .71 108 2112 P3 Va1 4.53 1131 V22 .5SN PLEFZ 82 HI I

952

.39 137 POT P2 110 -1.-2 V83 TEC .010 Z+/-3ZC 30 Oj

.38 71 POT P3 130 - I -02 12C 1+/-0 .800 ZPANZ 79 01

.20 110 POT P3 110 -1.D0 110 1+/-0 .600 ZPAZ 79 CI I all 113

.39 80 POT P2 V13 - 78 113 TEO .810 ZhAZC 38 01 Iz4 .90 84 POT P3 1123 -. 72 114 .35 103 POT P2 113 .82 113 TEO .0+/-0 2AZC 38 C1 114 .72 77 POT P3 1123 .68 V13 '23 .580 ZPIFZ 82 C0

.I Ile .41 93 POT P2 V122 .77 V33 TEN .010 5BAZC 42 Nj Ila 1.00 90 POT .77 V12 122 .50 -p ZP8FZ 2 NJ PZ VC2

.30 131 POT -. 40 U23 TEC .810 Z+/-CC 38 CO

.55 09 POT P2 VC3 113 V.13 .590 ZPIEZ 82 01 Pa VC3 129 .59 115 POT V13 TEC .810 3.AZO 38 Oj I+/-34 1.29 8s POT P3 P2 V13 1103 V03 V13 V23 .S82 ZPUFZ a-- O

- 1.58 152 .25 112 POT P2 113 V13 lEC .0+/-0 Z+/-AZC 30 C1 152

.52 93 POT V13 V23 .53M ZPSPZ 82 01

.31 138 POT P2 113 -I.G TEN TEC .8+/-Q ZAZC 4 Di

.69 105 POT MM1V4'23 .5m0 ZPLFZ 82 Nj 24 .78 24 .73 +/-10 POT P2 V23 TEH TEC .810 3AZC A Cj 1.11 8a POT P3 DM1 VC3 .S,4 133 V113 .8M ZPSF1FZ 77 HN I+/-530 .77 149 POT P2 DM1 1103 .82 TEN TEC .010 ZA3CC 4 C1

.55 92 POT *82 WS23 V23 .580 ZPSiZ 77 HN

.59 110 POT P3 112 .85 V23 TEO .810 ZAZC 39 01 1.23 90 d

.284

+/-18 159 POT 110 V25 .530 ZPPFZ 70 0j P2 112 .73

.06 04 POT P3 EHZ 133 TEC .010 ZAZC 39 CO 1.34 S2 POT 78* 110 11+/- .Sam ZPEZ . 70 O1 51.07 181 NWE 2 TEC TEN TIE .610 ZAZC 3 Oj

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

RDW COL VOLIC BEG 1I50 PER CNN LOCN INCOI tHICH2 I CRLEN CROND 08G BEGT ENDT PD0A PTYPE CAt Lj

.....-....-................ ....-.... '.....-.......................-........ ................... t ----------- ------. .......--

CG - 22 Palo Vat da 2 URlI4 PVNGO2 20080401 04M27/20O 22:33:11 l ROW COL VOLTO DEES HM PER CHN LOCN INCwi INCH2 I CRLEN CRMID CEG BEET ENDT P01A PTYPE 0A8L LI

+--* ------------------------------------------------ *- - - g------------4-----4-----4---- ý+

132 87 .27 102 POT 7 P2 Va5 .73 Va3 TEI .810 ZazC 39 Oj i32 87 .81 92 POT 13 P3 V05 .73 VM was .38 sw ZP1Z 70 C1 158 07 .05 113 POT 15 P2 DH2 -. 71 V33 TEC .810 Z8AZC 39 C1 158 07 1.42 93 POT 21 P3 BM2 -. 75 110 '11 .15E ZP1FZ 7a C1 100 87 .42 +/-20 POT 10 P2 DM2 -. 1W Va3 TEI .810 "ZEZC 39 1 1ca 07 .91 80 POT 14 P3 DM2 -. 85 110 VWI .1&3 2PIFZ 78 C1 15.9 G8 .47 0o POT 13 P2 BD2 .77 V23 TEO .010 Z8AZC 40 Cj 159 G8 1.00 99 POT 10 P3 DM2 .77 +/-10 WI! .3w0 2P:IFZ 70 C 101 G8 .20 45 POT 0 P2 DM2 .72 V:33 TEO .010 28ZCC 40 CO 161 86 .59 104 POT 10 P3 DH2 .72 110 ws5 . 10 ZPUFZ 78 cO 158 09 .39 80 POT 10 P2 Val .94 M13 TEN .010 .8A8C 39 HJ 15a 09 .87 97 POT 11 P3 Va1 .S1 Uzi Val .:3 zFt1FZ 82 HI 8 71 +/-1.82 197 NTE 0 TEC 23.13 VC3 TEO .010 288Z0 24 CI 128 71 17.14 +/-82 NTE 2 TEO 22.84 VM3 TEO .510 ZSAZC 41 C1 134 71 1.25 178 NTE 2 TEC 21.85 VMi TEC .010 ZE8ZC 41 CI 101 72 .47 13a POT 13 P2 V03 .60 V83 TEC .010 T-8CC 40 Cj 101 72 1.24 84 POT 19 P3 V"3 .54 VC3 V13 .30 ZPLFZ 82 CI 42 73 53.78 179 NTE 2 TOH .eo TEN TEI .810 -TBCC 0 Di Is 73 .30 99 POT a P2 Vat .82 MI: TEN .010 ZBA5C 39 HI 100 73 .80 84 POT 11 P3 Va1 .82 V32 31 .V 310 2PFZ 82 HI 104 73 .53 29 POT 13 P2 DM2 .55 V'3 TEC .010 28820 41 01 16.4 73 1.33 92 POT 20 P3 DM2 .5! +/-10 '11 .35W 7Pr1772 70 C1 183 74 .79 133 POT 17 P2 8M2 -. 70 VU3 TEO -. 10 .5EZC 41 CO 10C3 74 1.39 89 POT 21 P3 BD2 -. 7a LIt was .53W 27P7FZ 70 01 14 75 .05 102 POT 17 P2 DM2 -1.50 V23 TEO .010 =BAZC C 15 CO 14 75 1.22 93 POT 19 P3 BM2 -. 83 080 V13 .5w0 P2F74 7T5 C 14 75 TO? TEC TEO .o0 ZCAZC i0oc CI 24 75 .37 44 HMN 0 00H 29.88 TEN TEO .010 -23CC 5 01 19 70 .33 91 POT 10 P2 DM2 .87 TEN TEO .010 ZACC 5 CI 19 70 .50 a4 POT 10 P3 DH2 .75 011C V'3 .580 Zp71FZ 70 Ci 19 70 TOP TEC TEO .010 29ZCC 1000 -C 23 76 .38 113 PrT 10 P2 DM2 .53 TEN TEO .110 Z9ZC 0 CI 23 78 .84 101 POT 11 P3 DH2 .83 MW0 V23 .580 ZPVFZ 75 C1 23 70 TOP TEI TEO .810 28AZC 1000 C[

10.1 70 .70 105 POT 10 P2 Vat -. 87 VI3 TEN .810 28420 39 H1 101 70 .47 103 POT 11 P2 Vat .02 V23 TEN .010 282ZC 39 HI 161 78 1.55 8a POT 19 Pa vat -.87 Vit Val1 .5,80 271172Z 82 HI 101 78 .83 92 POT 11 P3 Val .02 Vat Vat . 5W0 -L5FZ 82 HI 22 77 1.02 89 POT 23 P2 BMI -.80 TEN TEO .010 2RAC 1 5 Cl 22 77 1.38 98 POT 19 P3 D1 -".83 mCI '13 .5ma zPluFZ 77 HN 22 77 TSP TE0 TEC .010 Z8AZC 1008 Ci 84 77 .35 88 POT 9 P2 VC2 .77 V33 TEN .010 2ACC 37 NJ 84 77 .84 87 POT 13 P3 V02 .94 Viz W'12 .580 z2711z 77 HN 132 77 .- 0 103 POT 12 P2 VC3 .57 173 TEI .010 AZOC 40 CI 132 77 .91 87 POT 15 P3 V03 .79 Y23 V'3 .SEQ ZP7F15 82- C 154 77 .28 104 POT 8 P2 VC4 -.9a8 '3 TEO .010 28420 40 Di 154 77 .38 72 POT 0 P3 V24 -. 99 USA 1124 .510 zp2FZ 70 Ci 23 78 .45 125 POT 13 P2 8D2 1.80 TEN TEO .610 28AZC 0 eg 23 T7 1.31 91 POT 20 P3 BM2 .70 0C V23 .540 ZP7F15 74 C1 23 78 TSP TEC TEC .010 Z-AMC 1000 Cg 91 78 .45 83 POT 12 P2 V03 -.91 Va3 TEO .010 z22zc 21 0 91 78 .80 8 POT 13 P3 V03 -.90 V43 V23 .580 ZPF71 77 HI 28 79 .02 113 POT 10 P2 DM1 1.00 TEN TEO .010 2ZCC 0 01 28 79 .91 98 POT 14 P3 DM1 .78 C '23 .560 2PI1FZ 77 HI 28 79 .30 104 POT 0 P3 Va3 .99 083 '113 .510 2 f1f5 77 HI

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nG - 22 Palo Verde 2 U2914 PVNG02 2008040. 04/27/2098 22:53,11

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IROW COL VOLTO DEG 11W PER C0N LOCN INCHO 2ICH412 I ORLEN CR14D CEG BEET ENOT POrA PTYPE CAt Ll

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28 79 TB? TIEC TEC .-10 18AZC 1000 Cl 30 1.08 +/-01 PDT 24 P2 91l .84 TE1 TEC .010 54AZC 5 C1 30 1.00 98 POT 15 P3 91l .71 00'I 23 .M50 ZPIFZ 77 HI 30 TEs TEC TEO .GL0 10ZC0 1000 01 32 .35 74 POT +/-0 P2 awl .95 TEN TEC .LO ZAZ8 5 C1 32 .58 90 POT 9 P3 9wl .89 0 'M3 .510 ZPIFZ 77 NI 32 TBP TEC TEC .010 19AZC 1000 C1 34 .34 94 POT +/-0 P2 91l .so TE1 TEC .0LO 18CACZ 5 C1 34 .50 107 PCT 9 P3 914 .97 30 .39 122 PCT 11 P2 awl .91 1114 TIC .0010 19CZC 5 Cg 0834 '123 .580 ZPIIZ 77 NI 3e .84 8Z. PCT 13 P3 51l .83 TEN TEC .010 5BAZO 0 CI 52 .20 144 POT 8 P2 51l .87 0G8 V23 .510 2PIFZ 77 NJ 52 .*54 90 POT 8 P3 91l .68 31 .54 120 POT 13 P2 91l -. 93

.77 92 POT 12 P3 - .go 31 911 TEN TEC .010 8AC.C 0 CI 31 TEP IL -. 9S3 51 .44 130 POT P2 91l -. 793 09H V23 .58o _PIFZ 77 NI 51 .79 100 POT 12 P3 914

-.63 117 .25 07 POT 7 P2 B52 - .85 TE3 TEC .+/-LO 24AZO 4a CI IL7 .45 108 POT P3 - . 70 6 9142 108 V23 .S80 ZPI/FZ 70 0I 103 .39 147 POT tO P2 9M2 -. 88 T33 TEC .010 Z4AZC 42 CII I13 1.00 87 POT 10 P3 912 11092 M .ý50 2PUFZ 70 CJ 167 .83

.40 04 POT 10 P2 912 .53 TM3 TEC .810 1BAZC 40 CI 1007 .78 9Z POT 13 30 L.35 100 POT 20 P2 914 - .91 111 TEC .GL0 1AZC 0 CI 30 1.22 1z2 POT 24 - . S8 30 1.79 50 POT 25 P3 B92 - .03 USC 523 .580] IPIIPI 74 0j 30 P3 awl 30 1.20 18 POT t7 -. 73 013 V/23 .5S0 ZPIIFZ 77 ND 30 .03 83 PCO .97 V03 TEC .5LO ZPFZC 42 CII TB? TIC TIC .M+/-0 P5FC 10700 C

