BW070005, Twelfth Refueling Outage Steam Generator Inservice Inspection Summary Report
| ML070290637 | |
| Person / Time | |
|---|---|
| Site: | Braidwood  |
| Issue date: | 01/29/2007 |
| From: | Coutu T Exelon Generation Co, Exelon Nuclear |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| BW070005, FOIA/PA-2010-0209 | |
| Download: ML070290637 (110) | |
Text
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January 29, 2007 BW070005 U. S. Nuclear Regulatory Commission Aftn: Document Control Desk Washington, D. C. 20555-0001 Braidwood Station, Unit 2 Facility Operating License No. NPF 77 NRC Docket No. STN 50-457
Subject:
Braidwood Station, Unit 2, Twelfth Refueling Outage Steam Generator lnservice Inspection Summary Report In accordance with Technical Specification 5.6.9, Steam Generator (SG) Tube Inspection Reports, item b, Exelon Generation Company, LLC is reporting the results of the SG inspections, which were completed during the Braidwood Station, Unit 2, twelfth refueling outage (A2R12). The attached report is also being submitted in accordance with the requirements of the American Society of Mechanical Engineers Boiler and Pressure Vessel Code, 1989 Edition, Section Xl, Rules for Inservice Inspection of Nuclear Power Plant Components, Article IWA-6000, Records and Reports, and Article IV-7000, Report of Examination, of Mandatory Appendix IV, Eddy Current Examination of Non-Ferromagnetic Steam Generator Heat Exchanger Tubing.
If there are any questions regarding this submittal, please contact Mr. Dale Ambler, Regulatory Assurance Manager, at (815) 417-2800.
Respectfully, Thomas Coutu Site Vice President Braidwood Station
Attachment:
Braidwood Station, Unit 2, Steam Generator Eddy Current Inspection Report Twelfth Refueling Outage (A2R12), October 2006
Exelon Nuclear BRAIDWOOD STATION, UNIT 2 35100 South Rte. 53, Suite 84 Braceville, IL 60407 COMMERCIAL OPERATION: October 17, 1988 STEAM GENERATOR EDDY CURRENT INSPECTION REPORT TWELFTH REFUELING OUTAGE (A2R12)
October 2006 Exelon Nuclear 4300 Winfield Road Warrenville, IL 60555 Document Completion Date: January 22, 2007
TABLE OF CONTENTS
1.0 INTRODUCTION
2.0
SUMMARY
3.0 CERTIFICATIONS 3.1 Procedures/Examinations/Equipment 3.2 Personnel 4.0 EXAMINATION TECHNIQUES AND EXAMINATION SCOPE 4.1 Examination Techniques 4.2 Steam Generator Inspection Scope 4.3 Recording of Examination Data 4.4 Witness and Verification of Examination 5.0 EXAMINATION RESULTS 5.1 Indications Found 5.2 Other Inspection Results 6.0 TUBE REPAIR
SUMMARY
7.0 DOCUMENTATION 8.0 FIGURES/TABLES/ATTACHMENTS
1.0 INTRODUCTION
Braidwood Station, Unit 2, operates with four Westinghouse Model D-5 recirculating steam generators (SGs) in the four loop pressurized water reactor system. Each SG contains 4,570 thermally treated Inconel-600 U-tubes that have a nominal outside diameter of 0.750 inches and a nominal thickness of 0.043 inches. The tubes are hydraulically expanded into the full depth of the tubesheet. The tubes are supported by stainless steel quatrefoil support plates (TSPs) and chrome plated lnconel-600 anti-vibration bars (AVBs). See Figure A.1 for a diagram of the D-5 Steam Generator tube support plate configuration.
In compliance with Braidwood Station Technical Specification (TS) 5.5.9, Steam Generator Tube Surveillance Program, and American Society of Mechanical Engineers (ASME) Boiler and Pressure Vessel Code Section Xl 1989 Edition, IWB 2500-1, Examination Category B-Q, Item B16.20, SG eddy current examinations were performed during the Braidwood Station, Unit 2, twelfth refueling outage (A2R12). In addition, the inspections were performed consistent with the Electric Power Research Institute (EPRI)
PWR Steam Generator Examination Guidelines: Revision 6 and Nuclear Energy Institute NEI 97-06, Steam Generator Program Guidelines: Revision 2. Westinghouse Electric Co. Ltd conducted the inspections from October 18, 2006 through October 25, 2006. The following inspections were performed during this outage.
100% full-length bobbin coil in all four SGs 20% hot leg top of tubesheet (+/- 3) +PointTM in all four SG5 20% hot leg tubin? within the tubesheet from the top of tubesheet down to a depth of 17 inches, +Point M in all four SGs 20% hot leg bulges ~ 18 volts and over expansions ~ 1.5 mils within the hot leg tubesheet from the top of tubesheet down to a depth of 17 inches, +PointTM in all four SGs 100% hot leg top of tubesheet (+3 to-17) +PointTM of tubes in-service tubes identified as having increased residual stress 20% preheater baffle expansion +PointTM in one SG 25% hot leg dents/dings >3.0 volts +PointTM in all four SGs 25% row 1 and 2 U-bends +PointTM in all four SGs Inspection of one deplugged tube hot leg Plug Expansion Zone (PEZ) +PointTM 100% review of the bobbin eddy current data through the hot leg and cold leg tubesheet region to identify any unexpanded tubes in all four SG5 Visual inspection of 100% of the previously installed mechanical plugs and welded tube plugs in all four SGs 100% Visual inspection of newly installed tube plugs in all four SGs Note: Prior to completion of the steam generator inspection, on October 24, 2006, the NRC approved Braidwood Technical Specification Amendment 141. This amendment allowed that during Braidwood Station, Unit 2, refueling outage twelve (i.e., A2R12), and the subsequent operating cycle, the hot leg tubesheet inspection scope could be limited to the region 17 inches below the top of tubesheet. A minimum 20% of the tubing was inspected through this region during A2R12. This sample included a minimum 20%
sample of the bulges ~ 18 volts and over expansions ~ 1.5 mils in this region. No degradation was found during this inspection.
2.0
SUMMARY
The requirements of Revision 6 of the EPRI PWR Steam Generator Examination Guidelines (i.e., EPRI Guidelines) along with Interim Guidance as provided by EPRI, were implemented during this inspection. A degradation assessment was performed prior to the inspection to ensure the proper EPRI Appendix H, Performance Demonstration for Eddy Current Examination, qualified inspection techniques were used to detect any existing and potential modes of degradation. Each technique was evaluated to ensure that the detection and sizing capabilities are applicable to the Braidwood Station, Unit 2, site specific condition in accordance with the EPRI Guidelines. All data analysts were qualified to Appendix G, Qualification of Nondestructive Examination Personnel for Analysis of NDE Data, of the EPRI Guidelines (i.e., Qualified Data Analyst (QDA)). All data analyst and acquisition personnel satisfactorily completed site specific training and testing prior to beginning examinations. An independent QDA process control review was employed to randomly sample the data to ensure that the analysis resolution process was properly performed and that the field calls were properly reported. An analysis feedback process was implemented that required the data analysts to review their missed calls and overcails on a daily basis.
The modes of tube degradation found during the Braidwood Station, Unit 2, A2R12 were anti-vibration bar wear, foreign object wear and preheater wear at the support plate intersections.
In accordance with Technical Specification 5.5.9.c, Inspection Results Classification, the inspection results were classified as category C-i for SG D and category C-2 for SGs A, B and C. There were no scanning limitations during the eddy current examinations.
As a result of the A2R12 eddy current inspections, a total of fourteen (14) tubes were removed from service by mechanical tube plugging. Four tubes also received stabilizers in the area of degradation prior to tube plugging. Table 2.1 and Table 2.2 provide the total tube plugging history / equivalent plugging levels to-date and the total numberof tubes plugged in A2R12 by degradation mode.
Table 2.1 Equivalent Tube Pluqqing Level
~
I Tubes Previously Plugged 57 48 56 25 186 Tubes Plugged InA2R12 9
1 4
0 14 Total Tubes Plugged 66 49 60 25 200 Total Tubes Plugged (%)
1.44%
1.07%
1.31%
0.55%
1.09%
Table 2.2 Tubes Reøaired Durinq A2R12 Taut Foreign Object Wear 1
0 1
0 2
Anti-Vibration Bar Wear 8
0 2
0 10 Preheater Support Wear 0
1 1
0 2
A2R12 Plugging Totals 9
1 4
0 14 3.0 CERTIFICATIONS 3.1 Procedures/Examinations/Equipment 3.1.1 The examination and evaluation procedures used during the SG eddy current inspection were approved by personnel qualified to Level Ill in accordance with the 1984 Edition of SNT-TC-i A, Personnel Qualification and Certification in Nondestructive Testing. Exelon Generation Company, LLC (i.e., Exelon) Procedure ER-AP-335-039, Multifrequency Eddy Current Data Acquisition of Steam Generator Tubing, Revision 3 and Exelon Procedure ER-AP-335-040, Evaluation of Eddy Current Data for Steam Generator Tubing, Revision 2, were used for data acquisition and analysis.
3.1.2 The examinations, equipment and personnel were in compliance with the requirements of Exelon and Westinghouse Quality Assurance Programs for Inservice Inspection; Braidwood Station Technical Specification 5,5.9; 1989 Edition of ASME Boiler and Pressure Vessel Code Sections Xl, Rules for Inservice Inspection of Nuclear power Plant Components, and V, Nondestructive Examination; EPRI PWR SG Examination Guidelines Revision 6; and NEI 97-06, Steam Generator Program Guidelines, Revision 2.
3.1.3 Certification packages for examiners, data analysts and equipment are available at Braidwood Station. Tables A.1 and A.2 of Attachment A lists all personnel who performed, supervised, or evaluated the data during this SG inservice inspection.
3.1.4 R/D Tech Incorporated TC6700 Remote Data Acquisition Units (RDAU5) with Westinghouse ANSER computer software were used to acquire the eddy current data. Analysis was performed with Westinghouse ANSER 8.4.3 Revision 230 computer software.
3.1.5 The bobbin coil examinations of the SGs were performed with either Zetec, Westinghouse or Corestar 0.610 inch diameter probes. For low row U-Bend tubing, either a Zetec or Corestar 0.590 inch diameter probe was utilized to achieve the complete full tube examination in tubes where there was difficulty using the 0.610 inch diameter probe.
3.1.6 The rotating coil examinations were performed with Zetec 0.610 inch diameter three coil +PointlM in all areas exce~tthe U-Bend region where Zetec 0.580 inch diameter single coil +PointT probes were used.
3.2 Personnel 3.2.1 The personnel who performed the SG eddy current inspections were qualified to Level I and Level II certification in accordance with the 1984 Edition of SNT-TC-1A. The Level I personnel performed the inspections under the direct supervision of Level II or Level III personnel. A list of the certified eddy current personnel who performed data acquisition for the examination is contained in Table A.1 of Attachment A.
3.2.2 The personnel who performed the SG eddy current data analysis were qualified to a minimum of Level II, with special analysis training (i.e., Level IIA) in accordance with the 1984 Edition of SNT-TC-1A and Article IV-2000 of ASME Section XI, 1989 Edition. A list of the certified eddy current personnel who performed data analysis for the examination is contained in Table A.2 of Attachment A.
3.2.3 All eddy current data analysts were qualified in accordance with EPRI Appendix G for Qualified Data Analysts (QDA5).