.29 70 POT 8 P2 5ý3 -. 94 TE3 TEC .810 Z14.0 42 CI So L.08 898 POT 18 P3 v53 -. 88 30 .34 87 POT 9 P2 512 -.92

.78 99 POT 13 P3 BH2 -. 92 IiC TEN /25 TIC .6503

.010 IPLIP 28420 705OC Og 01 ME TEC ,oLO =SAMC 2 CI l53 - .87 T33 TEC .010 134ZC 42 CI 1.80 102 PCT 31 P2 B92 iC W23 .5.60 ZPI,'T* 70 DI 2.48 83 POT 32 P3 512 - ý65 Lie TIM V23 TIN ..80 MEW ZP LFZ 1.,C 1000 70 CI CJ TSP I

53 82 .43 119 POT 12 P2 914 -1.17 52 .78 110 POT 12 P3 514 - .83 167 82 .53 131 POT 13 P2 B92 -. 8a V53 TEC .810 15AZC 43 O 107 82 .99 87 POT Is P3 BW2 -.60 110 VIT5 .560 zPuFz 70D CI 34 83 15 ,93 .,d1, ZBA.ZC

.58 Og POT Is P2 912 TE1 TEC SCI 34 83 .01 83 POT P3 SW2 .78 OW* VD3 74, 01 34 53 TBi TEC TEC .Big0 ZSAZC 1000 CI

.01,0 2P5CC 10 .58C 7IPIWZ 3.9 83 .00 00 PCT P2 VC3 -. 8S TEN TEC .001, ZZAZC 5 CI 38 83 .71 91 PDT P3 "^ 3 -. 77 U23 V53 .OSW ZP LFZ 77 NI 38 83 ..44 90 POT P3 V '3 .8L 523 M23 .580 ZP112Z 77 HI 8 P2 9142 5 I 40 83 .20 119 POT I. 02 TEN TEC .810 Z8AZC 1+/- P3 BH2 40 83 .00 93 POT 11 .93 080 523 .540 ZPUFZ 74 CI I`D* 83 P2 5M2

.50 145 POT 14 P3 502 - .91 V33 TEC .810 2B5ZO 43 CI ltea 83 L.11 94 POT +/-7 - .93 70 01 I

33 64 P2 5142 .580 ZIPIPP

.39 84 POT P3 B92 -. 78 TEN TEC 5 01 33 84 .78 00 POT 13 -. 798 081 V23 .810 ZpFZ 74 CI 35 84 Tl? TEC TEC -5D10 ZRAT-0 1000 Cl I I 37 84 .92 +/-00 POT 22 P2 941 -.92 TE1 TEC .810 ZA.ZC 5 01 37 5 84 1.17 92 POT 17 P3 91l -. 91 MM3 M2"3 .50s ZP lf  ;

77 NJ 37 84 TeP TEC TEC . 810 ZAZO 1c000 Cj

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ca - 22 Palo Vag do 2 U2814 PVN002 200D401 O4i27/200S +/-O:S3:tI ROW COL VOLT2 DEG IND PE. CHN LOON INCHi IICH2 I CMLEN CR13D CEO BEGT ENDT PDZA PTYPE CAL LI

+- *-------+---+---------------- ------ +-------

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43 84 .37 147 POT 10 P2 V03 .77 TEN TEC .010 ZSAZO a CI 43 84 .55 88 POT 9 P3 123 .85 V83 '13 .5190 2PFZ 77 N 45 84 .30 73 POT 8 P2 91l -. So TEN TEC .S10 ZAZC a DI 45 84 .70 103 POT 11 P3 91l -. 75 0834H '13 .150 ZPIFZ 77 HN 47 84 .30 1i50 POT a P2 914 -. 93 TEN TE2 .510 ZBAZC a 0I 47 84 .51 108 POT 8 P3 al -. 93 0834 '233 1564 ZP:7Z 80 HI 51 84 .45 130 POT 11 P2 B42 -M.g TEN TEC .610 ZAZ0 a 01 51 94 .59 93 POT 10 P3 912 -. 54 09C IM3 .S0 ZPFZ P 74 C0 107 84 .29 108 POT 8 P2 51z .9s0 V23 TEC .510 8AZC 42 OC 157 94 .02 104 POT 10 P3 B92 .903 110 '13 .5S0 ZP17Z 70 CI 38 85 .01 120 POT 15 P2 914 -. 93 TEN TEC .510 2CAZC 0 01 38 85 .89 123 POT 19 P2 VI3 .91 TEN 72C .010 24AZC 0 CI 1 38 85 1.20 104 PDT 24 P2 9M2 -. 73 TEN TEC .510 8AZO 0 01 38 89 1.41 73 POT 21 P3 V03 .73 080 '13 .5s8 zPulfl 74 01 38 85 1.70 80 POT 25 P3 914 -. 70 00 '1M3 .58 ZP17Z 74 01 38 85 1.21 93 POT 17 P3 91l -. 8.5 083 '13 .- 5., ZPFP7 7*7 HI 38 85 TSP TEC TEV .510 MRAZC 1000 01 44 85 .43 05 POT 11 P2 941 -1.09 TEN TEC .510 ZBAZC 0 01 44 85 .89 104 POT 13 P3 01l -. 95 0834 '13 . 5W9 ZPFFZ 77 HI 47 85 .4I 98 POT 13 P2 91I .88 TEN TEC .510 2840ZC 01 47 so .59 118 POT 15 P2 V03 -. 886 TEN TEC .010 28AZC 5 01 47 85 .91 a9 POT 1 P3 914 .a, O-34 'M3 .,5-60 ZPU2 81 HI 47 8a 1.03 88 POT 13 P3 V03 -.E68 0834 '13 .580 ZPUF-Z at Hi 48 87 .42 153 POT 12 P2 9M1 .S9 TEN TEC .510 2842 5 01 48 97 .95 103 POT 14 P3 91l .82 D9O 'M3 .34W P1PUFZ 77 HI 43 88 .04 113 POT 15 P2 912 1.52 TEN TEC .610" ZAZC 9 01 43 a8 .87 90 POT 14 P3 912 .78 08C V'3 .5.9 ZPUFZ 74 C1 43 88 TSP TEC TEC .510 8AZCC 1009 01 43 88 .29 98 POT 7 P2 9M2 1.09 TEN TEC .10 ZBAZC 9 01 45 88 .49 95 POT 8 P3 9M2 .78 0W8 43 .580 ZPU1Z 7 01 43 88 TSP TEC TE7 .510 28AZO 1000 C 153 88 .21 38 POT 7 P2 892 -. 97 '23 TEC .510 2Z8C 00 C1 153 88 .37 75 POT 6 P3 B92 -. 97 110 'a .5s80 zPIz 70 CI if1s9 8 .09 133 POT i1 P2 912 -.97 V43 TEC .510 .23C 00 01 159 88 1.22 92 POT i1 P3 912 -. 97 110 '135 .50. ZPUFZ 70 01 40 89 .30 123 POT 9 P2 912 -. 75 TEN TE7 .510 2CAZC 9 01 40 89 .52 01 POT 9 P3 42 -".77 U-C V233 .580 ZPF152 74 .I 40 89 TSP TEC TE8 .010 nCAZO 1000 *1 I

42 89 1.22 119 POT 23 P2 914 -.8. TEN TE7 .510 Z8CC 8 a0 42 89 1.75 93 POT 23 P3 914 -. 73 083 V'3 .5449 ZPLFFZ 77 HI 42 89 TSP TEO TEC .010 .9AZC 1000 CI I

4a 89 1.31 121 POT 24 P2 91I 1.11 TEN TE7 .510 ZCAZC 0 01 40 89 1.90 94 POT 25 P3 914 .9z 0 V13 .3"- ZPUFZ 77 NI 48 89 TSP TEO TEC .510 8AZCC 1000 O1 I

50 89 .09 112 POT 10 P2 91I - .94 TEH TE7 .510 28.C a CI 151 89 1.12 104 PDT 10 P3 914 -. 70 29H V23 .5.80 ZPUZ 77 mi I I 132 89 .04 113 POT 14 P2 823 -. 70 V23 TEN .- 10 2ZCC 35 HI 132 89 .38 75 POT 10 P2 V84 -1.0.0 V23 TE7 .510 Z8AZC 42 01 132 89 .99 89 POT 14 P3 804 -1.08 '14 '24 .5" ZPU52 70 01 132 89 1.05 78 POT 24 P3 803 -. 72 U23 '13 .M50 ZPUn72 82 01 I

102 89 .27 122 POT 7 P2 V82 .62 843 TEN .510 ZRAZC 35 NI 012 89 .03 94 POT 8 P3 802 .82 v82 '12 .590 ZP8$2 82 NI I

108 89 .84 142 POT 20 P2 9M2 .82 V23 TE8 .010 29CZC 00 0 108 89 1.01 93 POT 15 P3 912 .82 110. '13 .580 2PU17 70 01 I

43 9s 1.41 89 POT 2+/- P2 914 -. 99 TEN T£2 .5102 2RAC 7 of 41 9o 1.77 95 POT 24 P3 B94 -. 89 03H '123 .5m 2PUFZ 77 HI I so T9P TE9 TE7 72 .10 284AZ 100 C01 I

47 90 1.01 97 POT 23 P2 91I -.97 TEN TEC .0610 8AZC 7 01 47 s0 .97 93 POT 13 P3 91I1 -. 97 03 '233 .m0 ZPULFZ 81 NI IROW COL VO0LTS DEG, KIR PBS CNN LOCH INOHI 214012 I CSLEN CR1430 CEO 8881 81431 POZA PTYPE CAI. LI 4------------ 4-------+ ----------

4

00 - 22 Palo vagdo 2 U294,: PVN622 20080401 D4/27/2008 22:33:1l RROW" COL V0LT0 DEG 14. PER CNN LOON INCHO INCH2 1 CGLEN CR03D CEG BEET ENDT PDZA PTYE CAL LI

- ------------- I ----------------------- +------------------+ ~-----.------- T -------- - ---------------

47 sD TBP TOC TEC .010 ZRAZ2 1000 C0 49 so .04 +/-14 POT +/-7 P2 9wl .82 TEN TEC .0D0 :BAZC 7 01 49 90 .87 90 POT 13 P3 a1w .79 05H V83 .=580 ZP5FP 77 HI 53 90 .30 88 POT 10 P2 9142 1.70 TEN TEC .010 ZRZC 7 C1 55 9s .78 95 POT 13 P3 914 1.43 09C Y23 .380 ZPUPZ! 74 0; 109 90 .41 74 POT 12 P2 9M2 .85 M3 TEC .010 Z5AZC 00 01 if'9 90 .82 104 POT 13 P S9M2 .83 11 VWe .5.5 ZP5-FZ 70 CI 44 91 +/-.9a 105 POT 33 P2 914 -i.01 TEN TEC .010 ZRAEC 7 O0 44 91 1.32 90 POT 27 P2 914 1.08 TEN TEC .010 8A ZC 7 O0 4-4 91 2.21 94 PCT 28 Pa 914 -. a7 0934 Ye3 .550 ZPMiZ 77 HI 44 91 1.09 95 POT 23 Pa 914 .84 0M3 Y23 .5W U5-PP!Z 77 HI 44 91 TSP TEC TEC .010 58AZC 1000 01 4a 91 +/-.13 +/-12 POT 25 P2 941 -. 99 TEN TEC .0+/-0 Z8ZC 7 C0 40 91 1.01 g0 POT 2z P3 914 -1.00 0334 VI3 . 5W ZPIPZ 77 HI 40 9+/- TSP TEO TEC .010 Z5AZO 1000 Ci 43 92 2.31 100 POT 34 P2 9M1 -1.02 TEN TEC .010 Z8AZC 9 01 45 92 2.00 g0 POT 27 P3 9141 -".5 0834 'M3 .35E ZP5U.f 77 Hg 45 92 TSP TIC TEC .0+/-0 Z+/-5Z0 100 CO 47 92 1.75 I00 POT 29 P2 941 -.93 TEH TEC .010 Z+/-5ZC a C0 47 92 .25 113 POT 0 P2 942 1.02 TEN TEC .010 +/-9A4C a 0I "47 92 .91 87 POT 15 P3 9N2 .73 08C Ye3 .590 ZPUFP 74_ C0 S47 92 1.70 so POT 21 P3 914 -9.3 0834 Yes .34.0 5-PUFZ 81 NI 47 92 TBS TEC TEC .010 Z540C 1OO 01 4g 92 .52 l00 POT 12 P2 914 .83 TEN TEC .010 Z9ZO a C9 4g 92 .38 121 POT 9 P2 912 -.94 TEN TEC .0+/-0 5-4Zc a CO 4g 92 .80 92 POT 14 P3 912 -. 72 290 MII .50 Z-PUFP! 74 01 49 92 .80 51 POT 12 P3 911 .93 09H Wes .3-50 ZPULZ 77 NI 49 92 TSP TEG TEC .010 Z54ZC 1000 C0 51 92 .30 145 POT 9 P2 914 .85 TEN TEC .0+/-0 ZB8ZC a C9 51 92 .73 58 POT 1t P3 914 .53 093 VI3 .363 ZPUFZ 77 HI 51 92 .50 88 POT 9 P3 V03 .70 09H I23 .350 ZPUFZ 77 NI 73 92 ._9 84 POT 13 P2 V04 L.00 V53 TEC .010 5-9*2C 31 01 73 9Z2 .83 95 POT 14 P3 V14 1.03 V54 VW2 .1560o ZPlZ 75 01 i1+/- 92 .00 57 POT +/-8 P2 V03 -. 72 523 TEN .010 294ZC 34 N; I19 92 1.19 95 POT 18 P3 V13 -. 72 523 V23 .3E0 ZPLOZ 79 Ng 137 9S .27 80 POT 9 P2 101 - .85 23 TEN .010 Z&8AZC 34 NI I37 9S ._0 SI POT 0 P3 V01 - .85 521 Vt1 .380 ZPUPZ 82 NI 44 93 5.20 98 POT 48 P2 914 .79 TEN TEC .010 MAXCC a C0 44 93 5.22 73 POT 5D P3 914 .84 0834 VI3 .380 ZPLIPZ 77 NI 44 a3 .49 84 POT 8 P3 13 -.. 82 OBN V23 .580 ZP5-U 77 NI 44 93 TMP TEC TEC .810 Z5-2C l000 a1 40 93 .37 141 POT 9 P2 9141 S3 TEN TEC .010 ZRAZO a 0

,4a 93 .35 114 POT 0 P3 941 .97 08,a Yes .340 ZPPUP 77 NI 40 93 TBP TEC TEC .010 Z9AZC 1000 C1 48 93 .72 98 POT to P2 914 -. 73 TEN TEC .510 ZBAZC 9 01 48 93 .45 L08 POT +/-1 P2 914 1.43 TEH TEC .010 5-9*20 9 0 48 93 +/-19. 95 POT 17 P3 9141 -. S8 511 VI3 .50W 5PU! 77 N 48 93 .50 83 POT 9 P3 941 .84 91K Y23 .590 ZPUP 77 Ni 4e 93 TB? TEC TEC .010 Z5AZC 1000 0 s5 93 .05 121 POT I5 P2 914 .85 TEN TEC .010 ZAZC 9 01 50 93 .39 140 POT 9 P2- 912 -. 92 TEH TEC .010 Z+/-9ZC a 01 50 93 .90 97 POT 14 P3 942 -. 71 09C Y23 .590 ZPUP! 74 0 Io 93 1.13 93 POT 10 P3 914 .92 29H VI3 .56`3 Z5PUPz 77 NI s 9 Te TEC TEC .010 5-94C 1000 01 80 93 .9a 124 POT 18 P2 V14 -6.5 V13 TEC .010 Z+/-AZC 32 CO Ea 93 1.4a 89 POT 22 P3 VC11 -. as V34 VA .58, ZPUP! 75 01 152 93 .-a 83 POT 13 P2 V02 .07 V53 TEN .010 5-AZC 32 Na 152 93 .79 go POT t0 P3 V02 .07 V22 112+/- .550 ZP5UP a-' Hg S43 94 2.00 57 POT 34 P2 9141 -L.01 TEN TEC .010 ZRAZC 7 DI 43 94 2.10 91 POT 28 P3 914 -.97 04 VI3 .580 ZPUP: 77 NI 45 94 TSP TEC TEC .010 .0AZC lo+/-g OC

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

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47 94 1.29 112 PCT 27 P2 DwM -. 92 TEN TEC .010 2*AZC 7 C1 47 94 1.04 93 PCT 20 P3 DwM -. 94 01 1/3 .Sao 2PIFZ 61 HI 47 94 TB? TEC TEC .010 9*BAZC 1000 CI 49 94 1.20 10 PCT 20 P2 aM1 .S5 TEN TEC .010 7CACZO 7 C1 49 94 .08 10 POT 10 Pa DM1 .42 0Of V1/3 .5.60 2PIFZ 77 HN 1 49 94 1.41 98 PCT 20 P3 DM1 .93 093 W03 .5W60 ZP1FZ 77 H 49 94 TBP TEC TEC .010 2.A60 1000 CI 1 79 94 .27 72 PCT 9 P2 V22 .47 623 TEN .01Q ZBAZC 30 HI 719 94 .78 63 PCT 12 P3 V12 .32 V02 Va._ .560 ZPIFZ 77 N 11g 94 .38 120 POT 11 P2 DM2 .63 VZ3 TEC .010 2.6zC 00 CI 109 94 .71 95 CT 12 P3 M02 .6S5 LID M/ .MBO 1PFz 70 0I I I 50 95 .35 99 PCT 10 P2 DMl .60 TEN TEC .010 2.6*zC 7 C1 50 95 .74 79 PCT 11 P3 DM1 .65 Ui '3 .5m0 2P1IFZ 77 NJ 50 95 TOP TIC TEI .010 "Z.6C 1OO CI

&5 95 .07 115 PCT 17 P2 V03 .5. 623 TEC .010 2.*20 31 CI

&5 95 .45 112 PDT 12 P2 V24 -. G, 623 TEI .010 Z.5ZC 31 CI 65 95 .97 64 PCT t0 P3 V24 -.67 634 V'4 .560 Z.PUFZ 75 C1

-65 95 .91 88 POT 14 P3 V23 .03 M23 V'3 .5.6 zPUFUT 77 HN I I 40 97 .53 112 POT 13 P2 V03 1.01 TEN TEC .010 2.*2C 8 CI 4a0 97 .80 12 PCT 11 P3 V23 1.13 623 '13 .5.0 ZP.FPF 77 HN 48 97 .59 as PDT 14 P2 V203 .62 TEN TEC .010 2BZO 9 CI 48 97 1.18 9o PCT 17 P3 V23 .ss V63 V23 .5860 .LPUFZ 77 HI 170 97 .31 128 PCT 9 P2 DM2 -.92 V63 TEC .010 MU6DC 80 CI 170 97 .51 94 PCT 9 P3 DM2 -.93 LID V/5 .5.60 .PIUFZ 70 CI I I 169 96 .39 147 PCT 11 P2 DM2 .ez 623 TEC .010 ,.BAZC 00 Cl I 109 s9 .73 10 PCT 12 P3 DM2 .E8 LIC 725 .5.60 2PUFZ 70 CI I I 171 96 .25 148 POT 8 P2 DM2 -.687 623 TEC .010 2 0AZC 00 C1 171 98 .52 70 PCT s P3 BD2 -. 77 11G M/6 .5B60 =PIF: 77 C1 I I 47 100 .37 127 POT 9 P2 DM1 -oE68 TEN TEC .010 ZBAZC 9 CI 1 47 ion .04 115 PCT 10 P3 BM1 -.868 eal =/3 .560 zPIF-Z 79 HI 47 ion .01 64 PCT 10 P3 V23 -. 81 083 V23 .540 I PUZ 79 NI 1 47 IGO TBS TEC TEC .010 2.Z8AC 100 Cl 49 t00 .50 124 PCT 13 P2 DM1 -. 84 TEN TEC .010 2.A6C 8 C1 49 l00 .39 97 PCT 10 P2 BM2 .S7 TEN TEC .010 2.6CC 8 CI 49 100 .51 S0 PDT 9 P3 V03 .19 09C V23 .5.60 2.p5Fz 74 C1 1 49 100 .70 94 PCT 12 P3 8M2 .07 0SC 123 5.60 ZPUZ 74 C1 49 100 1.20 98 PCT 17 P3 DM1 -. 64 GNH 123 .sS 2P.1Z 77 HN 49 IGO .43 83 POT 7 P3 DM1 -. 07 09H M/3 .550 2PUFZ 77 HN I49 100 TBP TEC TEC .010 2Z.C 1000 C0 51 100 .59 142 POT 14 P2 DM1 -6.2 TEN TEC .010 2B*zC 0 Of 51 100 .53 127 PC! 13 P2 BD2 .s1 TEN TEC .010 2B.ZC a Ci 51 100 .82 89 PCT 13 P3 BD2 .79 GIGC V13 .3-60 ZP5Ff 74 C1 5.1 100 .92 102 POT 14 P3 wlM -. 73 GIN 123 .5.60 ZPLFZ 77 NJ 51 100 TSP TEC TEC .010 2.*ZC 1000 C1 109 10 .25 93 POT 7 P2 8D2 -. s3 V-13 TEC .010 2.AZC 01 C0 109 10G .35 107 PCT 0 P3 DM2 -. S5 L1G 125 .56E 2P.fl 78 CI 171 10 .54 128 POT 14 P2 BD2 .92 V23 TEC .010 -,AZC a1 C1 171 100 1.29 91 PCT I9 P3 DM2 .80 G1/ V63 .5.63 2.51FF! 70 C1 48 101 .02 127 POT 14 P2 DM1 ..69 TEN TEC .010 2.CZC a C0 48 191 1.75 105 PCT 29 P2 V23 .01 TEN TEC .010 2 0ZC 8 C2 1 48 101 1-5 90 PCT 20 P3 DM1 .93 05 1/3 .5W0 zp2Fl 77 HN 1 48 101 1.87 89 PCT 25 P3 v23 .73 01M 1/3 .580 z:PIFZ 77 NI 4a 101 TsP TEC TEC .010 2.6CC 1000 C1 108 i01 .44 107 PCT 12 P2 DM2 .87 %Q3 TEC .010 2.6CC ae CI 108 +/-01 .91 94 PCT 14 P3 DM2 .87 LID /23 .5.60 2P.F5 70 01 1 49 102 .58 97 PCT i5 P2 OSH -1.02 TEN TEI .010 2.AZC 7 C1 49 102 2.27 103 POT S0 P2 OIL - 6S3 TEN TEC .010 z2.zC 7 CI 149 102 .50 120 POT 14 P2 V03 -. 64 TEN TEC .010 ZAZC 7 C1 4 102 .07 101 PCT 17 P2 BD2 -.95 TEN TEC .010 2R.A60 7 Cj 49 102 1.03 84 PCT 10 P3 V23 -. 03 GIC 123 .5.60 ZP.51 74 CO S49 102 .72 99 POT 12 P3 DM2 -. 70 1IC M/3 .5.0 Z.IFZ 74 Ci

-- ---------- +------------T------4----------1 ROW COL VOLT DE6 M1W PER CNN LOCH INCHi IICH2 I CRLEN CRMID CEG BEIT ENDT PDZA PTYPE CAL LI