In addition, all data analysts were trained and tested in accordance with a site specific performance demonstration program in both the bobbin coil and +PointTM inspection data analysis. Resolution analysts were also trained and tested specifically for the performance of data resolution. All analysts were required to achieve a minimum score of 80% Probability of Detection (POD) with a 90% confidence level on the practical examination, and a minimum score of 80% on the written examination prior to analyzing data.
3.2.4 All SG eddy current data acquisition personnel were trained and tested in accordance with a site specific performance demonstration program. The data acquisition operators were required to achieve a written test score of 80% or greater prior to acquiring data.
3.2.5 The SG eddy current analysis was subject to two independent analyses.
Primary analysis of all data was performed by Westinghouse and sub-contractors. Secondary analysis was performed by various sub-contractor companies, different than those used on primary analysis.
Discrepancies between the two parties required Level Ill concurrence between both parties for the final resolution.
3.2.6 Two independent SG eddy current Level Ill QDAs were employed to serve as process control reviewers, in accordance with EPRI Guidelines, to randomly sample the data to ensure the resolution process was properly performed and that the field calls were properly reported. The Independent Level III QDAs also provided data acquisition oversight to ensure that the data collection process was in compliance with appropriate procedures, that all essential variables were set in
accordance with the applicable Examination Technique Specification Sheet (ETSS) and to provide a data quality check of acquired data. The Independent Level Ill QDAs reported directly to the Exelon Level III inspector.
4.0 EXAMINATION TECHNIQUES AND EXAMINATION SCOPE All SG eddy current examination techniques used were qualified in accordance with Appendix H of the EPRI PWR SG Examination Guidelines.
Each examination technique was evaluated to be applicable to the tubing and conditions of the Braidwood Station, Unit 2, SGs.
4.1 Examination Techniques 4.1.1 The bobbin coil examinations were performed with a 0.610 inch diameter bobbin coil eddy current probe as described in Section 3.1.5. For low row U-Bend regions where there was difficulty using the 0.610 inch diameter probe, a 0.590 inch diameter probe was utilized to achieve the complete full tube inspection. Nominal probe inspection speed was 40 inches per second for rows 5 through 49 and 24 to 40 inches per second for rows 1 through 4 depending on tube conditions. Sufficient sampling rates were used to maintain a minimum of 30 samples per inch. The bobbin coil probes were operated at frequencies of 550 kHz, 300 kHz, 130 kHz, and 20 kHz operating in the differential and absolute test modes. In addition, suppression mixes were used to enhance the inspection. These mixes were as follows: 550/130 kHz differential mix, a 550/300/130 kHz differential mix, and a 300/130 kHz absolute mix.
4.1.2 The +PointTM examinations at the top of tubesheet, 17 inch depth from the top of tubesheet, preheater baffle plate expansion transition regions, dents/dings and special interest locations were performed with a 0.610 inch diameter three coil +PointTM eddy current probe as described in Section 3.1.6. Nominal probe speed was 0.6 inches per second and 0.15 inches per second for the examination of dent and dings. A sampling rate was used to maintain a minimum of 30 samples per inch in the circumferential direction and 25 samples per inch in the axial direction. The rotating probes were operated at frequencies of 300 kHz, 200 kHz, 100 kHz and 20 kHz. In addition to the four base frequencies, three process channels were used to display circumferential indications in the positive trace.
4.1.3 The +PointTM examinations within the U-Bend regions were performed with a 0.580 inch diameter ÷PointTMeddy current probe as described in Section 3.1.6. Nominal probe speed was 0.4 inches per second. A sampling rate was used to maintain a minimum of 30 samples per inch in the circumferential direction and 30 samples per inch in the axial direction. The rotating probes were operated at frequencies of 400 kHz, 300 kHz, 150 kHz and 20 kHz.
In addition to the four base frequencies, three process channels were used to display circumferential indications in the positive trace.
4.1.4 Non-quantifiable indications identified by an I-Code were performed with a 0.610 inch diameter three coil +PointTM eddy current probe as described in Section 3.1.6. The nominal probe speed was 0.6 inches per second with a sampling rate to maintain a minimum of 30 samples per inch in the circumferential direction and 25 samples per inch in the axial direction. The probe was operated at frequencies of 300 kHz, 200 kHz, 100 kHz and 20 kHz. In addition to the four base frequencies, three process channels were used to display circumferential indications in the positive trace.
4.1.5 The eddy current calibration standards used for the bobbin coil and
+PointTM inspections met the requirements of the EPRI PWR Steam Generator Examination Guidelines, Revision 6 and Section V and XI of the ASME Boiler and Pressure Vessel Code, 1989 Edition.
4.1.6 The SG eddy current examination techniques used during this inspection were equivalent to the EPRI Appendix H techniques listed in Table 4.1 below. Each Examination Technique Specification Sheet (ETSS) was evaluated and determined to be applicable to the site conditions.
TABLE 4.1 EPRI APPENDIX H TECHNIQUES EPRI Technique ETSS Probe Description 96004.3 Rev. 9 Bobbin AVB / Pre-Heater / TSP / Foreign Object Wear, Freespan Flaws 96043.2 Rev. 0 Bobbin Tube Support Plate Wear 96007.1 Rev. 10 Bobbin ODSCC at Tube Support Plates 96910.1 Rev. 9
+PointlM Foreign Object Wear / Freespan Flaw Sizing 96005.2 Rev. 8 Bobbin Freespan Pitting 21998.1 Rev. 3
+PointlM Foreign Object Wear / Freespan Flaw Sizing 20511.1 Rev. 7 20510.1 Rev. 5
+Point~
TTS Expansion / Tubesheet / Pre-Heater Expansion /
Dent / Ding / Deplugged Tube Location PWSCC 21409.1 Rev. 4 21410.1 Rev. 4
~ 0
~
I. I I ~
U
+PointTM US Expansion / Dent / Ding / U-Bend / Pre-Heater Expansion - ODSCC 96511.1 Rev. 15
+PointTM U-Bend PWSCC 96703.1 Rev. 16
+PointTM Dent/ Ding / PWSCC Sizing PWSCC Primary Water Stress Corrosion Cracking ODSCC Outer Diameter Stress Corrosion Cracking TSP Tube Support Plate US Top of Tubesheet AVB Anti-Vibration Bar
4.2 Steam Generator Inspection Scope 4.2.1 100% of the tubes in all four SGs were inspected full length, with a bobbin coil probe as described in Section 4.1.1.
4.2.2 20% of the tubes in all four SGs were inspected at the hot leg top of tubesheet expansion transition region (+/- 3 inches) with a +PointTM probe as described in Section 4.1.2.
4.2.3 20% of the tubes in all four SGs were inspected from the hot leg top of tubesheet down to a depth of 17 inches. This population included 20% of the hot leg bulges> 18 volts and over expansions ~ 1.5 mils within this portion of the hot leg tubesheet. These inspections were performed with a +PointTM as described in Section 4.1.2.
4.2.4 100% of the tubes identified in all four SGs as having increased residual stress were inspected at the hot leg top of tubesheet ex~ansiontransition region (plus 3 inches to minus 17 inches) with a -i-Point1 probe as described in Section 4.1.2.
4.2.5 20% of the preheater baffle plate ex~ansiontransitions (-ii-2 inches) in SG D were inspected with a +PointT probe as described in Section 4.1.2.
4.2.6 Inspection of the hot leg plug expansion zone of one tube in SG B was performed. This is the only tube at Braidwood Station, Unit 2, which had been previously deplugged and returned to service. This inspection was performed with a +PointTM probe as described in Section 4.1.2.
4.2.7 25% of the hot leg dents/dings greater than 3.0 volts based on bobbin inspection in all four SGs, were inspected (+/- 3 inches) with a +PointTM probe as described in Section 4.1.2.
4.2.8 25% of the Row 1 and Row 2 U-Bends in all four SGs were inspected from the top support plate on the hot leg side to the top support plate on the cold leg side with a +PointTM probe as described in Section 4.1.3.
4.2.9 100% review of the bobbin data in both the hot leg and cold leg tubesheet region was performed to identify unexpanded tubes.
4.2.10 Diagnostic examinations were conducted on non-quantifiable indications that were detected by the bobbin coil examination. Diagnostic examinations were also conducted on tubes in the vicinity of potential foreign objects in order to determine the extent of tubes potentially affected by the objects. These examinations were performed with a
+PointTM as discussed in Section 4.1.4.
4.2.11 See Attachment B for tubesheet maps detailing the inspection scopes for each SG.
4.3 Recording of Examination Data The eddy current data and analysis results were recorded on hard drives. The data was then loaded into the Westinghouse Eddy Current Data Management System, ST Max Version 1.18.02. This system was used to track the completion of the examinations and was used to generate the final SG eddy current report summaries.
4.4 Witness and Verification of Examination SG eddy current inspections were witnessed and/or verified by the Authorized Nuclear Inservice Inspectors, Mr. L. Malabanan of the Hartford Steam Boiler Inspection and Insurance Company of Hartford Connecticut, Chicago Branch, 2443 Warrenville Road, Suite 500, Lisle, Illinois 60532-9871.
5.0 EXAMINATION RESULTS 5.1 Indications Found 5.1.1 Anti-Vibration Bar (AVB) Wear Tube degradation was found during bobbin coil examination in the U-Bend region due to fretting of Anti-Vibration Bars on the outer surface of the tube. A total of 847 indications were reported. The EPRI Appendix H bobbin coil technique 96004.3 was utilized for depth sizing of all AVB wear, The largest indication was 46%
through wall (TW). All tubes with wear greater than or equal to 40% TW were removed from service by mechanical tube plugging. Table 5.1.1 provides a summary of AVB wear degradation. Refer to Attachment B for detailed locations and sizing for all AVB wear indications.
Table 5.1.1 A2R12 AVB Wear Summary SG A I
SG B I
Li~_.Lthd.I I
<20% TW I
145 I
44 105 68 20-39%TW 221 48 134 71
>=40%TW 8
0 3
0 I
TOTAL 374 92 242 139 I
5.1.2 Foreign Obiect Wear EPRI Appendix H +PointTM coil sizing technique 21998.1 was used to size indications of secondary side foreign object wear identified during A2R1 2. Two tubes were identified as containing new wear from secondary side foreign objects. The first tube was in SG A Tube Row 12 Col 70. This tube had an indication of secondary side foreign object wear sized at 16% TW located slightly below the 5th tube support plate on the hot leg side. This tube was plugged and stabilized.
+PointlM inspection of the surrounding tubes in this region showed no signs of tube wear or presence of a foreign object. The second tube was in SG C Tube Row 8 Col 18. This tube had an indication of secondary side foreign object wear sized at 22% TW located slightly below the ~
tube support plate on the hot leg side. This tube was plugged and stabilized. +PointTM inspection of the surrounding tubes in this region showed no signs of tube wear or presence of a foreign object. Neither of these two tube locations were accessible for secondary side visual inspection.
Additionally, four (4) tubes distributed in SGs A/BID had indications of foreign object wear that had not changed since the previous refueling outage (A2R1 1) inspection. These tubes have been allowed to remain in service based on them being below the Technical Specification plugging limit and visual verification that the object(s) that had caused the wear were no longer present. Inspection of these locations during A2R12 confirmed that these wear indications had not grown since the last inspection, therefore the tubes remain in service. Refer to Attachment B for detailed locations and sizing for foreign object wear indications.