-I +- -------------------------

a

CG - 22 Palo Vzoda 2 U2214, PVNGC2 20080401 0427/2008 22:33:1L RON COL VOLTO BEG £19 PER CNN LOCN INCH01 HCH2 I O8ILEN CR130 CEG EGT ENOT POIA PTYPE CA. LI

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49 102 1.04 99 PCT 10 P3 912 -. 73 agC V'3 .510 ZP1?FZ 74 Cj 49 102 .17 78 PCT 0 P3 U9C -1.18 0SC '23 .5980 ZPWF 7- C1 49 102 L.33 83 PDT 1s P3 09H -1.45 092 '/3 .5SO ZPINFZ 77 HN 49 102 2.39 87 PCT 30 P3 914 -. 81 09H V'3 .1.3 ZPIFZ 77 HI 49 102 TIP TEC TEC .010 ZZCC 1000 Cl 40 103 .85 107 PCT 1i P2 2wl -".92 TIC TEN .010 ZAZC 1 HN 40 103 .39 97 PCT 9 P2 212 -. S5 TEC TEN .S10 MU9C 1 HI 40 103 .9- 84 PCT 15 P3 V33 -. 33 098 V/3 .5.0 ZPNFZ 74 CI 4a 103 .87 85 PCT 14 P3 9M2 -. 71 Vas VD3 .50 ZP/FZ 74 C1 44 103 1.28 104 PCT 19 P3 814 -. 92 OW '/33 .550 ZPNFZ 79 HI 40 103 TEP TIC TEC .010 1ZCC 1000 co 48 103 .58 132 PCT 13 P2 9wl -. 94 TIC TEN .510 Z1AZC 1 il 48 303 .79 114 PCT 17 P2 V03 1-07 TEC TEN .010 9CAZC 1 HJ 48 103 ._5 101 PCT 11 P2 B92 - .90 TIC TEN .O10 Z39C 1 NI 48 103 1.09 83 PCT 24 P3 V03 .83 E1Z V'3 .5380 *P INFZ 74 CI 48 103 1.00 83 PCT 10 P3 9M2 - .7a BZ '/3 .5-80 ZIPI Z 74 C1 48 103 .70 104 PCT IL P3 214 -1.21 E91 '/3 .580 ZP/FZ 79 HI 48 103 TSP TEC T TEC .010 28ZC l000 OI 50 103 .73 98 PCT 10 P2 awl -1.05 TIC TEN .010 9BAZ4 1 HI 50 103 1.01 109 PCT 15 P3 914 -. 58 09H V'3 .5So IPNFFZ 77 NI 50 103 TBS TIC TEC .010 ZBAZC 1000 CI 49 104 .25 139 PCT 0 P2 914 -..89 TEC TEN .010 5BAZC 1 Hg 49 104 .48 l10 PCT 8 P3 914 -8.9 0SH '/3 .5w0 ZPIF 79 HI 49 104 TEP TIC TEC .010 Z9AZC 1000 CI 41 l05 .60 120 PCT 13 P2 9H2 -. 90 TIC TEN .010 Z.AZC 1 HI 4a 105 .08 120 PCT 15 P2 B22 .93 TIC TEN .010 Z18ZC 1 HI 4a 105 .97 90 PCT 15 P3 214 -. 73 0.8,C V'3 .59 ZPNFE 74 0I 46 105 1.15 84 PCT 18 P3 9142 .81 09C V23 .'5W Zp 7. r I 40 105 TIp TIC TEC .010 Z9AZC 1000 CI 30 105 .40 33 PCT 12 P2 912 .5. TIC TEN .010 :9CTC 2 HI 50 105 .90 93 PCT 15 P3 912 .81 09C V'3 .5.90 IPU* 74 C1 50 105 TIl? TEC TEI .010 ZRAZC 1000 CI 45 100 1.41 70 PCT 30 P2 214 -. 98 TIC TEN .010 M84TO 2 NI 43 100 .09 78 PCT 19 P2 91l .71 TIC TEN .610 1B1ZC 2 HI 43 I00 .47 59 PCT 14 P2 8142 .-38 TIC TEN .010 84AZC 2 HI 43 .100 .95 87 PCT 15 P3 821 .-s OC V33 .5"80 PN/FZ 74 CI 43 100 1.35 g9 PCT 20 P3 914 -. 98 0Dea '/3 .5W90 IN/Z 79 HI 43 100 1.05 98 PCT 10 P3 awl .71 .0H V/3 .5.80 INPZ 79 f

45 105 TSP TEC TEC .010 ZS.ZC 1000 CI 49 100 .69 90 PCT 19 P2 91l -. 93 TEC TEN .010 ZRATC 2 NI 49 100 .90 95 PCT 15 P3 214 -. 93 09H '/3 .5850 ZPNF 79 HI 49 100 TIP T11 TEC 0.,10 Z8AZC 1000 CI 51 100 .30 104 PCT 11 P2 912 .84 TIC TEN .010 19CC 2 HI 51 100 .81 93 PCT 13 P3 9H2 .75 09SC '3 .580 TPLIFI 7- CD 51 100 TSP TEC TEC .810 18ZCC 1000 CI 48 107 .24 112 PCT 8 P2 21l .98 TEC TEN .610 ZBAZC 2 H 48 107 1.30 83 PCT 29 P2 V13 .78 TIC TEN .510 ZBAZC 2 I 48 107 .19 81 PCT 0 P2 212 -. S3 TEC TEN .010 18AZC 2 NI 48 107 2.50 88 PCT 32 P3 V03 .7a 942 V33 .3.60 IPN/F 74 CI 48 107 .-0 92 PCT 8 P3 912 -. 09 9W2 '/3 .5.80 IPNFZ 74 DI 48 107 .42 85 PCT 7 P3 941 .9 E211 V23 .5w ZPFZ 79 HI 48 107 TSP TEC TEC .0LO Z1AZC 1000 CI 118 107 .70 125 PCT 10 P2 24I .94 V13 TEN .910 Z194C 31 H 119 107 1.10 88 PDT 17 P3 914 .94 ION Va1 .5W80 IPFZ 79 HI 170 107 .42 102 PCT 12 P2 212 -.sa 123 TEI .S10 54CAC 58 CI 170 107 .93 90 PCT 15 P3 912 -S.28 110C V3 .35.80 IN/FZ 70 CI 47 105 3.51 L03 PCT 43 P2 aMi -. 9a TIC TEN .010 840ZC 1 HI 47 108 3.04 83 PCT 41 P3 914 - .1 0814 V23 .5.0 ZPUFF 79 HI 47 105 TS? TIC TEC .010 Z94ZC 1000 C 51 100 .60 112 PCT 13 P2 awi .81 TIC TEN .010 19AZC 1 HI 51 109 .85 84 PCT 13 P3 914 .81 29H V/3 .5BC ZpF/F 79 HI 51 108 TIP TEC TEI .010 19AZC 1000 Ci 359 109 .52 07 PCT 12 P2 09H -1.12 M83 TEN .010 Z1AZC 33 HI 83 108 .37 113 PCT 9 P2 V02 -. 94 123 TEN .010 14AZC 33 NI

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ROW COL VOLTS DEG 1143 PER CNN LOCN INCH1 24CH2 2 CMLEN CR14D CEO 9EGT END1 PDIA PTYPE CAM LI

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7

CG - 22 Palo Voede 2 U2m14 PVNGC2 20800401 D4i27/2008 22:53:1+/-

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RON COL DOLTO DEG ERB PER CNN LOCN INCHI !MCH2 I CRLEIN + R3D 0EG BEGT ENDT PDIA PTYPE CAt LI

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t------------------- -----------------------------------.......----------- .........

83 Lo8s .74 89 POT 12 P3 v12 -. 94 422 V1Z .580 2PIFZ 79 Hg I1L Lee .37 113 PDT 18 P2 V14 .78 423 TEC .G10 Z8AZ0 45 C1 III l0e .87 94 POT 14 P3 VC10 .9a VS4 V24 .5s0 :pwFz 75 I21 108 .30 03 POT 11 P2 91l -. S3 113 TEN .810 Z8A4.C 30 NI 121 I0D ,00 120 PDT 10 P3 911 -.63 IN Va21 .560 ZPIFZ P 79 Hg 44 109 .45 154 POT I1 P2 awl -.60 TIC TEN .010 2CzC I Hg 4a 108 .12 34 POT 8 P2 V03 .65 TEC TEN .010 ZBAZC 1 HI 4a 109 .28 133 POT 7 P2 812 -.S3 TEC TEN .010 ZBACC 1 H 4a 109 .90 Ica PDT 14 P3 103 .90 084 V23 .500 ZPIIFZ 74 Og 44 109 .81 103 POT +/-3 PB3 812 -. 73 084 V23 .2180 ZPWFZ 74 CO 4a0 109 .99 95 PCT +/-5 P3 511 -.8Q 084 V23 .SE0 2P1!Fz 79 HN 4a 109 TEP TEC TEC .010 -RAZC +/-000 CI 48 109 .37 131 PCT 9 P2 awl .77 TEC TEN .010 BCZC 1 HI 48 +/-09 .50 107 POT 8 P3 211 .77 E511 '/3 .150 ZPUFZ 79 HI 4a 109 TOP TEC TEC .010 Z8AZC 1000 CI 43 110 3.80 82 POT 47 P2 91 -".87 TEC TEN .010 Z8AZC 2 HI 45 +/-iD 2.03 87 POT 30 P2 811 .72 TEC TEN .010 2AZC 2 HI 43 1+/-0 2.08 8-0 POT 33 P3 911 -. 87 0a43 '23 .s80 2PIFZF 79 Hg 43 11 2.73 87 PDT 34 P3 91l .75 0a8i V23 .S0O ZPLIFZ 79 Hg 42 AiD TS TEC TEC .010 ZAZO +/-000 Og 47 Ila .31 38 POT 10 P2 511 .82 TEC TEN .610 284ZC 2 H 47 Ia0 .79 94 POT +/-2 P3 ski .82 BaN 1123 nE

$ uPrFZ 79 HI 47 +/-10 TSP TEC TEC .010 28.ZC0 1000 CI S49 L0 .45 100 POT 13 P2 511 -. 97 TEC TEN .010 2Z8C 2 Hg 49 I10 .75 I11 POT l+/- P3 awl -. 97 09H '23 .580 ZP1EZ 79 HN 49 1+/-0 TsP TEC TEC .010 28AZC 1000 C1 57 AID .27 43 POT 9 P2 911 1.70 423 TEN .0+/-0 24.ZC 34 HN 57 It0 .28 69 POT 1L P3 911 1.71 09H V23 .58.0 2P11 79 Hg 4a 1+/-l .35 al POT 1i P2 511 -.91 TEC TEN .010 ZA8CC 2 Hg 44 Ili .20 110 POT 8 P2 912 -S.3 TEC TEN .010 2BCC 2 Hg 4a I1l .53 109 POT 9 P3 512 -. 77 08C V'3 .180 -P;J'2 74 CO 4a I1l .01 115 POT 10 P3 911 -. 91 08a3 V23 .180 2P LUZ 79 HI 4a 1+/-+/- TES TEC TEC .010 ZAZC 1000 CI 4a 1+/-i .50 101 POT Id P2 91l -1.05 TEC TEN .010 9.0AZO 2 HI 4a 1+/-1 .34 102 POT A+/- P2 911 .73 TIC TEN .010 28.ZC 2 HI 48 1+/-1 .27 38 POT 9 P2 VC3 1.09 TEI TEN .f10 2A8ZC 2 HI 48 I11 1.03 105 POT is P3 511 -1.05 814 V23 .580 ZPIFZ 79 HN 8