5.1.3 Preheater Wear Tube degradation was found in eight (8) tubes that was attributable to preheater wear. The depth of the preheater wear ranged from 3% TW to 46% TW. The depth was measured by either EPRI Appendix H qualified bobbin coil technique 96004.3 if the wear was at a drilled hole support, or bobbin coil technique 96043.2 if the wear was at a quatrefoil hole support location. Two (2) tubes were identified with wear greater than or equal to 40% TW. These two tubes were plugged and stabilized. Refer to Attachment B for detailed locations and sizing for all preheater wear indications.
5.2 Other Results 5.2.1 Visual Inspection of Installed Tube Plugs
- All previously installed tube plugs were visually inspected for signs of degradation and leakage. In addition, all plugs installed during this outage (A2R12) were also visually inspected and the installation parameters were reviewed for acceptable installation.
No anomalies were found.
5.2.2 Attachment B contains tube lists with axial elevations of all imperfections that contain measurable through wall depth that were found during the A2R1 2 eddy current inspection.
5.2.3 During A2R12, 100% bobbin eddy current data was screened to identify if any tubes were not expanded within the hot or cold leg tubesheet.
No tubes were identified as being unexpanded.
5.2.4 A visual inspection of the secondary side moisture separator regions of SG D was performed during the A2R12 outage in accordance with Westinghouse procedure MRS-SSP-1323-CBE/CDE, Model D-5 SG
Steam Drum and Auxiliary Feedwater Nozzle/Piping Inspection at Byron Station, Unit 2, and Braidwood Station, Unit 2, Revision 0. This was a follow-up inspection of the SG D based on erosion of the moisture separator tangential nozzles, downcomer barrels and swirl vanes being identified during the previous outage (A2R1 1), refer to the previous Braidwood Unit 2 Eleventh Refueling Outage Steam Generator Inservice Inspection Summary Report, dated July 27, 2005.
During A2R12 visual inspection and ultrasonic thickness measurements were taken of the eroded areas, with an emphasis on reinspection of the areas identified as eroded during the previous A2R1 1 inspection.
Continued erosion of the components was identified, while no indications of through wall erosion were identified. An analysis was performed that determined that in the eroded areas significant margin remained prior to the erosion penetrating through wall and affecting SG performance or possibly generating loose parts. The erosion in the affected areas was not projected to penetrate through wall over the next operating cycle.
Monitoring of the condition is planned over subsequent operating cycles in order to develop a degradation growth rate and take corrective actions if they become necessary.
6.0 REPAIR
SUMMARY
Repairs were conducted in accordance with ASME Section XI, 1989 Edition. All repairs were performed using lnconel-690 mechanical tube plugs. All repairs were performed in accordance with Westinghouse approved procedures. Prior to plugging, two tubes were stabilized in the region where secondary side foreign object wear was identified and two tubes were stabilized in the region wear preheater support plate wear was identified. Table 6.0 summarizes the repairs performed during A2R12. No tube sleeving was performed.
Table 6.0 Summary of A2R12 Tube Pluqqinq
.~:
~...$GE~.
D Tubes Plugged 1nA2R12 9
1 4
0 14 Tubes Stabilized 1
1 2
0 4
Refer to Attachment B for detailed locations and sizing of indications in tubes that were plugged during A2R12.
7.0 DOCUMENTATION All original optical disks have been provided to Exelon and are maintained at Braidwood Station. The final data sheets and pertinent tube sheet plots are contained in the Westinghouse Outage Report for Braidwood Station, Unit 2, Twelfth Refueling Outage, and are also maintained at Braidwood Station.
8.0 FIGURES/TABLES/ATTACHMENTS Attachment A Contents Table A.1 Data Acquisition Personnel Certification List Table A.2 Data Analysis Personnel Certification List Figure A.1 Westinghouse Model D-5 Tube Support Plate Attachment B Contents Attachment B.1 Attachment B.2 Attachment B.3 Attachment B.4 Attachment B.5 Attachment B.6 Attachment B.7 NOTE: The ASME Section XI NIS-1 Form. Owners Report for lnservice Inspections, for steam generator inspections performed during the Braidwood Station, Unit 2, Twelfth Refueling Outage is contained in the Braidwood Station, Unit 2, Inservice Inspection Summary Report.
As-tested Bobbin Inspection Maps As-tested -i~PointTMHot Leg Tubesheet Inspection Maps As-tested +PointTM Special Interest Inspection Maps Tubes Containing Secondary Side Foreign Wear Tubes Containing Anti-Vibration Bar Wear Tubes Containing Preheater Wear Tubes Repaired During A2R12
Attachment A Personnel Certifications
TABLE A.1 A2R12 Data Acquisition Personnel Certifications No.
Name Company Level QDA (V/N) 1 Brown, W.
TMP/Hudson II N
2 Mantich, S.
TMP/Hudson II N
3 Bradley, G.
Westinghouse II N
4 Evering, D.
Westinghouse II N
5 Fore, S.
Westinghouse II N
6 Gault, W.
Westinghouse II N
7 Miller, G.
Westinghouse II N
8 Reif, D.
Westinghouse II N
9 Scott, A.
Westinghouse II N
10 Shipley, E.
Westinghouse II N
11 Smith, D.
Westinghouse II N
12 Tedrick,J.
Westinghouse II N
13 Walsh, M.
Westinghouse II N
TABLE A.2 A2R12 Data Analysis Personnel Certifications No.
Name Company Level QDA (V/N) 1 Ostler, E.
Young IIA V
2 Humphrey, R.
Consumers Ill V
3 Nadinic, B.
HRID III V
4 Todev,l.
HRID IIA V
5 Tsankov,M.
HRID IIA V
6 Zerovnik, V.
HRID IIA V
7 Zunac, D.
HRID IIA V
8 Herold, M.
Infineddy IIA Y
9 Hill, J.
Infineddy III V
10 Ingenthron, J.
Infineddy IIA V
11 Rush, S.
Infineddy III V
12 Salton, J.
Infineddy Ill V
13 Kajari, I.
Master-Lee IIA V
14 Padgett, L.
Master-Lee IIA V
15 Rehak, R.
Master-Lee lIA Y
16 Black, C.
NDE Tech III V
17 Brown, M.*
NDE Tech III V
18 Drumm, R.
NDE Tech Ill V
19 Grant, B.
NDE Tech Ill V
20 Lewis, C.
NDE Tech IIA V
21 Looper, R.
NDE Tech Ill V
22 Mast,M.
NDETech Ill V
23 Sheldon, J.
NDE Tech Ill V
24 Skirpan, J.
NDE Tech IIA V
25 Stokke, T.
NDE Tech III V
26 Gutierrez, M.
Tencnatom IIA V
27 Krajcovic, R.
Tencnatom IIA V
28 Martinez, A.
Tencnatom III V
29 Salvador, S.
Tencnatom Ill V
30 Villanueva, F.
Tencnatom Ill V
31 Bowser, C.
Westinghouse III V
32 Popovich, R.
Westinghouse Ill V
33 Terning, G Westinghouse Ill V
34 Vaklich, D.
Westinghouse III V
35 Childers, J.
Wiltec Ill V
36 Maullar, K.
Wiltec Ill V
37 Calendar, D.
Young IIA V
38 Circosta, S.
Young Ill V
39 Ethridge, G.*
Young Ill V
40 Gray, W.
Voung Ill V
41 Hover, L.
Voung Ill V
42 Stewart, K Young IIA V
- Independent Qualified Data Analyst
FIGURE A.1 Westinghouse Model D-5 Tube Support Plate Configuration 05C 04 C 03C 02C o1C TSC TEC Feedwate r Inlet AV2 iW3 Anti~vib ration bars lic 1111 1OH 09H 08H IOC 09C 01H OBC 07C 05H 06C 03H 01 H TSH TE H U 01lIe M~nway
Attachment B Inspection Scope I Results
Attachment B.1 As-tested Bobbin Inspection Maps
SG-A HOT LEG.610 BOBBIN INSPECTION AS TESTED Braidwood A2R12 CDE D5 x 4059 TESTED TEC THROUGH TEH n
4 TESTED lic THROUGH TEH a
57 PLUGGED TUBE 110 105 100 95 90 85 80 75 70 65 60 55 50 45 40 35
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56 2.47 177 DNT P1 07C
~,28 11C TEC
.610 SBACC 4
Cf
+--+
+-_-+--+
+
+-_+
+
+__--+--.,+--+--+
-+
I ROW COL VOLTS DES INO PER CHN LOCN INCH1 INCH2 I
CRLEN CRWID CEG BEST ENOT P014 PTYPE CAL Lf
+
+
+,-+
+
+-.-,+----+,---+
+_+
1
55 A
Special Interest
+Point Inspection Results Braidwood 2
A2R12 COE 20061001 10/26/2006 10:40:16 I
ROW CDL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 I
CRLEU CRWID CEG BEST ENDT PDIA PTYPE CAL Lf
+--,-÷_,--÷----+----+----+
+
+--+
+
+----÷----÷---.+
+
+
+--+
I 1
56 3,73 175 OUT P1 07C
.75 1IC TEC
.610 SBACC 4
CI I
1 56 NOF 2
07H
.69 07H 07H
.610 ZPSNM 83 Hf I
1 56 4,19 177 OUT P1 07H 75 11C TEH
.590 580CC 107 Hf 3
56 NOD 1IC TEC 610 SBACC 4
Cf 3
56 NOF 2
07H
-.44 07H 07H
.610 ZPSNM 83 Hf I
3 56 NOF 2
07H
.57
07H 07H
.610 ZPSUP4 83 Hf I
3 56 5,26 177 OUT P1 07H
-.30 1IC TEH
.590 SBUCC 107 H)
I 3
56 2.96 179 OUT P1 07H
.75 11C TEH
.590 S8UCC 107 Hf 17 56 2.40 166 DUG P1 1OH 32.84 TEC TEH
.610 ZBAZC 39 Hf I
17 56 16.07 178 DUG P1 10H 33,94 TEC TEH
.610 ZBAZC 39 H)
I 17 56
.65 29 OFS 1
10H 36.44 TEC TEH
.610 ZBAZC 39 HI I
17 56 4.49 176 DUG P1 10C 33.88 TEC TEH
.610 ZBAZC 39 Hf I
17 56 NOF 2
10H 33.76 10H 11H
.610 ZPSNM 83 Hj 1
57 NOD 11C TEC
.610 584CC 4
Cf I
1 57 NOF 2
03H
-.34 03H 03H
.610 ZPSNM 83 Hf I
1 57 NOF 2
03H
.72 03H 03H
.610 ZPSNM 83 H)
I 1
57 NOD 11H 11C
.580 ZPUM1 89 H)
I 1
57 6.05 178 OUT P1 03H
-.21 11C TEH
.590 S8UCC 107 H)
I 1
57 3.90 178 OUT P1 03H
.75 11C TEH
.590 S8UCC 107 H)
I 1
57 2.22 176 OUT P1 05H
.75 11C TEH
.590 SBUCC 107 H)
I 1
57 13.61 179 OUT P1 07H
-.23 11C TEH
.590 SBUCC 107 H)
I 1
57 740 180 OUT P1 07H
.75 11C TEH
.590 SBUCC 107 H) 3 57 NOD 11C TEC
.610 SBACC 4
C)
I 3
57 UDF 2
07H
-.48 07H 07H
.610 ZPSNM 83 H) 3 57 NOF 2
07H
.59 07H 07H
.610 ZPSNM 83 H)
I 3
57 696 178 OUT P1 07H
-.33 I1C TEH
.590 SBUCC 107 H) 3 57 3.92 178 OUT P1 07H
.71 11C TEH
.590 S8IJCC 107 H) 3 58 NOD 11C TEC
.610 SBACC 4
Cf 3
58 NOF 2
07H
.44 07H 0Th
.610 ZPSNM 83 H) 3 58 NOF 2
07H
.63 07H 07H
.610 ZPSNM 83 H) 3 58 4.28 178 DNT P1 07H
-.30 1IC TEH
.590 SBUCC 107 H) 3 58 4.40 181 OUT P1 07H
.74 11C TEH
.590 SBUCC 107 Hf 33 67 10.08 180 DUG P1 10H 41.66 TEC TEH
.610 SBACC 21 Hf 33 67 58 158 DFS 1
10C 39.93 TEC TEH
.610 SBACC 21 H) 33 67 2.20 172 DUG P1 1OC 41.06 TEC TEH
.610 S8ACC 21 Hf 33 67 NOF 2
1IH
-1.42 11H I1H
.610 ZPSNM 83 H) 10 68 NOD TEC TEH
.610 SBACC 91 H) 10 68 NOD 05H 05H
.610 ZPSNM 119 H) 11 68 NOD TEC TEH
.610 SBACC 91 H) 11 68 NOD 05H 05H
.610 ZPSNM 119 H) 12 68 NOD TEC TEH
.610 SBACC 91 Hf 12 68 NOD 05H 05H
.610 ZPSNM 119 H) 13 68 NOD TEC TEH
.610 SBACC 91 Hf 13 68 NOD 05H 05H
.610 ZPSNM 119 H) 14 68 NOD TEC TEH
.610 SBACC 91 H) 14 68 NOD 05H 05H
.610 ZPSNM 119 Hf 10 69 NOD TEC TEH.
610 SBACC 93 Hf 10 69 NOD 05H 05H
.610 ZPSNM 119 H) 11 69 WOO TEC TEH
.610 SBACC 93 HI 11 69 NOD 05H 05H
.610 ZPSNM 119 Hf 12 69 1.22 62 14814 6
09C 22.42 TEC TEH
.610 SBACC 93 HI 12 69 NOD 05H OSH
.610 ZPSNM 119 Hf 13 69 NOD TEC TEH
.610 SBACC 93 Hf 13 69 NOD 05H 05H
.610 ZPSNM 119 Hf 14 69 NOD TEC TEH
.610 SBACC 93 Hf 14 69 NOD 05H 05H
.610 ZPSUM 119 Hf 10 70 NOD TEC TEH
.610 SBACC 91 Hf 10 70 NOD 05H 05H
.610 ZPSUM 119 Hf 11 70 1.57 77 MBM 6
08H 39,49 TEC TEH 610 SBACC 91 Hf 11 70 NOD 05H 05H
.610 ZPSNM 119 H) 12 70
.22 134 OSI P1 05H
-.63 TEC TEH
.610 SBACC 91 Hf
+--++_,-÷----+.---+
+
+-.+
+
+-_-+-__+-_--+
+--_-+
+-.+
ROW CDL VOLTS DES INO PER CHN LOCU INCH1 IUCH2 I
CRLEN CRWIO CEG BEGT ENOT POIA PTYPE CAL LI
++_+-.--+_-_+---+
+
+--+
+
÷,-.-+-_--+,--.+_-_--+
+--÷ 2
55 A
Special Interest +Point Inspection Results Bra idwood 2
A2R12 COE 20061001 10/26/2006 10:40:16
-+--+
I ROW COL VOLTS DES IWO PER CHU LOCU INCH1 INCH2 I
CRLEN CRWIO CEG BEGT ENOT PDIA PTYPE CAL Lf
+
+
+----+----÷----+----+----+
÷
+--+
+
+----÷----+----+
÷
÷ I
12 70 1.56 67 14814 6
02C 6.68 TEC TEH
.610 SBACC 91 Hf I
12 70
.10 71 SVI 2
05H
-.73 05H 05H
.610 ZPSNM 117 H) 12 70
.13 257 PCT 16 2
05H
-.77
.00 1.18 180 05H 05H
.610 ZPSUM 119 Hf I
12 70
.13 73 PlO 2
05H
-.62 05H 05H
.610 ZPSNM 119 H) 13 70 UDO TEC TEH
.610 SBACC 91 Hf I
13 70 NOD
05H 05H
.610 ZPSNM 119 Hf 14 70 NOD TEC TEH
.610 S8ACC 91 Hf I
14 70 NOD 05H 05H
.610 ZPSUM 119 H) 10 71 1.75 187 INR 1
03H 17.41 TEC TEH
.610 SBACC 93 Hf I
10 71 1.83 186 INR 1
05H 10.48 TEC TEH
.610 SBACC 93 H)
I 10 71 NOD 05H 05H
.610 ZPSNM 119 H) 11 71 NOD TEC TEH
.610 S8ACC 93 Hf I
11 71 NOD 05H 05H
.610 ZPSNP.1 119 H) 12 71 NOD TEC TEH
.610 SBACC 93 Hf I
12 71 NOD 05H 05H
.610 ZPSNM 119 H) 13 71 NOD TEC TEH
.610 SBACC 93 Hf I
13 71 NOD 05H 05H
.610 ZPSNM 119 H) 14 71 NOD TEC TEH
.610 SBACC 55 H) 14 71 NDD 05H 05H
.610 ZPSNM 119 H) 33 71 5.38 179 DUG P1 10H 40,45 TEC TEH
.610 SBACC 21 H)
I 33 71 3.69 177 DUG P1 10H 40.77 TEC TEH
.610 SBACC 21 H)
I 33 71 NOD TSH TSH
.610 ZPSNM 69 H) 33 71 NOF 2
11H
-2.57 11H 11H
.610 ZPSUM 83 H) 43 71 2.95 172 OUT P1 11H
.46 TEC TEH
.610 SBACC 21 H) 1 43 71 2.25 0
PCT 26 P2 AVI
.00 TEC TEH
.610 S8ACC 21 H)
I 43 71 3.57 0
PCT 32 P2 AV2
.30 TEC TEH
.610 SBACC 21 H) 43 71 1.65 0
PCT 22 P2 AV3
-.05 TEC TEH
.610 SBACC 21 H) 43 71 NOD TSH TSH
.610 ZPSNM 71 H) 43 71
.58 125 VOL P1 AVI
-.01 11H AV1
.580 ZPUNM 99 H) 10 72 NOD TEC TEH
.610 SBACC 57 Hf 10 72 NOD 05H 05H
.610 ZPSUM 119 Hf 11 72 NOD TEC TEH
.610 SBACC 57 H) 11 72 NOD 05H 05H
.610 ZPSNM 119 H) 12 72 NOD TEC TEH
.610 SBACC 57 H) 12 72 NOD 05H 05H
.610 ZPSNM 119 H) 13 72 NOD TEC TEH
.610 SBACC 53 Hf 13 72 NOD 05H 05H
.610 ZPSNM 119 H) 14 72 NOD TEC TEH
.610 SBACC 53 Hf I
14 72 NOD 05H 05H
.610 ZPSNM 119 H) 37 73
.86 0
PCT 14 P2 AV1
.00 TEC TEH
.610 SBACC 21 H) 37 73 3.12 0
PCT 30 P2 AV2
.00 TEC TEH
.610 SBACC 21 H) 37 73 1.34 0
PCT 19 P2 AV3
.00 TEC TEH
.610 SBACC 21 H) 37 73 1.30 0
PCT 19 P2 AV4
.00 TEC TEH
.610 S8ACC 21 H) 37 73
.39 139 VOL P1 AV1
.01 hR AV2
.580 ZPUI4H 99 Hf 37 73 1.08 135 VOL P1 AV2
.04 11H AV2
.580 ZPUNM 99 H) 48 73 1.38 71 14614 6
03H 23.35 TEC TEH
.610 ZBAZC 23 Hf I
48 73
.48 79 DFS 1
05H 28.47 TEC TEH
.610 ZBAZC 23 H)
I 48 73 1.96 70 1461-I 6
07H 8.80 TEC TEH
.610 ZBAZC 23 H)
I 48 73 310 80 14614 6
07C 6.47 TEC TEH
.610 ZBAZC 23 Hf I
48 73 UOF P1 05H 28.47 05H 07H
.610 ZPSNM 81 Hf 45 85 3.37 0
PCT 32 P2 AV2
.00 TEC TEH
.610 ZBAZC 43 Hf I
45 85 2.79 79 14814 6
09C 5.16 TEC TEH
.610 ZBAZC 43 H)
I 45 85
.24 133 VOL P1 AV1
-.01 11H AV2
.580 ZPLINM 99 H) 1 45 85
.66 128 VOL P1 AV2
.06 I1H AV2
.580 ZPUNM 99 Hf 1
93 NOD IIC TEC
.610 SBACC 6
Cf I
1 93 NOF 2
07H
-.27 07H 07H
.610 ZPSNM 83 Hf I
1 93 NOD I1H 11C
.580 ZPUM1 89 Hf I
1 93 5.16 175 OUT P1 07H
-.31 11C TEH
.590 580CC 105 Hf 1
93 5.62 172 OUT P1 07H
.74 I1C TEH
.590 SBUCC 105 H) 1 95 NOD 11C TEC
.610 SBACC 6
Cf I
1 95 NOF 2
07H
-.24 07H 07H
.610 ZPSNM 83 HI
+_-.+-_-+--_-+_-+----+
+
+--÷
+
+----+-.--+--..+
+
+
I ROW CDL VOLTS DES IND PER CHN LOCU INCH1 IUCH2 I
CRLEN CRWID CEG BEST [NOT POIA PTYPE CAL L)
+---+
+_--+.---+
+
+
+
+----+---.+--,-+
+
3
SG A
Special Interest +Point Inspection Results Bra idwood 2
A2R12 CDE 20061001 10/26/2006 10~40~16 C)
H)
H)
H)
H)
H)
H)
H)
H)
H)
Hf H)
H)
H)
H)
H)
Hf Hf H)
H)
H)
H)
H)
H)
H)
H) 11 113 3.08 175 OUT P1 10H
-.48 TEC TEH
.610 SBACC 59 H)
I 11 113 2.58 178 OUT P1 10H
.53 TEC TEH
.610 SBACC 59 H) 11 113 6.67 179 OUT P1 11H
-.51 TEC TEH
.610 S8ACC 59 H) 11 113 6.40 180 OUT P1 11C
-.37 TEC TEH
.610 SBACC 59 H)
I 11 113 5.05 178 OUT P1 11C
.62 TEC TEH
.610 SBACC 59 H) 11 113 NOF 2
11H
-.41 11H 11H
.610 ZPSNM 83 H)
÷,---+----+
+----+
+
+--+
+
+----+----÷----+
+
+
I ROW CDL VOLTS DES IND PER CHU LOCU IUCH1 IUCH2 I
CRLEN CRWID CEG BEST ENOT POIA PTYPE CAL L)
+----+---+----÷----+---+
+
+--+
+
÷----+----+----+
+
+
I 1
95 5.15 177 OUT I
1 95 7.05 176 OUT P1 07H P1 07H
+----+----+----+----+----+
+
+--+
+
+
÷----+
+
+
I ROW COL VOLTS DES INO PER CHU LOCU INCH1 INCH2 I
CRLEN CRWIO CEG BEST ENOT POIA PTYPE CAL LI
+----+----+----÷----+----+
÷
+--+
+
+----+----+----+
+
+
-.30
.74 NOD NDF NDF 4.12 177 OUT 5.95 177 OUT 2
07H
-.38 2
07H
.68 P1 07H
-.22 P1 07H
.75 11C TEH
.590 SBUCC 1IC TEH
.590 SBUCC I1C TEC 07H 07H 07H 07H 11C TEH 11C TEH
.610
.610
.610
- 590
.590 SBACC ZP SNM ZP SNM S8UCC S8UCC 105 Hf 105 Hf 4
C) 83 H) 83 H) 107 H) 107 Hf 51 Hf 51 Hf 81 HI 2
95 2
95 2
95 2
95 2
95 28 103 28 103 28 103 23 105 23 105 23 105 23 105 23 105 23 105 23 105 9
113 9
113 9
113 9
113 9
113 9
113 9
113 9
113 9
113 9
113 10 113 10 113 10 113 10 113 10 113 10 113 10 113 10 113 10 113 TEC TEH
.610 S8ACC TEC TEH
.610 SBACC 01H 01H
.610 ZPSNM
.21 101 DSS P1 01H
.16
.77 76 14814 6
02C 7.81 NOF 2
01H
.16 NOF 2
05C
-.34 114 OSS P1 05C
-.34 75 14814 6
04C 9.18 PBC 79 14614 6
04C 9.05 P8C 108 OSS Ph 05C
-.24 176 OUT Ph 10H
-.42 178 OUT P1 10H
.51 181 OUT P1 11H
-.51 177 OUT P1 11H
.59 179 OUT P1 11C
-.32 180 OUT P1 11C
.65 NOF 2
10H
-.43 NDF 2
10H
.60 NOF 2
11H
-.41 NDF 2
I1H
.54
.30 2.32 2.30
.25 3,59 3.13 6.84 3.61 4.72 5.12 1. 42 3.48 2 - 02 4.64 3.87 3.89 3.68 72 176 176 178 179 177 175 05C 05C
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 10H 1OH
.610 10H 1BH
.610 11H 11H
.610 1IH 11H
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 TEC TEH
.610 10H 10H
.610 I1H 11H
.610 14814 OUT OUT OUT OUT OUT OUT NOF NOF ZPSNM SBACC S8ACC S8ACC SBACC S8ACC SBACC SBACC SBACC S BACC SBACC SBACC SBACC ZPSNM ZP SNM ZP SNM ZPSNM SBACC SBACC SBACC SBACC S8ACC SBACC S8ACC ZPSUM ZPSNM 6
07H P1 1OH Ph 10H P1 I1H P1 11C P1 11C P1 10C 2
10H 2
I1H 2
51 51 93 93 97 97 59 59 59 59 59 59 83 83 83 83 59 59 59 59 59 59 59 83 83 4-44
-.37 59
-.51
-. 32
.70
-.34
-.30
-.44 4
Tubes>
64 Records>
225
- B SPECIAL INTEREST +POINT INSPECTIONS Braidwood A2R12 CDE 05 X 35 TUBE TESTED FOR SPECIAL INTEREST WITH
+POINT PROBE SEE LIST FOR LOCATION(S)
TESTED a 48 PLUGGED TUBE 10 105 100 95 90 C)000 0C)C)C) 0000 C)000 C)C)0C) 0000 0000 0
105 100 95 90 85 80 75 70 65
- - - ci a
ann an C)
C)
C) 85 80 75 70 65 60 aooo 0000 0000 0000 0000 0
a a-ann an C)
C) 0 C)
C)
C) x x--.