a4 l ._,48 98 POT a P3 911 .73 911 M23 .5.0 2PUFZ 79 Hg 48a li .58 a9 POT 9 P3 V03 +/-.09 211 V23 .150 ZPUFZ 79 Hg 4a8 i1l TSP TEC TEC .010 2Z8C 1000 0g 140 1i1 .51 140 POT 11 P2 V02 .90 423 TEN .010 84AZO 29 Hg 14a I11 .77 90 POT 12 P3 V02 .80 VS2 V22 .5.0 ZPLIFZ 79 Hg 41 112 .90 114 PDT 20 P2 51l .84 TEC TEN .510 Z2A4.C 3 Hg 41 +/-12 1.02 95 POT 23 P3 011 .65 0834 V23 .S1H ZPUFZ 79 Hg 45 +/-12 TSP TEC TEC .10 z28zC 1000 CI 47 112 1.52 113 POT 27 P2 51l -. 59 TEC TEN .010 4BA.2C 3 HN 47 112 1.98 92 PDT 27 P3 911 -.869 03 '23 .150 ZPIFZ 79 Hg 47 k1+/- TS? TIC TEC .510 ZAZC +/-000 0g 49 A+/-2 .25 108 POT 0 P2 O0H -.50 TIC TEN .510 ZBAZC 3 Hg 07 +/-12 .80 115 POT 17 P2 8wl .83 123 TEN .010 ZCZC 33 HI 87 112 1.37 95 PDT 20 P3 B51 .63 0g9 V22 .580 ZP11Z 79 HI 4.4 113 .4a 113 POT Al P2 9112 -. 87 TEI TEN .810 ZRAZO 3 Hg 44 M13 .81 a4 POT 11 P3 912 -. 62 0.8 V/23 .580 SW PLZ 74 Og 44 1+/-3 TBS TEC TEC .8+/-0 ZA84C 1000 0g g 44 1+/-3 .40 140 POT +/-1 P2 9112 -.60 TEC TEN .510 ZAZCC 3 Hg 4£4 Il .97 97 POT 15 P3 812 -. 72 08 /143 .SE0 2P1fFZ 74 01 44 +/-13 TSP TEC TEC .0+/-0 Z84ZC 1000 0g 48 113 .55 +/-14 POT 13 P2 911 .70 TIC TEN .010 Z8AZC 3 Hg 48 113 .21 125 POT 5 P2 9M2 -. 03 TEC TEN .d10 28TCC 3 Hg 48 +/-13 .55 +/-08 POT 9 P3 E12 -. 70 B92 V23 .A80 ZPF2 74 Cg 48 113 .73 63 POT +/-1 Pa 911 .70 awl 113 .MS0 PC7F2 79 HI 44 1+/-3 TBP TEC TEC .010 Z2A9.C +/-000 C1 4--------+---------------4------. ---- +-..------------------....

ROW COL VOLTS BEG E111 PEP CHN LOCN INCHI 01CH2 I OSILEN 081D CEG BEGT ENOT POIA PTYPE CAI. LI

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CG - 22 Palo io;da 2 U221- PVNG62 20050401 0412712008 22:53:11 ROW COL VOLTO DEE lEO PER CHN LOCH INCH! 114CH2 I COLEN CRNID EG9 BEGT ENDT PDIA PTYPE CAI LI 4----t----4----4----4------.------+----4------~

51 113 .43 120 POT 8 P2 911 -1.39 V83 TEN .510 Z2AZ0 27 Hj 5a 113 .54 79 POT 9 P3 911 39 591 'M3 .5-a tPtFz 79 NJ 54 113 .44 137 POT 15 P2 911 -. 88 433 TEN .510 9AZO 33 NJ 64 113 .97 94 POT 15 P3 911 -. 58 ONH V'22 .8,W 2P UFZ 79 NI 110 113 .91 111 POT 21 P2 VOl -1.25 VZ3 TEC .510 9B0ZC 44 Cl 110 113 1.00 8, POT 24 P3 424 -.. 84 V44 '/24 .35o ZP1Fz7 715 C 112 113 .44 74 POT 12 P2 V44 .S5 V43 TEC .810 Z9AZ4 44 C1 12 113 .97 90 POT 15 P3 044 .75 V24 '/24 .3E0 ZP11FZ 75 C1 43 114 1.97 91 POT 35 P2 911 .80 TEC TEN .510 25AzC 4 HI 43 114 .58 121 POT 15 P2 112 -.92 TEC TEN .510 23AZC 4 NJ 43 114 .95 84 POT 15 P3 512 -. &3 08M '23 .53W 2PU1Z 74 Og 43 114 1.98 83 POT 27 P3 SN! .77 M-N V/3 .5E0 2P 7FZ 79 HN 43 114 TB? TOO TEC .510 294AZ +/-000 01 45 114 .57 92 POT 15 P2 511 .80 TEC TEN .010 29420C 11 45 114 .88 72 POT 22 P2 8912 -. 90 T£C TEN .510 29420 4 45 114 1.32 101 POT 29 P2 8912 .93 T£C TEN .610 M2 4 HI 45 114 1.20 65 POT 19 P3 B52 -. 78 08C Y'3 .350 -PU4Z 74 C1 45 114 1.07 89 POT 24 P3 912 .53 SC M23 .580 2PUFz 74 C1 45 114 .70 111 POT 12 P3 911 .603 Da4 '23 .580 2*PtFZ 79 HN 45 114 TB? TED TEC .510 2AZC 1009 CI 47 114 .88 109 POT 22 P2 912 -.3S- TIC TEN .510 43AZC 4 H 47 114 .37 42 POT 12 P2 512 1.00 TEC TEN .510 4BAZC 4 H 47 114 1.31 90 POT 20 P3 9112 -. 77 080 W23 .580 2P12fz 74 CD 47 114 .77 98 POT 13 P3 912 .78 MC '/3 .56-0 2PUFZ 74 C1 47 114 TB? TEC TEC .810 294.0 1000 Di S49 114 .30 03 POT 11 P2 8112 -1.02 TEC TEN .510 29AZC 4 H 49 114 .79 80 POT 21 P2 B92 .99 TEC TEN .510 24AZC 4 H 49 114 .G7 100 POT 11 P3 B92 -. 75 09C '/23 .350 2PLFz 74 CO 49 114 1.40 94 POT 21 P3 B92 .78 09C 423 .580 ZPLMF7 74 O1 51 114 .20 77 POT 9 P2 9112 .99 TIC TEN .510 292ZO 4 H 51 114 .50 100 POT 5 P3 912 .84 049C '3 .580 ZPNF2 74 Cl 113 114 .47 104 POT 13 P2 V44 .97 433 TEC .510 24AZ0 44 C1 i113 114 .92 84 POT 15 P3 042 .84 U34 124 .390 2PLIFZ 75 C8 117 114 .40 129 POT 13 P2 104 -".83 V43 TEO .510 29ZCC 44 OD 117 114 .92 69 POT 15 P3 Vo- -. 83 V24 Y/4 .SS0 2P472 75 Cl 42 115 1.01 97 POT 24 P2 9812 .87 TEC TEN .510 z9AZ4 4 11 42 115 1.41 94 POT 21 P3 9112 .82 M3C /23 .154) ZPFZ 74 CO 42 115 TB? TIC TEC .510 29CC 1000 C0 44 115 .27 29 POT 5 P2 B12 i.00 TEC TEN .810 240ZC 4 H1 44 115 .-3 02 POT 8 P3 8912 .87 DaC '/3 .560 zP1172 74 al 44 115 TBP TEC TEC .510 294ZC 100 01 50 115 .25 85 POT 8 P2 912 .90 TIC TEN .510 Z2AZ0 4 Ni 50 115 .71 87 POT 12 P3 912 .7a 090 '13 .53W ZP052 74 C1 I SO 115 .31 72 POT 15 P2 423 -.5a 433 TEN .510 25A2C 28 NI 50 115 .01 88 POT 15 P3 403 -. 5,a V4*3' .-50 ZP1/Z 79 HN ca 115 .00 81 POT 18 P2 423 -. 04 VS3 TEN .510 ZBAZC 28 HI 51 115 .90 89 POT 15 P3 4as - .,4 V43 '123 .5,3W 2P1F12 79 HN 18e 115 .31 130 POT 9 P2 425 -.60 V23 TEC .510 Z9ACC 59 C 39 115 .40 135 POT 10 P2 911 -.93 TIC TEN .510 ZZC 3 HI 39 115 .23 131 POT 8 P2 423 -. 87 TIC TEN .51 ZBA22C 3 HI 39 115 .84 80 POT 11 P3 91l -. 93 083 '/23 .SO zPLrFZ 81 NJ 39 115 .00 81 POT 8 P3 V03 -. 87 083 V23 .8m0 ZP11Fz 81 NJ 39 115 TSP TEC TEO .010 Z29Z2 1000 O1 43 115 .42 100 POT 10 P2 911 -. 91 TIC TEN .510 29*Z 3 Nj 43 115 .72 119 POT 10 P3 911 -. 91 D03 '23 .3-B0 ZP1FP 81 Nj 43 115 TBS TOC TEO .510 24AZ0 1000 ej 49 118 .28 9a POT 7 P2 09H .90 TEC TEN .610 2B5zC 3 Nj 40 117 1.02 112 POT 21 P2 423 .84 TEC TEN .810 ZBAZC 3 HI 40 117 1.30 70 POT 20 PS V23 .80oV3 '123 .5W0 Zp!FZ 02 0j ROW COL VOLT4 DEG K11 PER CNN LOCH INCH! 20CH2 I COL£N OR13 CEG BEEGTEHOT POIA PTYPE CA-. LI t---------- f.

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40 117 TEP TEC TEC .810 ZAZ8C l100 Cg 42 117 1.29 121 PDT 24 P2 V03 .64 TEC TEN .810 2CAZC 3 Hg 42 117 .54 147 PCT 12 P2 DM2 .S4 TEC TEN .510 ZAZC 3 Hg 42 117 1.81 90 PCT 25 P3 V03 .7 08DC '23 .5.90 ZPJFZ 74 Og 42 117 .80 90 PCT 13 P3 DM2 .74 08C '13 .553 2PIEZ 74 Cg 42 117 TSP TEC TEC .010 ZAzCC 1000 Cg 48 117 .35 140 POT 9 P2 aMl .69 TEC TEN .810 Z9ZCC 3 HN 48 117 .73 80 POT 10 P3 DM1 .69 SKl M13 .56, 2Pgfl 81 HN 48 117 .49 70 POT 7 P3 V03 .24 AOl '13 .M SW ZPUlF 81 Hg 48 117 .00 90 POT 8 P3 V03 .69 3W1 '13 .590 2PUFZ 81 Hg 110 117 .35 119 POT 15 P2 V03 .74 Un TEC .010 ZBZC 4- C1 Il 117 .71 120 POT 16 P2 V'04 - .86 V3 TEC .810 ZAZC 44 Cg I11 117 1.29 90 POT 20 P3 V'4 -. 88 '14 '14 .3-60 21*PFZ 75 Cg 110 117 .95 94 PCT 15 P3 V'3 .74 VZ3 V23 .580 ZP1152 79 Hg 37 116 .94 99 PCT 22 P2 DMl -.91 TEC TEN .810 24ZC 4 Hg 37 118 1.31 102 PCT 18 Pa DMl -.91 0834 '12*35W ZPLFZ 82- Hg 37 i18 .38 107 POT 5 P3 V03 -1.19 Ba li 2 .M580 2Uf 82 Hg 37 118 TRP TEC TEC .810 Z9A.ZC 1000 C1 41 118 .95 04 POT 23 P2 DM1 -.60 TEC TEN .810 28ZC 4 Hg 41 118 1.00 84 POT 21 P3 DMl -.so M834 '23 .36c ZPW1Z 61 Hg 41 115 TSp TEC TEC .810 ZAZC 10g0 CO 43 119 .00 83 POT I P2 DM1 -.91 TEC TEN .810 2AZC 4 Hg 43 118 .94 108 PCI 12 P3 DM1 -.91 084 '123 S6.0 2PIJFZ 81 Hg 43 i18 TOP TEC TEC .010 2SAZC 1000 Og 47 118 .ZO a8 PCT 7 P2 DM1 .80 TEC TEN .810 ZAZC 4 Hg 47 118 .23 00 PCI a P3 DM1 .5 08EN '12 .%60 2PIJFZ a1 Hg 83 118 .31 98 PCT 10 P2 DM1 - .69 '13 TEN .010 Z8AZC 34 Hg 83 11t .74 87 PCT 12 P3 DMl -.69 DIN 'z1 .5W. ZPFZ 79 Hg I 7 118 .20 33 PCI 7 P2 DM1 -.81 '123 SEN .810 25CCO 34 Hg 87 118 .40 90 PCT 8 P3 DM1 -.81 09M '122 .590 ZPLFFI 79 Hg B8 118 .40 31 PCT 14 P2 DM1 .S3 V'13 TEN .010 ZAZC 34 Hg