0 55 50 45 40 35 30 25 20 15 10 C)OXX X000 0000 0000 000a 5
45 40 35 30 25 20 15 10 5
U-an an 00 C)
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anx
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C)
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a-.-.-a-C)000 C3--n3 a-.
-a--a-
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a-a--a--.-
C)C)C)
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a-a-~.-a-
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-a-.-.-.~-
C)
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K C)
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(C C)
C) 00 45 40 35 30 25 20 15 10 5
0-a-C)--.
C) a - -
0000 0000Cp0000 0000 0C)XX 0000 0000 6
55 50 0000 45 0000 000C) 0000 40 35 30 00)) C) 25 0000 0000 0000 000X 20 15 10 Westiaghoase Electric company LLC - STMU 10/26/2008 17:03:50
SG B
Special Interest +Point Inspection Results Braidwood 2
A2R12 CDE 20061001 10/26/2006 16~40~23 19 23 19 23 19 23 35 34 35 34 35 34 35 34 35 34 35 34 35 34 6.57 183 OUT P1 hR NOD UDF 2
11H 3.40 183 DUG P1 05H 2.76 182 DUG Ph 05H 2.73 183 DUG Ph 05H NOD UOF 2
05H UDF 2
05H UDF 2
05H
-.68
- _44 19.51 26.66 33.78 19.69 26.75 33.78
-. 34
.00
-.59 11 Hj 11 H) 11 H) 65 H) 79 H) 79 H) 79 H) 2 C) 5 H) 99 H) 103 HI 49 49
.30 79 VOL 49 49 2.11 184 OUT 49 49 3.27 185 OUT 49 49 21 0
RWS 49 49 P8C 49 49 PBC 49 49
.17 0
.30
.22
-.30
~00
.03
.00 03C 03C
.610 ZPSUM 2
C)
TEC TEH
.610 ZBAZC 5
H)
TSH TSR
.610 ZPSUM 73 H)
TEC TEH 610 S8ACC 99 H)
TEC TEH
.610 SBACC 103 H) 02C 02C
.610 ZPSNM 2
C)
TEC TEH
.610 ZBAZC 3
H)
TEC TEH
.610 ZBAZC 3
Hf TSH TSH
.610 ZPSNM 79 H)
TEC TEH
.610 ZBAZC 27 Hf 09H 1OH
.610 ZPSUM 79 H) 2 Cf 25 Hf 25 Hf 25 Hf 101 Hf 103 H) 103 HI 49 51
.20 86 VOL 2
.57 TSC TSC
.610 ZPSUM 2
Cf I
49 51
.19 74 PCT 21 2
.61
.30
.37 56 TSC TSC
.610 ZPSUM 2
Cf
+----+----+----+
+
+
+--+
+
+----+----+----+
+
+
I ROW CDL VOLTS DES IUD PER CHU LOCU IUCH1 INCH2 I
CRLEU CRWID CEG BEST ENOT PDIA PTYPE CAL LI
÷----+----+----÷
+
+
+--+
+
+----+----+----+
+
+
+----+----+
+----+----+----+----+----+
+
+--÷
+
+----+----÷----+
+
+
ROW CDL VOLTS DES IWO PER CHU LOCU IUCH1 IUCH2 I
CRLEN CRWID CEG BEST EUDT PDIA PTYPE CAL Lf
+----+----+----+----+----+
+
+
+
+----+----+----+
+
+
11C TEC
.610 SBACC I1C TEH
.610 ZBAZC TEH TEH
.610 ZPSUM 11H 11C
.580 ZPUMI NOD NOD NOD NOD 2.48 173 DUG UDF 2.85 175 DUG 8.29 178 DUG 1.90 179 INR NOF UDF P1 10H 26.86 2
10H 26.84 1
1 1
1 1
1 1
1 19 12 19 12 6
18 6
18 6
18 6
18 6
18 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 37 20 TEC TEH
.610 ZBAZC 1OH 11H
.610 ZPSNM 2.05 2.00 2.39 2.10 2.16 1,98 2.59 2.14 2.70 2.32 2.34 2.58 2.48 2.57 2.24 2.63 2.25 2.70 2.43 2.36 P1 10H P1 1OH Ph hOC 2
10H 2
10H P1 05H P1 07H P1 07H P1 07H P1 07H P1 08H P1 08H P1 08H P1 08H P1 08H P1 08H P1 08H Ph 09H P1 09H Ph 09H P1 09H Ph 09H P1 09H P1 09H P1 1OH 2
08H 2
09H 2
09H 181 INR 183 IUR 181 IUR 182 INR 182 IUR 182 INR 183 INR 184 INR 182 IUR 182 INR 182 IUR 183 INR 182 INR 182 INR 185 INR 184 INR 183 INR 183 INR 183 INR 183 INR NOF NOF UDF 35,97 37.26 38.95 35.92 36.99 33.67 16.21 22.37
- 28. 56 34.61 3-97 10.17 16.42 22.53 28.70 34.87 41.01 4.19 10.37 16.47 22.82
- 28. 94 35.18 41.28 4,33 22.78 22.73 35.05 8
C) 29 Hf 69 H) 91 Hf 19 H) 83 H) 23 Hf 23 H) 23 H) 79 H) 79 H) 15 Hf 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 15 H) 83 H) 83 H) 83 H)
TEC TEH TEC TEH TEC TEH 10H 11H 10H hR TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TELl TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TELl TEC TEH 08H 10H 08H 1OH 08H 1OH
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610
.610 ZBAZC ZBAZC ZBAZC ZPSUM ZP SNM ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZBAZC ZPSNM ZPSUM ZPSUM TEC TEH
.610 ZBAZC 13 H
TSH TSH
.610 ZPSNM 67 H
hlH 11H
.610 ZPSUM 79 H
47 39
.17 99 VOL 2
03C 47 39
.79 0
RWS P2 03C 47 39 PBC 47 39
.14 0
PCI 3
P5 03C TEC TEH
.610 ZBAZC TEC TEH
.610 ZBAZC TEC TEH
.610 ZBAZC TSR TSR
.610 ZPSUM 05H 07H
.610 ZPSUM 05H 07H
.610 ZPSUM 05H 07H
.610 ZPSUM 47 41 47 41 47 41 47 41 47 41 24 46 24 46 31 46 31 46
.10 123 VOL
.79 0
RWS NOD opt-
.14 0
.15 73 PLP NDD 4.35 66 OTS NDF 03C 03C
.610 ZPSUM TEC TEH
.610 ZBAZC TEC TEH
.610 SBACC TEC TEH
.610 SBACC 2
03C P2 03C 6
P2 03C 11 02C P4 TSR 2
TSH
.26
.39
- 00
.00 28 47 5.08 184 DUG 28 47 NOF Ph 09H 7.90 2
09H 7.90 2
05C Ph AV2 Ph AV3 P2 05C 3
P5 05C
-.48 05C 05C TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH
.610 ZPSNM
.610 ZBAZC
.610 Z8AZC
.610 ZBAZC
.610 SBACC
.610 SBACC
.610 SBACC 1
SG B
Special Interest ÷Point Inspection Results Bra idwood 2 A2R12 CDE 20061001 10/26/2006 164023
+--.-+----+----+----+----+
+
+--+
+
+
+----+
+
+
I ROW CDL VOLTS DEG IUD PER CHU LOCN IUCH1 INCH2 I
CRLEN CRWID CEG BEST ENDT PDIA PTYPE CAL LI
+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
I 49 51 2.89 186 OUT Ph AV3
.00 TEC TEH
.610 ZBAZC 25 H)
I 49 51 1.46 80 INR 6
07C 3.44 TEC TEH
.610 ZBAZC 25 H) 1 49 51
.29 116 DES 1
.66 TEC TEH
.610 ZBAZC 25 H) 49 52
.23 252 PCT 23 2
.44
.19
.42 64 TSC TSC
.610 ZPSNM 2
C)
I 49 52
.22 90 VOL 2
.49 TSC TSC
.610 ZPSUM 2
Cf I
49 52
.45 83.