• 89 118 1.02 104 POT I5 P3 DM1 .83 094 '122 .58E 2PUlFZ 79 Hg 107 I11 .45 105 PCT t2 P2 V04 .So '13 TEC .810 28CZC 44 Cg 107 118 1.00 88 PCT 18 P3 V04 .69 V84 V24 .5.80 2P111 70 C1 3a 119 1.59 98 POT 32 P2 DM1 -.91 SEC SEN .810 28CZC 4 Hg 38 119 1.05 98 PCT 33 P2 D1 -.6M SEC TEN .810 Z8AZC 4 Hg 38 1t9 2.05 84 PDT 3D P3 DM1 -.91 08N '123 .60 ZPU*ZC 82 Hg 3a 119 1.90 79 PCT 23 P3 DMl ".6 083 '23 .380 ZPU1Z 62 HN 3a 119 TES TEC TEC .810 2D8.ZC 1000 Cg 36 119 1.42 98 POT 30 P2 DMl -. 91 TEC TEN .810 ZEACC 4 Hg 36 119 .37 03 POT 11 P2 '103 .73 SEC SEN .810 28C 4 Hg 38 119 .53 03 PCT 15 P2 DM2 .91 TEC TEN .810 ZACC 4 Hg 38 119 .70 69 POT 12 P3 103 .3 08C '12 .%so ZPlF 74 Og 36 119 .75 87 PCT 12 P3 DM2 .o 080C V23 .%so9 ZPUFZ 74 Og 36 119 1.01 94 PCT 13 P3 DMl -. 91 D0I '23 .Sao ZPILFZ 82 Hg 36 119 TB? TEC TEC .810 28AZC 1000 g

• 44 119 .40 111 PCI 14 P2 DM1 - .98 SEC TEN .810 28CZC 4 Hg 40 119 .28 49 PCT 9 P2 DM2 .69 TEC TEN .010 28CC 4 Hg 40 119 .52 71 POT 9 P3 DM2 .82 080 V23 .380 ZP;fZ 74 Cg I40 119 .49 130 PDT 8 P3 DM1 - .96 084 '123 .380 2P1FZ 81 HJ 40 119 TSI TEC TEC .810 ZAZ0 l100 Cg 42 119 .40 108 POT 14 P2 DM1 -1.00 TEC TEN .810 284+/-0 4 Hg

• 42 119 .09 94 POT 9 P3 DM1 -1.003 084 '123 .1.80 2PF2 al Hg 42 119 TSI TEC TEC .810 9BAZC 1000 0g 4a 119 .24 123 POT 8 P2 DMl .0 TSEC TEN .510 284+/-C 4 Hg 48 119 .32 34 PCT 4 P3 DM1 W 08E4 '123 .5.3W 2P1FZ 81 HJ

• 46 119 .41 139 POT 13 P2 DM1 .69 SEC TEN .810 MR9CC 4 Hg 46 119 .50 78 POT 7 P3 DMl .89 0934'123 .5.8 2P1um 81 HI 33 128 .01 108 PCT 14 P2 DMl .98 TEC TEN .81 ZBAZC 3 Hg 33 120 .23 a3 POT 8 P2 V23 .93 TEC TEN .810 28ZC 5 Hg 33 120 .32 94 POT 8 P2 BD2 .98 TEC TEN .510 ZBACC 3 Hg 33 120 .44 103 POT. 8 P3 V23 .53 D0. V23 .580 zPu1z 74 Cg I ROW COL VOLTO DEE M11 PE.R CNN LOCH 3NCH1 EHCH2 I COLEN CRSID CEG BEGT ENDT P01A PTYPE CAL Lg

---

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

10

0G - 22 Palo Voids 2 U2114 PVNG822 20080401 W412712008 +/-.:53:11 ROW COL VOLTZ 0EG 11W PIE CHN LOCN JNCHI I1CH2 I CLEN CR1MD CEG BEGT ENDT POIA PTYPE CAL LI

• ---------------------+--------------+ ----------

3.3 120 .AS 103 PCT 11 P3 V'13 .9s 00 '23 .3S IPUIZ 74 C1 33 120 .71 107 PCT 12 P3 BA2 .79 03C V23 .340 ZPLF- 74- Cl 33 1 02 .01 108 PCT a P3 Awl - .98 Dow '23 .SB 2?UF 82 N 33 120 ToP TIC TEC .010 8ZCC 1000 Cr 43 +/-20 .28 89 PCT 7 P2 SN! .69 TEC TEN .010 ZBAZC 3 Nj 43 120 .04 80 PCT 8 P3 aN! .69 084 '23 .. -P zP7. 81 NJ 43 120 .79 121 PCT 17 P2 aw! .89 TIC TEN .010 +/-AZC 3 Nj 43 120 .53 110 PCT 12 P2 V'3 - .6`2 TIC TEN .010 BAZC 3 Nj 43 120 1.23 102 PCT +/-0 P3 DM1 1.08 083 V23 .550 PUPlF- 8! Nj 1 43 120 1.00 88 PCT 14 P3 V'13 - .82 0834 '23 .560 +/-PUFZ 8! Nj 1 07 120 .50 70 PCT 10 P2 awl .5,4 '143 TEN .010 +/-.AC 22 Nj 1 07 1+/-2 1.09 97 PDT 14 P3 ANI .54 D0H '/te .3,0 zPLIFZ 82 Nj 9g 120 .39 98 PCI 1- P2 aN! .71 V83 TEN .0L1 "RACC 28 Nj I0 120 .00 128 PCT 8 P3 awl .71 09 V'122 ._S0 zPIFZ 82 NJ 34 121 2.34 113 PCT 35 P2 awl - .62 TEC TEN .010 "8CC 3 Nj 34 121 2.51 90 PCI 29 P3 DM1 - .82 8 '123 .380 +/-PUfT 82 Nj 34 121 TP TEC TEC .010 +/-"8* 100 og C0 38 121 .30 124 PIT 9 P2 '13 .70 TEO TEN .010 Z+/-ACC 3 Nj 138 121 .74' so PCI, 12 P3 '103 .10 '123 '123 .380 +/-PLUFl 82 Cj 40 .*2 .01 123 PCT 14 P2 Il2- .70 TIC TEN .010 "28CC 3 NJ 40 +/-21 .81 83 PCT 13 P3 V03 az V83 '23 .Sa -PIFZ 82 Cj 108 1+/-1 .- 3 117 PCI 12 P2 V'14 -1.Z3 V83 TEC .010 2Z8C 41 Cj 108 121 1.17 90 PDT 18 P& '14 -. 7a VZ4 '/24 .3.80 .PIFz 75 C 110l 121 .38 121 PCI +/-1 P2 '104 -1.30 U23 TEC .010 +/-8CZC 44 Cj 110 121 .91 93 PDT 13 P3 V04 - .78 '14 '/24 .380 -PIFFZ 75 Cj I+/- 1O21 .52 03 PCT I3 P2 '12 .72 V23 TEN .010 +/-9.ZC 29 Nj 120 121 1.27 90 PCT 1S P3 '122 .72 V'2 v'2 .580 -PVFZ 79 Nj 13.3 122 9.39 83 PCI 15 P2 aNl - .93 TIC TEN .810 -MCC - Nj 33 122 7.41 82 PCI 56 P3 awl -.84 034 /23 .Mo +/-P1F2 0! Nj 33 122 TSP TIC TEC .010 SAZC 1000 CD 33 122 .4 PI 12 P2 BSN -1.02 TEC TEN .010 28A2C 4 Nj 33 122 .32 37 PCT 10 P2 awl .93 TEC TEN .810 "SAZC 4 NJ 33 122 .81 109 PCT +/-0 P3 AN! -I.602 8 M13 ".38O +/-PfF+/- 82 HN 313 +/-2 .59 78 PCIT P3 AN! .93 08%4 '23 .SBG +/-PI.Ffz 82 Nj 133 122 TBP TIC TEC .010 28.CC 1000 of 47 122 .39 30 PCT 12 P2 AN! .84 TEC TEN- .010 :3CAZC 4 Nj 47 +/-2+/- .00 10 PCT 9 P3 aN! .,4 034 V23 .3 +/-PUFZ 81 Nj LO3 122 .25 97 PDT 0 P2 1H2 .89' V'3 TEC .010 28CC 39 Cj 1+/-3 122 .85 97 PCI 14 P3 SH2 1.04 110 V'23 .580 -PLFZ 73 Cj 167 122 .40 101 PCT 10 P2 DM2 .s7 V'3 TEC .010 +/-B9ZC 39 Cj 107 122 L99 93 PCI +/-0 P1 AN2 AS9 IiC V/l .380 PLFFZ 73 C1 29 124 .37 130 PCT 9 P2 aN! -.80 TIC TEN .610 ZBAZC 3 Nj

+/-9 124 1.49 99 PDT 27 P2 aw! .77 TIC TEN .010 rAZC 3 Nj 29 124 .8a5 10 PCT 11 P3 SNI -8.5 08-M'123M .50 +/-PUFl 82 Nj 29 124 2.03 84 PIT 24 P3 aN! .77 03 V'23 .380 .PIF- 8-2 NJ 29 124 TBO TIC TEC .010 :CAZC loco Cj 31 124 1.28 114 PCT 24 P2 AN! - .80 TIC TEN .010

.380 28CC P O

+/-RP* 332 Nj Nj P3 B N1 -.80 0 '123 11 124 1.80 93 PCT 22" 11 1 +/-24 TB? TIC TEC .0*10 8CC 1000 Ce 159 +/-24 .59 80 PIT 17 P2 '13 .87 V'13 TEN . 010 ZCC 28 Nj 139 124 1.10 so PCT 1 P3 '13 .ý79 '13 V'13 .53.0 ZPIf Cj 30 +/-25 .37 14 PCI 9 P2 aN! -. S3 TIC TEN .0*10 +/-ZC 3 Nj 30 123 .99 108 PCT 12 P3 aN! - .93 03 V23 .3S& +/-PL.FZ 8 NJ 30 125 TBP TIC TEC .G01 ZAZC 1000 Cj 23 128 .44 114 PCT 13 P2 SN! -.93 TIC TEN .810 28CC 4 NJ 243 12+/- .72 103 POT 9 P3 1iN! -.93 . 0 .3m -P8FZ a-8 NJ 23 +/-20 TB? TEC TEI .010 8AZC 100 Cj 101 +/-20 .32 93 PCT 8 P2 V21 .54 U'3 TEN .010 "28CC 27 Nj 101 120 .05 8a3 PCI 8 Pa 8I .0 Val Va!21 . 34 "+/-PlFl 82 NJ

- t -P---------------

- t ------------------

RO COL. VOLIC DEG 1140 PER4 CNN LCCN INCHL IN1CN2 I . C61LEN CR1430 CEG BEST 0401 POZA PTyPE CA 1.1L

---

t4------------------- --------------------------------------------------T--------------..