PCT 36 2
.96
.30 55 84 TSC TSC
.610 ZPSUM 2
C)
I 49 52
.45 83 VOL 2
.610 ZPSUM 2
C)
I 49 52 2.60 180 OUT Ph AV2
-.02 TEC TEH
.610 ZBAZC 27 Hf 49 52 2,78 180 OUT Ph AV3 12 TEC TEH
.610 ZBAZC 27 H)
I 49 52 2.17 179 OUT Ph AV4
-.06 TEC TEH
.610 ZBAZC 27 H) 49 52
.23 154 OFS 1
.50 TEC TEH
.610 ZBAZC 27 H)
I 49 52
.94 145 DFS 1
TSC 1,10 TEC TEH
.610 ZBAZC 27 H) 8 53
.17 81 PIP 11 02C 33 02C 02C 610 ZPSUM 2
Cf I
8 53 NOD TEC TEH
.610 ZBAZC 3
H) 35 53 1.91 181 IUR Ph 08H 3.40 TEC TEH
.610 ZBAZC 27 Hf I
35 53 2.28 182 DUG Ph 08H 3.72 TEC TEH
.610 ZBAZC 27 H) 35 53 NOD TSR TSR
.610 ZPSUM 73 H)
I 35 53 UDF 2
08H 3.73 08H 09H
.610 ZPSNM 79 H) 20 54 3.19 187 DUG Ph 09H 11,45 TEC TEH 610 ZBAZC 1
H)
I 20 54 1.95 191 INR P1 TSC 1,42 TEC TEH
.610 ZBAZC 1
H) 20 54 WOE 2
09H 11,32 09H 10H
.610 ZPSNM 83 H) 2 55 NOD 11C TEC
.610 SBACC hO C) 2 55 3,01 178 OUT Ph 05H
-24 hhC TEH 610 ZBAZC 33 H)
I 2
55 2.71 178 OUT P1 05H
.75 11C TEH
.610 ZBAZC 33 H)
I 2
55 NDF 2
05H
.69 05H 05H
.610 ZPSUM 81 H) 2 55 NOD hhH hhC
.580 ZPUM1 97 H) 1 56 NOD lhC TEC
.610 SBACC 12 C)
I 1
56 3.90 177 OUT Ph 05H
-.20 11C TEH
.610 ZBAZC 35 H) 1 56 4.90 178 OUT Ph 05H 75 11C TEH
.610 ZBAZC 35 H)
I 1
56 1.01 73 MBM 6
08H 4.66 hIC TEH
.610 ZBAZC 35 H)
I 1
56 NDF 2
05H
.75 05H 05H
.610 ZPSNM 81 H) 1 57 NOD hhC TEC
.610 SBACC 12 C) 1 57 5.88 177 OUT Ph 05H
-.20 hlC TEH
.610 ZBAZC 35 H) 1 57 7.99 178 OUT Ph 05H 73 11C TEH 610 ZBAZC 35 H) 1 57 NOF 2
05H
-.22 05H 05H
.610 ZPSUM 81 H) 1 57 UDF 2
05H
.72 05H 05H
.610 ZPSUM 81 H) 1 57 NOD 1111 11C
.580 ZPUM1 95 H) 10 60 10 72 PLP 11 02C
.33 02C 02C
.610 ZPSNM 2
C) 10 60 INF 02C
.53 TEC TEH
.610 SBACC 101 H) 46 70 2.61 176 DUG P1 10H 32.09 TEC TEH
.610 ZBAZC 39 H) 46 70 1.96 167 INR Ph 11H 51 TEC TEH 610 ZBAZC 39 H) 46 70 7,13 175 OUT Ph hR
.52 TEC TEH 610 ZBAZC 39 H) 46 70 WOO TSR TSH
.610 ZPSUM 71 H)
I 46 70 NOF 2
1OH 32,03 10H hR
.610 ZPSNM 79 H) 44 87 3.25 185 DUG Ph 08H 38.70 TEC TEH
.610 SBACC 45 Hf 44 87
.66 145 DFS 1
10H 35,85 TEC TEH
.610 SBACC 45 H) 44 87 10.59 181 DUG Ph 05C 2.86 TEC TEH
.610 SBACC 45 H) 44 87
.74 147 DES 1
02C 1.39 TEC TEH
.610 SBACC 45 H) 44 87 WOE 2
08H 38.54 08H 09H
.610 ZPSNM 79 H) 17 89
.80 166 DFS 1
05H 25.28 TEC TEH
.610 SBACC 63 H) 17 89 5.60 173 DUG Ph 09H 23.44 TEC TEH
.610 SBACC 63 H)
I 17 89 4.05 86 MOM 6
AV1 23.16 TEC TEH
.610 SBACC 63 H)
I 17 89 4.29 46 MBI4 6
AV4 447 TEC TEH
.610 SBACC 63 H) 17 89 3.11 91 14614 6
AV4 13.91 TEC TEH
.610 SBACC 63 H)
I 17 89 2.28 169 DUG Ph 08C 15.08 TEC TEH
.610 SBACC 63 H)
I 17 89 7.48 172 DUG Ph 03C 12.07 TEC TEH
.610 SBACC 63 H)
I 17 89 NOF 2
09H 23.61 09H lOLl
.610 ZPSUM 79 H) 17 90 25.59 187 DUG Ph 05H 27.15 TEC TEH
.610 SBACC 61 H)
I 17 90 4.30 65 14614 6
OSH 28.05 TEC TEH
.610 SBACC 61 H)
I 17 90
.11 122 DES 1
08C 15.51 TEC TEH
.610 SBACC 61 H) f 17 90 MOE 2
05H 27.06 05H 07H
.610 ZPSUM 79 Hf 27 91 2.82 177 DUG Ph 10H 33.50 TEC TEH
.610 SBACC 49 H)
I 27 91 11.54 186 DUG Ph 10H 34.47 TEC TEH
.610 SBACC 49 Hf I
27 91 4.41 183 DUG Ph AV4 21.38 TEC TEH
.610 SBACC 49 H)
I 27 91 NOF 2
1OH 34.53 10H 11H
.610 ZPSUM 79 H) 9 94 NOF 2
.00 TSC TSC
.610 ZPSUM 2
C)
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
I ROW COL VOLTS OEG INO PER CHU LOCU INCH?
IUCH2 I
CRLEN CRWIO CES BEST EUDT PDIA PTYPE CAL I)
+----+----+----+----+----+
+
+--+
+
+----+----+-.,-+
+
+
2
SG B
Special Interest +Potnt Inspection Results Braidwood 2 A2R12 COE 20061001 10/26/2006 16:40>23 6.70 49 OTS P4 TSC NOD 1
05H 22.12 1
05H 22.10 4.82 176 OUT Ph 07R
-.49 2.96 177 OUT P1 07H
.55 NOD NOF 2
07H
-.49 NOF 2
07H
.55 TEC TEH
.610 SBACC 61 H)
TSR TSR
.610 ZPSUM 77 Hf TEC TEH
.610 SBACC 53 H)
TSR TSR
.610 ZPSUM 77 H) 05H 07H
.610 ZPSN14 117 H)
SBACC 53 Hf SBACC 53 Hf ZPSNM 77 Hf ZPSNM 117 Hf ZPSUM 117 H)
TEC TEH
.610 SBACC 53 H
TEC TEH
.610 SBACC 53 H
07H 07H
.610 ZPSUM 79 H
TEC TEH
.610 SBACC TEC TEH
.610 SBACC 07H 07H
.610 ZPSNI-1 07R 07R
.610 ZPSUM TEC TEH
.610 SBACC TEC TEH
.610 SBACC 07H 07H
.610 ZPSUM 07R 07H
.610 ZPSUM
+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
I ROW COL VOLTS DES IWO PER CHU LOCU IUCHI INCH2 I
CRLEN CR1410 CEG BEST EUOT PDIA PTYPE CAL Lf
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
.28 149 DES NOD
.59 137 MBM
.00 9
94 9
94 28 103 28 103 28 103 27 105 27 105 27 105 27 105 27 105 28 105 28 105 28 105 30 105 30 105 30 105 30 105 25 106 25 106 25 106 25 106 26 106 26 106 26 106 26 106 27 107 27 107 27 107 27 107 27 107 6
113 6
113 6
113 TEC TER
.610 TEC TEH
.610 TSR TSR
.610 07R 07H
.610 07H 07H
.610 3.74 175 OUT P1 07H
-.49 2.92 177 OUT P1 07R 55 NOF 2
07H
.64 1.65 184 INR P1 03H
-.05 3.88 173 OUT Ph 07R
-.51 4.34 179 OUT Ph 07R
.51 NDF 2
07H
-.42 3.36 173 ONT Ph 07H
-.51 3.30 179 OUT Ph 07R
.51 NOF 2
07H
-.39 UDE 2
07H
.66 3.63 173 OUT Ph 07H
-.49 3.41 179 OUT Ph 07H 54 NOF 2
07H
-.42 WOE 2
07H
.61 4.50 173 OUT Ph 07H
-.49 2.91 178 OUT Ph 07H
.54
.81 64 DES 3
hR
.89 NOF 2
07H
-.42 WOE 2
07H
.67 4.75 191 DUG Ph 08H 20.79 16.09 185 DUG P1 hR 10.48 NOF 2
08H 20.79 TEC TEH
.610 SBACC TEC TEH
.610 SBACC TEC TEH
.610 SBACC 07H 07H
.610 ZPSNM 55 H) 55 H) 55 H) 81 H) 55 H) 55 H) 79 H) 79 H) 55 H) 55 H) 79 H) 79 H) 55 H) 55 H) 55 H) 81 H) 81 H) 57 H) 57 H) 79 H)
TEC TEC TEC 07H 07H TEH TER TER 07R 07H
.610
.610
.610
.610
.610 SBACC SBACC SBACC ZP SNM ZPSNM
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
ROW CDL VOLTS DES IWO PER CHU LOCN INCH1 IUCH2 I
CRLEN CRWID CEG BEST ENOT PDIA PTYPE CAL I)
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
.610 SBACC
.610 SBACC
.610 ZPSUM 3
Tubes>
35 Records>
167
39fl1 O3~9fl1d 9S a (1J1S3J.
oINOIIV3O1 dOl
~LSI1 338 i8Odd 1NLOd~ HuM ISJ)JIINI 1VI3JdS dOI (HISIL 18111 88 X
90 00.60 WOOCL/20I OWl J.0 - :311 ri000wOQ3)nl3)n)g m,nO40U)ln~)M 9G 3a3
~j~V pOOMp!eJg
~NOI I ~)Rd~Nt INJOd+ 1S~Thfl1NI1VIO~IdS 0-OS 01 91 0?
5?
BE SE 00 91 09 1
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a-k)
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99 02 92 08 98 06 96 001 501 0
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C C)
C))>
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a-a-
a-a-a-.-
a a-a-a- a-1)0 C)
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XX - -
C)
XX--
C XX
C)
C>
C C))
>0>) )>)
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a-a-s/I 0.
K)k)a a
.01, C
C)
-C) 0 0
.)
0X C) 0
,a-...4) 4 a-.--,
.a-a-a-a-a--a-a-K)
C) 0 0
C) j C)))
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0 aoo---
X
-a-a-U 0-----
-C) 0a----
~a.aa*a-s,sa-a..a-asaa.>))1 O
0 0
C CC))
C) 0 0
CCC)
K K
K)
K)
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47 a-.
a-a-a,..
a-.-,-
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a a>>
a...
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a C)))
a---
a a
X C)0 n*sa-a-a.