11

2G - 22 Palo VQ:da 2 UZ114 PVNGO, 20080401 W:271Z008 2-":53,11

---

t +

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

I RPO COL VOLTO DEE KiM PER CNN LCN MNCHI ICHN2 T CElLEN O&MID 0EGBEET ENDT PDIA PTYPE CAI. LI

---

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

103 128 .53 +/-41 PET 12 P2 DM2 -m.9 VZ3 TEC .810 RAZ8C 59 gi 18" 1+/-6 1.30 92 PET 20 P3 DM2 -. 83 110ic Val .580 ZP:FZ 73 CI S103 120 .03 98 PET 11 PS DM2 .s9 IC Val .5 W ZP:lrFz 73 Cg 22 127 .20 70 PCT 7 P2 DM1 - .. s TEC TEN .010 --SZC 4 Mg 22127 .46 13 PDT 8 P3a aM -S.3 0834 VZ3 .580 2:PUFZ 9 NJ

+/-Z 127 TaP TEC TEE .810 2:8CC 1o0o CE Z4 127 .35 69 PCT 11 P2 DM1 .79 TEE TEN .610 ZAZC 4 Mg Z4 127 .55 113 PDT 7 P3 DM1 .79 0811 V23 .580 =PItffE 82 HI Z4 127 TaP TEC TEE .010 ZBAZC 1000 CE as 127 .47 98 PET 14 P2 VP3 .Sa TEC TEN .010 2"AZC 4 NJ 28 127 .08 81 PDT 11 P3 P23 .S1 M23 ,23 .560 "P1FFZ 82 Cl 10 127 .90 110 PCT 21 P2 BD2 -. 78 VZ3 TEE .810 2,zCC 508 Eg 184 127 1.63 g9 PET 24 P3 DM2 -. 94 LLE P25 .580 2:PUTFZ 73 CI e10 127 .40 132 POT 13 P2 DM2 -. 71 V23 TEC .810 8E9CZC 58 E1 I108 127 1.01 95 PET 10 P3 DM2 -. S9 110 vMn .5s0 -"PIFZ 73 CE le 1+/-7 .87 a5 PET 14 P3 BD2 .S9 +/-ic van .580 ZPIIFZ 73 CE 157 128 .3-^ 02 PET 11 P2 V03 .as M':3 TEN .810 z,-7Z0 20 Mg 157 128 .07 95 PET 11 P3 V03 .11 V.-3 P43 .5s0 ZPIIFZ 82 C1 157 128 1.00 84 PET 10 P3 V03 .73 P23 W23 .5m0 ":PIF2: 82 Cg 114 129 .09 a4 PET 15 P2 DM2 .91 VP3 TEE .010 2:8CZC 39 Eg 104 129 1.4+/- 93 PET 21 P3 DM2 S8 liC van . M0 7P IF+/- Z 73 CE 111 133 .25 L18 PET 8 P2 *04 - .85 P23 TEC .0610 2:8C 48 Cg I111 130 .70 89 PCT 12 P3 P04 -.73 V24 V24 .360 ZP :FPF 75 Cg 163 130 .65 75 PET 15 P2 DM2 .83 Y23 TEE .010 2"BAZC 39 Cg 183 130 1.48 99 PCT 2+/- P3 DM2 .so LIED 2 .5E80 2"PJFFZ 73 CE 164 13L .S8 108 PET 10 P2 SM2 .83 V23 TEC .010 .4AZO 50 CE 104 131 1.14 97 PET I P3 BD2 .98 liC Val .stm MPUFZ 73 CE 103 13+/- .33 74 PET 10 P2 VP5 .78 V.23 TEE .010 "S8CC 38 Eg 4 133 .49 93 PCT 11 P3 DM2 -.069 cm (Mc .540 ":PWIPH 715 118 133 .44 82 PET 13 P2 PV3 .81 V23 TEN .510 2.420 20 Mg 118 133 1.03 84 PET 18 P3 V33 .73 V.3 V23 .580 zPIf2 92 Eg 131 133 .44 98 PET 13 P2 V03 - .09 V23 TEN .0LQ -4AZ 20 Mg 13a 133 .89 82 PET 14 P3 P03 -. 74 P,23 V03 .580 ZP:P11z 92 CE 158 133 .37 117 PCT 9 P2 BM2 - .89 U23 TEC .010 Z8AZC 37 Cg 158 133 1.02 108 PET 18 P3 DM2 -. 84 110 P25 . 5W P:PIlF 73 CE 102 133 .31 135 PCT 8 P2 DM2 .83 923 TEC .010 Z4AZ0 37 Eg 182 133 .84 104 PET 14 P3 BD2 .83 11C Van .-560 MP'LUZ 73 Eg 119 134 .29 130 PET 9 P2 VP04 .97 V83 TEE .. 10 Z"AZC 48 CE 119 134 1.0-4 92 PET 17 P3 V-4 - .. 4 VZ4 V24 .580 2:PU172 73 Cg 123 134 .32 11l PET LD P2 V24 -. 91 UV3 TEE .00l ZBAZ9 9 40 Cg 12,3 134 as8 94 PET 14 P3 P04 -.87 . 94 V0-4 .56.0 2:PIIP 72 Cg 181 134 .70 a3 PET 18 P2 DM2 .84 523 TEC .A10 2-4AZ0 37 Cg 161 134 .44 102 PET 8 P3 DM2 - .S3 110 van 580 ZPLF 73 CE 101 134 1.53 93 PDT 23 P3 BD2 .92 11C va .380 zMIFz 73 Cg 15a 135 .37 134 PCT 10 P2 DM2 -. 77 V23 TEC .010 ZLAZE 30 Cg 150 135 .0 Lg PET 12, P3 DM2 - .80 IiD Va3 .Sso ZPIPF 73 Cg 158 135 .81 125 PET is P2 BM2 - 07 513 TEE .410 2 0AZC 5a Ej 158 135 1.30 101 PCT 21 P3 DM2 - .8 11C V2"5 .ME0 ZP 1FZ 73 Cg 158 135 .29 101 PET 8 P2 BD2 - .77 523 TEE .010 Z8AZC 30 CE 158 135 .49 10 PET 9 P3 DM2 -. s 110 ,43 .M&O ZPIUF+/-. 73 Cg 10 135 1.14 102 PET 24 P2 DM2 -.. 63 23 TEE .810 2:4A2 S0 Cg 16 135 1.85 93 P0T 28 P3 DM2 -. 91 11 van .S0 ZP 1FZ 73 Eg 102 135 1.01 L13 PCT 22 P2 BD2 -. 77 923 TEC .610 ZSAZC 30 Cg i1z 135 1.48 94 PET 22: P3 BD2 -.. ,8 110C v . 540 ZP 1fF2 73 Cg

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

---

4...... ----- ------------------- ........--

RON COL VOLT0 DEE IKi] PER CNN LOCN 3NEMi ICH2 I CELEN R4MID CEG BEET ENDT PDIA PTYPE CAt. Lg

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

........-.....-.......... .......... e...-........ * --------------------------

86 - 22 Pale V3-du 2 U12214 PVNGN2 28000401 04W27/2008 22:33:11

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

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

ROW COL VOLTS DEE 11M PER CNN LOCH RNCHi I"CH2 I COLEN CR4ID CEG BEGT ENDT PDIA PTYPE CAL. LI

. ...... 4------ ---- -------- 4----------- -- ----- ---

37 130. .19 113 POT 0 P2 V03 -. 85 TEC TEN .010 25AZC 0 Hi I15 130 .07 99 POT 17 P2 BD2 1(3 TEC .010 .8-CC 30 Cj 159 130 1.53 92 POT 23 Pa DM2 lIC VD3 .5O ZP PTFZ 73 Cj 101 130 80 POT 12 P2 DM2 .83 323 TEC .010 2.420 50 01 101 130 88 POT 18 Pa BM2 -73 L10 72`5 .5&3 PUPFZ 73 Di

.43

.81 I 122 137 130 POT 7 P2 VC-1 -. 8,8 1(3 TEC .010 29AZC 40 01 1.15 -. 84 122 137 93 POT 14 Pa H24 324 VZ4 ý.50 ZPIIZ 73 0j

. 04 I H24 112 POT 11 P2 - .87 M(3 TEC 1538 137 .010 Z30CC 57 01 158 137 1.27 92 POT 20 P3 L1c 72`3 .5EJ ZIPIFZ 73 C0 DM2

.29 .85 S100 137 88 POT 7 P2 V23 TEC .010 18AZCC 57 -O e100 137 .73 84 POT 12 Pa VD2 .95 1IC M3 .3583 IPFLZ 73 01 9a 139 .$4. 107 POT 8 P* V32 .0.4 VZ3 TEN .010 2.9CC 21NH O9 139 .72 80 POT 9 PS V02 1("2 1(02 .5580 ZP VPZ 82 HN 100 139 .27 83 POT 7 P2 V02 *70 V13 TEN .010 2.9CC 25 NI Ile 139 .53 93 POT 7 P3 302 .7,0 V2 V212 .5W 2P1F7 8-2 HNI 117 140 .34 130 POT 9 P2 323 -. 08 1(23 TEC .010 2B.ZO 4,9 Cj 117 14.D .98 83 POT 10 P3 VC3 -. 09 1(0*3 M -580 ZPnFZ 82 CO 83 142 *-2 99 POT V33 -. 943 V33 TEN .010 2.9CC 23 NI 83 142 .92 83 POT a30 VIO '32 .550J ZnpFZ 82Z Ni 101 142 3.0 112 POT DM1 .91 383 TEN .010 R9CZC 23 H1

.4.7 81 POT DM1 101 142 .91 LO2 192 .56,0 ZPiFZ 82 HN 102 143 .33 114 POT V02 .73 V33 TEN .010 ZAZC 2:3 NI 102 143 .82 88 POT Val .88 V1(2 '/2 .ISO ZP/FZ 82 NI I12 143 .70 93 POT 322 .07 1(3 TEN .010 Z58zC 23 Hi a120 143 .98 91 POT V02 .07 V22 .53-0 ZPnFZ 82 Nj 120 143 .73 91 POT .74 V322 V3 .50 ZPFT 82 HI I

103 V32 I113 140 .53 POT ^02 -.08 V33 TEN .010 Z.0ZC 23 NJ 113 140 1 .341 94 POT -. 0- V32 W20 .Aso ZP'FZ 82 CJ I

53 148 .25 41 POT V03 - .50 V23 TEN .010 .BAZ0 22 Nj 03 148 .79 59 POT V13 '/3 .580 ZPUFZ 82 0O a1g 148 .23 31 POT V03 U23 TEN .010 ZBATC 22 Nj

-. 80 109 148 .73 84 POT UI3 '13 .580 ZpnFl 82 Nj p33 3033 112 149 .12 118 POT 1.03 V03 112 149 1.14 87 POT .79 awl 323 1(23 TEN TEN .010

.610 Z2AZC 2.9CC 22 22 Nj Nj 118 149 .30 92 POT -1.- 3.4 ION 118 149 .52 99 POT DM1

-1.3-4 ION 1(3 '/21 .M30

.550 ZPUFZ Zn/Fl 82 82 NI Nj awl a1w V23 TEN .010 Z8AZC 22 Nj 120 149 .28 aa POT -. 94 DM1 - .934 IO2 1(l .Sa0 ZPIFZ a-. Nj 120 149 .04 91 POT DM1 323 TEN .010 25AZC 25 Hi 115 150 .79 114 POT DM1 - .73 LOH 121 .580 ZP F 827 Oj 1.13 89 POT - .73 323 TEC .010 ZBAZ 50 HC 80 151 .28 37 POT 302 -. 09 323 V10 .5. Z FZ ZI 82: I 80 151 .07 93 POT V32 -. 09 49 154 .29 al POT 303 .73 V33 TEC .010 Z.ZC 2 50 01 3a. 157 .25 97 POT DM0 -1 2. V23 TEC .510 M9AZO So Di 323 TE .00 .0PFZ aC 50 I

£I5 157 .00 82 POT DM2 -1.5a U23 TED .5810 ZPAZC So Cl 120 157 .29 5' POT -.90 C1(0 120 157 .30 72 POT - .71 Y23 TEC .51L0 ZBAZO 50 01 303 49 15, .25 93 POT .97 303 9113 TEC .60.1 ZRAZO 50 01 113 155 .10 92 POT

• 90 0

01 104 .13 89 POT 9 P2 BD2 .80 US:3 TEC .010 ZBJ*.ZO 53 104 .70 58 POT 12 P3 DM2 .81 090 1(24 .380 PI/Fl 77 01 I 4 105 .52 122 POT 11 P3 BD2 .54 caN 0EC .540 2.PU'PH 73 Nj

-- ---------------------- 4----*-----+----4------------------------------------------------4----------t.......... ------ t--+

ROW COL VOL3 DES IKJ PER CNN LOCH INCO1 IMNH2 I CELEN ORMW CEG BEGT ENO(T PD0A PTYPE CAI Li

....-.. --.---- -I ---------------------------------------------

• - +-------------------------------------------------------

13

CG - 22 Palo Voids 2 UE14 PVNOCZ 20808401 84127j1200 22:53:,i

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

---... +-...--- ... ÷-. ..- .... ÷.....+.......... ÷.........÷............÷........÷.....÷...... .... +.......÷.......÷...... ....