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a-aa-a
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>(f)
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59 09 99 02 92 08 98 06 56 001 501 011
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5?
--XX
- - xx
SG C
Special Interest
+Point Inspection Results Braidwood 2 A2R12 COE 20061001 10/27/2006 09>24>47 I
ROW COL VOLTS DES INO PER CHU LOCN IWCH1 IUCH2 I
CRLEN CRWIO CEG BEST EUDT PDIA PTYPE CAL L)
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
I 6
16 NOD TEC TEH
.610 ZBAZC 13 Hf 6
16 NOD 07H 07H
.610 ZPSUM 101 H)
I 7
16 NOD TEC TEH
.610 ZBAZC 15 Hf I
7 16 NOD 07H 07R
.610 ZPSUM 101 H)
B 16 NOD TEC TEH
.610 ZBAZC 13 Hf I
8 16 NOD 07H 07H
.610 ZPSNM 101 H) 9 16 NOD TEC TEH
.610 ZBAZC 19 H)
I 9
16 NOD 07H 07H
.610 ZPSNM 101 H) 10 16 NOD TEC TER
.610 ZBAZC 17 H)
I 10 16 NOD 07H 07H 610 ZPSNM 101 H) 6 17 NDD TEC TEH
.610 ZBAZC 13 H)
I 6
17 NOD 07H 07R
.610 ZPSNM 101 H) 7 17 NOD TEC TER
.610 ZBAZC 15 H)
I 7
17 NOD 07R 07H
.610 ZPSNM 101 H) 8 17 NOD TEC TEH
.610 ZBAZC 13 H) 8 17 NOD 07H 07H 610 ZPSNM 101 H) 9 17 NOD TEC TER 610 ZBAZC 19 H) 9 17 NOD 07H 07H 610 ZPSUM 101 H) 10 17 NOD TEC TEH
.610 ZBAZC 17 H) 10 17 NOD 07H 07R
.610 ZPSNM 101 H) 6 18 NOD TEC TEH
.610 ZBAZC 13 H) 6 lB NOD 07H 07H
.610 ZPSUM 101 H) 7 18 NOD TEC TER
.610 ZBAZC 15 H)
I 7
18 NOD 07H 07H
.610 ZPSUM 101 H)
B 18
.57 132 OSI Ph 07H
-.64 TEC TEH
.610 ZBAZC 13 Hf I
8 18
.14 108 PID 2
07H 74 07H 07H
.610 ZPSUM 85 H) 8 lB
.20 100 PCT 22 2
07H
-.81
.40
.47 72 07H 07H
.610 ZPSUP4 101 H)
I 8
lB
.13 86 SVI 2
07H
-.74 07R 07H
.610 ZPSUM 101 H) 9 18 NOD TEC TEH
.610 ZBAZC 19 H)
I 9
18 WOO 07H 07H
.610 ZPSUM 101 H) 10 18 WOO TEC TEH
.610 ZBAZC 17 H) 10 18 NOD 07H 07H
.610 ZPSUM 101 H) 6 19 WOO TEC TEH
.610 ZBAZC 13 H)
I 6
19 WOO 07H 07H
.610 ZPSUM 101 H) 7 19 5.81 172 DUG Ph hOC 32.41 TEC TER
.610 ZBAZC 15 H)
I 7
19 11,20 179 DUG Ph hOC 33.45 TEC TER
.610 ZBAZC 15 H)
I 7
19 WOO 07H 07R
.610 ZPSNM 101 H) 8 19 NOD TEC TER
.610 ZBAZC 13 Hf I
8 19 WOO 07H 07H
.610 ZPSNM 101 H) 9 19 NOD TEC TER
.610 ZBAZC 19 Hf I
9 19 WOO 07H 07H. 610 ZPSNM hOl Hf 10 19 NOD TEC TEH
.610 ZBAZC 17 Hf 10 19 NOD 07H 07R
.610 ZPSNM 101 Hf 12 19 2.44 173 DUG Ph h0H 7.81 TEC TER
.610 ZBAZC 17 H)
I 12 19 6.90 179 DUG Ph 1OH 8.89 TEC TER
.610 ZBAZC 17 Hf 12 19 3.51 179 DUG Ph 10H 9.28 TEC TER
.610 ZBAZC 17 H)
I 12 19 3.94 177 DUG Ph h0H 9.92 TEC TER
.610 ZBAZC 17 Hf I
12 19 2.85 177 DUG P1 h0H 10.94 TEC TER
.610 ZBAZC 17 H)
I 12 19 2.26 178 DUG P1 10H 26.86 TEC TER
.610 ZBAZC 17 H)
I 12 19 2.38 179 DUG P1 1OH 28.53 TEC TER
.610 ZBAZC 17 H)
I 12 19 2.78 179 DUG Ph 1OH 32.03 TEC TER
.610 ZBAZC 17 H) 12 19 3.66 175 DUG Ph 10H 35.36 TEC TEH
.610 ZBAZC 17 H) 12 19
.62 148 DFS 1
hOC 8.45 TEC TEH
.610 ZBAZC 17 Hf I
12 19
.68 143 DES 1
hOC 8.73 TEC TEH
.610 ZBAZC 17 H) 12 19 2.28 166 DUG Ph hOC 9.49 TEC TEH
.610 ZBAZC 17 Hf 12 19 4.51 175 DUG P1 hOC 33.06 TEC TER
.610 ZBAZC 17 H)
I 12 19 NOF 2
IOH 9.01 1OH hlH
.610 ZPSNM 85 Hf I
12 19 NOF 2
10H 949 10R lhH
.610 ZPSUM 85 Hf I
12 19 NOF 2
hOR 9,91 10H h1R
.610 ZPSUM 85 H) 1 12 19 NOF 2
10H 11.06 10H hR
.610 ZPSUM 85 H)
+----+
+---+---+
+
+--+
+
+---+----+----+
+
+
I ROW CDL VOLTS DES IWO PER CHN LOCN INCH1 INCH2 I
CRLEU CRWID CES BEST EUDT PDIA PTYPE CAL LI
+
+----+----+--+----+
+
+--+
+
+---+----+----+
+
+
SG C
Special Interest +Point Inspection Results Braidwood 2 A2R12 COE 20061001 10/27/2006 09>24>47
+----+-+----+----+----+----+----+-+-+-+----+-+-+-+-+--+
I ROW CDL VOLTS DES INO PER CHN LOCN INCH1 INCH2 I
CRLEU CRWID CES BEGT ENOT PDIA PTYPE CAL L)
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
I 12 19 UOF 2
10H 32.08 IOH 11H
.610 ZPSWM 85 H)
I 12 19 WOE 2
1OH 36.00 1OH hR
.610 ZPSNM 85 H) 21 19 NOD 02C 02C
.610 ZPSNM 4
C)
I 21 19 NOD TEC TEH
.610 ZBAZC 19 H) 22 19 NOD 02C 02C 610 ZPSNM 4
Cf I
22 19 NOD TEC TEH
.610 ZBAZC 17 H) 23 19 WOO 02C 02C
.610 ZPSUM 4
C)
I 23 19 NOD TEC TER
.610 ZBAZC 23 H)
I 1
20 2.68 172 OUT Ph 07C
-.64 11C TEC
.610 TBATC 12 C)
I 1
20 3,86 180 OUT P1 03H
-.29 hlC TEH
.610 ZBAZC 29 H)
I 1
20 6.90 179 OUT Ph 03R
.75 hlC TEH
.610 ZBAZC 29 H)
I 1
20 2.29 179 OUT Ph 05H
-.29 I1C TER
.610 ZBAZC 29 H)
I 1
20 4.15 177 OUT P1 05H
.75 1IC TER
.610 ZBAZC 29 H)
I 1
20 RBD lhC TER
.610 ZBAZC 31 H)
I 1
20 WOE 2
03H
-.58 03H 03R
.610 ZPSNM 83 H)
I 1
20 UDE 2
05H
.46 05H 05H
.610 ZPSUM 83 Hf 6
20 1.88 77 MBM 6
01H 4.47 TEC TEH
.610 ZBAZC 13 H) 6 20 1.69 83 MOM 6
07H 10.81 TEC TER
.610 ZBAZC 13 H)
I 6
20 1.94 82 11614 6
0BH 20.17 TEC TEH
.610 ZBAZC 13 H)
I 6
20 NOD 07H 07H
.610 ZPSNM 101 H) 7 20 NOD TEC TEH
.610 ZBAZC 15 Hf I
7 20 WOO 07H 07H
.610 ZPSNM 101 H)
B 20
.18 140 DFS 1
09H 4.27 TEC TEH
.610 ZBAZC 13 Hf B
20 1.98 86 MBM 6
09C 3.98 TEC TEH
.610 ZBAZC 13 H)
I B
20 NDD 07H 07R
.610 ZPSUM 101 H) 9 20 NOD TEC TER
.610 ZBAZC 19 H)
I 9
20 WOO 07H 07H
.610 ZPSNM 101 H) 10 20 NOD TEC TEH
.610 ZBAZC 17 H)
I 10 20 NOD 07H 07H
.610 ZPSUM 101 H) 21 20 WOO 02C 02C
.610 ZPSUM 4
C) f 21 20 WOO TEC TER
.610 ZBAZC 19 H) 22 20 WOO 02C 02C
.610 ZPSWM 4
Cf
)
22 20 NOD TEC TER
.610 ZBAZC 17 H) 23 20 NOD 02C 02C
.610 ZPSUM 4
C)
I 23 20 NOD TEC TEH
.610 ZBAZC 23 H)
I 21 21 NOD 02C 02C
.610 ZPSUM 4
Cf 21 21 NOD TEC TEH
.610 ZBAZC 19 H) 22 21 NOD 02C 02C
.610 ZPSUM 4
C) 22 21 NOD TEC TEH
.610 ZBAZC 17 H) 23 21 NOD 02C 02C
.610 ZPSNM 4
C)
I 23 21 NOD TEC TER
.610 ZBAZC 23 H) 5 37 NOE 2
06C
.33 06C 06C
.610 ZPSUM 4
Cf I
5 37
.27 123 OSS P1 06C
.30 TEC TEl,, 610 ZOAZC 11 H)
I 5
37
.32 148 OSS P1 06C
.33 TEC TER
.610 SBACC 107 H) 5 38 NOF 2
06C
.31 06C 06C
.610 ZPSNM 4
C)
I 5
38 RBD TEC TEH
.610 Z8AZC 11 H)
I 5
38 NOD TEC TER
.610 SBACC 107 Hf 43 43 NOD 02C 02C
.610 ZPSNM 4
C)
I 43 43 NOD TEC TEH
.610 ZBAZC 25 Hf 44 43 NOD 02C 02C
.610 ZPSUM 4
Cf I
44 43 NOD TEC TEH
.610 ZBAZC 27 Hf 45 43 NOD 02C 02C
.610 ZPSUM 4
C) 45 43 NOD TEC TEH
.610 ZBAZC 25 H) 43 44 NOD 02C 02C
.610 ZPSUM 4
Cf I
43 44 1,80 181 INR P1 AV2 20.06 TEC TEH
.610 ZBAZC 25 H) 44 44 1400 02C 02C
.610 ZPSUM 4
C)
I 44 44 NOD TEC TEH
.610 ZBAZC 27 Hf
+---+---+--+----+----+
+
+