ROW COL VOLTS DEG IRH PER CHN LGCN INCHi 10CH2 I MELEN 0211D CEG BEGT ENDT POZA PTYPE CAIL LI 154 185 .21 47 PCT 7 P2 9112 .90 VI3 TEC .610 l AZC 50 eg I14 185 .00 95 PDT I1 P3 912 Az2 100 VIA'4 . M IPIrFZ 73 Cj 112 185 .30 110 PC'T 18 P2 9111 -. 73 V+833 TEH .810 3RAZC 20 HN 112 185 .07 10a PCT 9 P3 911 -. 73 lON V:z .I&D.0 ZPIJFZ 82 NI 99 188 .23 138 PCT 7 P2 B92 .64 U93 TEC .810 2AZC 50 C:

99 188 .39 93 PCT 7 P3 BM2 1.01 100 VI4 .5380 ZP-FZ 73 01 9- 109 .23; 07 PDT 7 P2 B92 -. 82 923 TEC .810 Z3.ZC 52 CO 99 169 .30 94 PCT 7 PS 9112 -. a8 10c VITA .5&80 ZPUf. 73 Ce 87 17* .22 142 PCT 7 P2 B9l2 .83 M.3 TEC ..810 AZC 52 C:

87 170 .31 108 PCT 8 P3 9112 S94 09c VI4 .5m ZPLFFZ 73 Og 101 170 .27 148 PCT 8 P2 91z .79 V9'3 TEC .610 ZRZOC 52 Cj 101 170 .33 81 PCfT 8 P3 9H2 .88 100 3Y4 .580 ZP11F= 73 C1 4.4 173 .21 87 PDT 7 P2 V23 - .87 933 TEC .810 Z9AZC 52 Cj 4 175 .45 113 PC'T 18 P3 9111 - .82 usN 9EC .540 ZPUP1H 713 HI 189 180 .31 81 P'T 7 P2 V03 -.71! VI3 TEH .610 ZRA.Z 17 Hg 109 98O .93 &3 PCD 15 Pa .03 -. 80 V,3 VI3 .580 ZPL*FZ 92 CI I

109 181 .53 127 PCT 15 PZ V03 -. 9 VZ3 TEH .810 ZZC 19 HI 105 191 1..34 80 PDT -n P3 V03 -. 92 Val VMI .5W90 ZP1F,. 82 CI

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

---

--.--.. .... ---................... ÷....... .......- ..... ...+ -------

÷... . -------------- ..-

I RO COL VOLTS DEG IHO PER CHN LOCN INCHI INCH2 I RLEN CR130D CEG BEGI ENDT PDZA PTYPE CAL. LI t-------------------+- --- 4----+----+--- +-------t ---- 4----+--------------------------------------

Tubor: 2S92 Ra.oodr: 778 14

APPENDIX D PLI & PLP DATA SHEETS

CG - 21 Palo Verde 2 U2S1 PVNGOS 200804.01 0127/00Q8 22:50:58

---

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

4.....

I ROW COL YOLTC DEG 112 PER CHN LOCN INONX INCSH2 I CLEN CRWID CEG BEET ENDT PODA PTYPE CAL LI

---

4----------4---.---4----4------

W 15 1.02 84 PLP 8 O01 1.11 DiC 01C .-00 ZPA*Z 79 CI

8. 15 1.13 88 PLP 8 010 1.34 DI0 SIC .0100 ZPASI 79 C1 a7 18 1.34 83 PLP 8 010 1.28 010C IC .AO ZPAHZ 79 C1 38 79 1.94 88 PLP 8 TNH 8.09 TEH OSI .&00 ZPMI: 80 HI 39 80 1.29 82 PLP 8 TCH 8.01 TEH SIH .500 ZPAHZ 80 Hi 157 142 .83 07 PLP 8 07H 27.83 D7H O8 .800 ZPAEc 80 HI 143 150 .27 0g PLP 8 02C 18.42 D2C 53C .600 ZPAIIZ 79 CI 143 150 .21 71 PLP 8 02C 18.91 02C 03C .800 ZPM12 79 C1 142 151 .21 241 PLP 8 02C 18-63 D0C 03C .800 ZPAZ 79 C1 144 151 .15 70 PLP 8 02C 18.0 020C 030 .800 ZPANZ 79 C1 143 152 .31 08 PLP 9 02C 19.01 02C 03C .800 ZPA34 79 C1

÷I 145 152 .34 73 PLP 9 02C 19.83 D2C 03C .800 ZPHZ 79 Cl 144 153 .86 S PLP 8 02C 18.84 02C 03C .800 IPAHZ 79 C0 140 153 .00 a5 PLP 8 02C 18.77 DEC 03C .800 ZPA*hC 79 C1 145 1154 .71 70 PLP 8 02C 18.52 D0C 03C .800 ZPAZ 79 Co 144 155 .20 03 PLP 8 02C S.5 D2C 030 .SOO ZPZ 79 C:

S44 155 .55 130 PLP 5 0W0 24.27 0e 89C .800 ZPAH: 83 CI 143 158 .11 78 PLP 8 020 20.40 02C 03C .800 ZPAZ 79 Cj 145 158 .00 57 PLP 8 020 16.95 82C 03C .850 ZPAHZ 79 C1 145 158 .07 02 PLP 8 02C 17.12 DEC 030 .8OO ZP1 Z 79 O1

---

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

---

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

---

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

ROW COL VOLTO DBEG IK PER CHN LOCH INCH1 EMCH2 1 ORLEN CRM30 CEG BEGT ENOT PD0A PTYPE CA. LI

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

TwrbaO: 18 Raoordi: 20

OG - 22 Palo VQIda 2 U2R14 PVNG,2 2009D401 0,4127/Z088 22:31:49 SROW COL VOLT- DES flEIK PER CNN LOCH INCHI INCH2 I CRLEN CR11D CEG BEST ENDT P02A PTYPE CAL LI

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

17 02 1.213 83 PLP 8 TON 2.00 T8,4 TENI .00 ZPAI.Z a3 HI 19 az .91 81 PLP 8 TON 1.97 TON TOi .500* PAHZZ 4 Hi 53 104 1.91 87 PLP 8 FOP .53 FOP FOP .804 ZPANZ* 90Og 52 105 1.47 82 PLP 8 FOP .07 FOP FDO .000 ZPAI. 78 C0 34 125 1.58 80 PLP 8 FDP .51 PO? FO? .0C "PAIZ 78 01 3a0 125 2.01 88 PLP 8 FOP .53 FOP FDO .500 ZPMHZ 78 CO I-3 120 .00 87 PLP a FOP .52 F13P Fop. .C,00 --PA 78 CI a8 1e9 Z.05 87 PLP 8 02C .24 02CC .004 2-PA1-- 79 C I

7 200 2.01 83 PLP 8 02C .- Z D0C 02C .6004 PZ*. 79 CI

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

RIM COL VOLT DEG £11 PER CNN LOCH 3011 £0CH2 I" C0LEN CR1I1D CEG BEST ENDT PDIA PT'PE CAL LI

---

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

TuL,*: 9 Records;: 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 4 4 4 t I- 4 4 4- 4 4 4 -t 4 4 4- 4 4 TOTAL 116 127

SG- 21 Tubes Plugged in U2R14 P"o Verde U2R14 PVNG92 2RSG a 83 tube in be pf"Otad

• 33 PI U9q" 7ube

• 53 Stay Rod 1 10 It 410 U1 41 444 0 65 04 M A .4 .4t .4 U w LOS It* I. .s U#1. 1 I IS L.4 to LtdI1 *I m lnI t 1" a .1" "*1 09 .0 1'74 S~I 76 Led U

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• 1

APPENDIX F FORM NIS-1

APSI ~NIS -1FORM AI

-~

Li OWNERS'DATA REPORT FOR INSERVICE INSPECTIONS.

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

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

3. UNIT NUMBER 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

APS IOWER'

.OWNERSDATA AT NIS -1 BACK REPORT FOR ]NSERVICE 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 O*" 9" 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 'k-'z-O' TO 6-6-o0%, AND STATE THAT TO THE BEST OF MY KNOWLEDGE AND BELIEF, THE OWNER HAS PERFORMED EXAMINATIONS AND TAKEN CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT IN ACCORDANCE WITH THE REQUIREMENTS OF THE ASME CODE, SECTION XI. BY SIGNING THIS CERTIFICATE NEITHER THE INSPECTOR NOR HIS EMPLOYER MAKES ANY WARRANTY, EXPRESSED OR IMPLIED, CONCERNING THE EXAMINATIONS AND CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT. FURTHERMORE, NEITHER THE INSPECTOR NOR HIS EMPLOYER SHALL BE LIABLE IN ANY MANNER FOR ANY PERSONAL INJURY OR PROPERTY DAMAGE OR A LOSS OF ANY KIND ARISING FROM OR CONNECTED WITH THIS INSPECTION.

INSPECTOR $~ ,,, Jl COMMISSIONS , L "k 2'-k 2-lz NATL' BOARD, STATE, PROVINCE DATE

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

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

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

3. UNIT NUMBER 2

4. OWNERS CERTIFICATE OF AUTHORIZATION NONE

5. COMMERCIAL SERVICE DATE 9-19-86 SG 21 Tubes Plugged SG 22 Tubes Plugged POW COL ROW COL PON" COL ROW COL ROW COL

.-- .---...- ÷ .

22 77 14 75 48 183 58 108 Z9 120 35 120 C9 so 19 78 48 103 45 189S 34 121 2* 127 23 78 35 88 59 103 49109 33 82 1+/-6 13 33 122 49 1 84 45 118 4a 105 35 122 48 111 ca 79 50 105 37: 82 29 124 47 ID1 30 79 45 10o 31 1-4 49 112 37 84 32 79 49 10o 45 112 30 125 39 84 31 8o 41 8s 30 81 48 107 *5 120 48 113 41 Be 47 109 22 127 48 113 43 98 34 83 51 10" 24 127 41 114. 48 189 42 89 35 84 48 43 114 114 4a 109 41 98 37 84 38 85 4.5 118 4a 91 47 114 453 9C 43 89 47 118 43 115 45 8a 40 93 49 110 42 115 40 a9 47 94 48 111 44 115 42 89 49 94 48, 111 48 115 48 89 49 98 39 118 48 97 47 112 47 98 41 118 47 98 4.4 113 48 113 49 99 43 118 44 91 48 99 45 118 48 91 4- 113 58 99 37 11i 45 82 43 114 41 118 47 S9 45 114 47 1oo 43 L18 49 92 47 114 49 100 35 I19 42 115 48 119 44 115 48 93 48 101 4-0 LI9 5a 93 39 18 35 1+/-0 43 11i 49 I0 37 128 45 94 40 117 48 183 38 121 47 94 42 117 43 104 -9 124 49 94 37 118 51 104 -a 125 so 95 41 118 48 105 28 125 47 10D 43 119 30 125 49 108 3a 119 32 125 51 1O0 38 119 45 108 47 108 2£ 128 48 101 440 119 C7 128 49 102 42 119 48 107 I I I