+
+----+,--+----+
+
+
+
ROW COL VOLTS DES INO PER CHN LOCU IUCH1 INCR2 I
CRLEU CR1410 CEG BEST ENOT PDIA PTYPE CAL I)
+-+---+---+----+----+
+
+--+
+
+----+----+----+
+
+
2
SG C
Special Interest i-Point Inspection Results Bra idwood 2 A2R12 CDE 20061001 10/27/2006 09>24>47
-+--+
I ROW COL VOLTS DEG IND PER CHW LOCU IUCH1 IUCH2 I
CRLEW CRWIO CEG BEST EUDT POIA PTYPE CAL If
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
I 45 44 NOD 02C 02C
.610 ZPSNM 4
CI I
45 44 1.00 72 MOM 6
O9H 1.60 TEC TER
.610 ZBAZC 25 H) 25 45 NOD 02C 02C
.610 ZPSUM 4
Cf I
25 45 NOD TEC TER
.610 ZBAZC 7
H) 26 45 NOD 02C 02C
.610 ZPSNM 4
Cf I
26 45 NOD TEC TER
.610 ZBAZC 33 HI 27 45 NOD 02C 02C
.610 ZPSNM 4
C)
I 27 45 NOD TEC TEH
.610 ZBAZC 33 H) 43 45 NOD 02C 02C
.610 ZPSNM 4
C)
I 43 45 2.27 184 DUG P1 03H 21.08 TEC TEH
.610 ZBAZC 25 Hf I
43 45 1.86 182 IUR Ph AV2 21.13 TEC TEH
.610 ZBAZC 25 Hf 44 45 NOD 02C 02C
.610 ZPSUM 4
Cf I
44 45 NOD TEC TEH
.610 ZBAZC 27 H) 45 45 NOD 02C 02C
.610 ZPSUM 4
C)
I 45 45 NOD TEC TEH
.610 ZBAZC 25 H) 25 46 NOD 02C 02C
.610 ZPSUM 4
C)
I 25 46 NOD TEC TER
.610 ZBAZC 5
H) 26 46
.12 64 PIP 11 02C
.45 02C 02C
.610 ZPSNM 4
C)
I 26 46 2.32 243 INR 6
04C 2.25 TEC TER
.610 ZBAZC 35 H)
I 26 46 1.05 67 MBM 6
04C 5.21 TEC TEH
.610 ZBAZC 35 H) 27 46 NDD 02C 02C
.610 ZPSNM 4
C)
I 27 46 NOD TEC TEH
.610 ZBAZC 35 H) 1 47 NOD hhC TEC
.610 TBATC 12 C) 1 47 8.31 178 DUG Ph 09H 21.28 IIC TER
.610 ZBAZC 29 H)
I 1
47 2.41 52 MBM 6
10H 2.14 I1C TEH
.610 ZBAZC 29 H) 1 47 2.52 76 MBM 6
1OH 3.27 1IC TEH
.610 ZBAZC 29 H) 1 47 NOF 2
09H 21.88 09H 10H
.610 ZPSNM 83 H) 25 47 NOD 02C 02C
.610 ZPSUM 4
C) 25 47 NOD TEC TEH
.610 ZBAZC 5
H) 26 47 NOD 02C 02C
.610 ZPSUM 4
C) 26 47 WOO TEC TEH
.610 ZBAZC 33 H) 27 47 NDD 02C 02C
.610 ZPSUM 4
C) 27 47 1.23 87 DES 3
hhH
.62 TEC TEH
.610 ZBAZC 33 H) 1 54 NOD 11C TEC
.610 TBATC 10 C) 1 54 3.85 176 OUT P1 05H
-.31 11C TEH
.610 ZBAZC 29 H) 1 54 3.95 175 OWl Ph 05H
.73 hlC TEH
.610 ZBAZC 29 H) 1 54 NOD TSR TSH
.610 ZPSNM 65 H) 1 54 NOF 2
05H
-.39 05H 05H
.610 ZPSUM 81 H) 1 54 WOE 2
05H
.70 05H 05H
.610 ZPSNM 81 H) 11 54 2.43 185 ONG P1 01H 9.24 TEC TER
.610 ZBAZC 5
H) 11 54 2.23 183 DUG P1 0hR 12.63 TEC TER
.610 ZBAZC 5
H) 11 54 2.51 184 DUG Ph 01H 17.21 TEC TEH
.610 ZBAZC 5
H) 11 54 2.51 186 DUG Ph 03R 10.07 TEC TEH
.610 ZBAZC 5
H)
I 11 54 INE 11H 9.32 TEC TEH
.610 ZBAZC 5
H)
I 11 54 2.67 183 DUG Ph hR 10.64 TEC TEH
.610 ZBAZC 5
H)
I 11 54 WOE 2
TSR
-4.32 TSR TSR
.610 ZPSWM 67 H)
I 11 54 UDE 2
TSH
-4.10 TSR TSR
.610 ZPSNM 67 Hf I
11 54 NDF 2
O1H 17.08 01H 03H
.610 ZPSUM 81 H) 11 54 UDE 2
03H 10.07 03H 05H
.610 ZPSNM 121 H) 1 56 NOD hIC TEC
.610 TBATC 10 Cf I
1 56 11.38 179 OUT P1 05H
-.35 hlC TEH
.610 ZBAZC 29 H) 1 1
56 17.69 178 OUT P1 05H
.72 hIC TEH
.610 ZBAZC 29 Hf I
1 56 NOD TSR TSR
.610 ZPSUM 65 H) 1 1
56 UDE 2
05H
-.37 05H 05R
.610 ZPSNM 81 Hf I
1 56 UDE 2
05H
.72 05H 05H
.610 ZPSUM 81 H)
I 1
56 NOF 2
05H
-.37 05H 05H
.610 ZPSNM 85 Hf I
1 56 UDE 2
05H
.72 05H 05H
.610 ZPSUM 85 Hf I
1 56 NOD hhH lhC
.580 ZPUM1 97 H) 2 56 NOD 11C TEC
.610 TBATC 12 Cf 2
56 8.16 178 OUT P1 05H
-.25 1IC TEH
.610 ZBAZC 31 H)
I 2
56 7.17 176 OUT Ph 05H
.75 hlC TEH
.610 ZBAZC 31 Hf I
2 56 NOD TSH TSR 610 ZPSNM 67 Hf I
2 56 NDE 2
05R
-.18 05H 05H 610 ZPSNM 83 Hf
+---,+----+
+---+----+----+----+----+
+
+--+
+
+--+----+
+
+
ROW COL VOLTS DES IUO PER CR14 LDCU INCH1 IUCH2 I
CRLEW CRWID CEG BEST ENOT POIA PTYPE CAL If
+----+----+
+---+----+----+----+----+
+--+
+
+----+----+
+
+
+
3
SQ C
Special Interest
+Polnt Inspection Results Bra idwood 2 A2R12 COE 20061001 10/27/2006 09>24>47 2
56 h
57 NOD 1
57 2.95 177 OUT 1
57 6.86 177 OUT 1
57 WOO 1
57 NDF 1
59 NOD 1
59 UDF 1
59 UDF 1
59 NOD 1
59 2.17 175 OUT 1
59 4.89 175 OUT 49 59 WOE 49 59
.78 117 DES 1
60 NOD 1
60 NOF 1
60 NOF 1
60 3,93 177 OUT 1
60 7.63 176 OUT 44 60 1.42 97 VOL 44 60 4.97 0
PCI 44 60 6.92 0
PCI 44 60
.28 130 VOL 44 60 1.31 107 VOl 44 60 4.63 0
PlO 44 60 6.34 0
PlO 49 63 2.11 92 VOL 49 63 2.53 178 OUT 49 63 4.15 178 OUT 49 63 8.91 0
RWS 49 63 PBC 49 63 PBC 49 63 2.75 0
PCI 49 63 2.74 0
PlO 49 65 1.10 106 VOL 49 65 3.59 178 OUT 49 65 3.47 0
RWS 49 65 WOE 49 65 PBC 49 65 1.04 0
PCI 28 66
.30 61 OSS 28 66 NOD 28 66 WOE 21 70 NOD 21 70 WOO 22 70 NOD 22 70
.61 157 INR 23 70 NOD 23 70 NOD 6
71 3,04 173 DUG 6
71 NOF 21 71 NOD 21 71 NOD 22 71 NOD 22 71 NOD 23 71 NOD 23 71 NOD 21 72 NOD 21 72 NOD 21 72 WOE 22 72 NOD 22 72 NOD 22 72 NOD 2
05H
-.39 2
05H
.67 Ph 05H
-.32 Ph 05R
.74 1
AV3
.00 40 P2 AV2
.00 46 P2 AV3
.00 1
AV1
.00 1
AV2
.00 P2 AV2
.00 P2 AV3
.00 2
07C
.00 Ph AV3
-.05 Ph AV4
-.03 P2 07C
-.22 AV3
-.05 AV4
-.03 46 P5 07C
-.22 PS 07C
-.22 2
07C
-.45 Ph AV4
.03 P2 07C
-.11 2
TSR
-14.73 AV4
.03 27 P5 07C
-.25 P1 O1H
.22 2
OhH
.22 Ph TSR 3.97 2
TSR 3.97 NOE 2
05H
.73
+----+----+----+----+----+
+
+--+
+
+
+----+
+
+
I ROW CDL VOLTS DES IUO PER CHU LOCN INCH1 INCH2 I
CRLEU CRWIO CEG BEGI ENDI PDIA PTVPE CAL I)
+----+----+----+----+----+
+
+--+
+----+----+----+
+
+
05R 05H
.610 ZPSUM Ph 05H
-.31 P1 05H
.74 2
05H
.76 2
05H
-.30 2
05H
.75 Ph 05H
-.32 P1 05R
.74 1
AV3 30.77 3
AV3 30.77 83 H
11C TEC lhC TER 11C TER TSR TSH 05H 05H hlC TEC 05H 05H 05H 05H 11R lhC hhC TER lhC TEH 11C AV3 TEC TER bhC TEC 05H 05H 05H 05H hlC TEH 11C TER 11C AV3 TEC TER TEC TEH lhR AV2 hR AV2 TEC TER TEC TER 07C 07C TEC TEH TEC TEH TEC TER TEC TELl TEC TEH TEC TEH TEC TEH 07C 07C TEC TEH TEC TEH TSR ISH TEC TEH TEC TEH TEC TEH TSR ISH 01H 01H 02C 02C TEC TEH 02C 02C TEC TER 02C 02C TEC TEH TEC TEH TSR 01R 02C 02C TEC TER 02C 02C TEC TER 02C 02C TEC TER 02C 02C TEC TER TSR TSR 02C 02C TEC TEH
.610 TBATC
.610 ZBAZC
.610 ZBAZC
.610 ZPSNM
.610 ZPSUM
.610 TBATC 610 ZPSUM
.610 ZPSWM
.580 ZPUM1
.590 SBUCC
.590 58(1CC
.580 ZPUUM
.610 ZBAZC
.610 TBATC
.610 ZPSNM
.610 ZPSUM
.590 SBUCC
- 590 58(1CC
.580 ZPUNM
.610 ZBAZC
.610 ZBAZC
.580 ZPUNM
.580 ZPUNM
.610 SBACC
.610 SBACC
.610 ZPSNM
.610 ZBAZC
.610 ZBAZC
.610 ZBAZC
.610 SBACC
.610 SBACC
.610 SBACC
.610 SBACC
.610 ZPSNM
.610 ZBAZC
.610 ZBAZC
.610 ZPSUM
.610 SBACC
.610 SBACC
.610 ZBAZC
.610 ZPSNM
.610 ZPSNM
.610 ZPSUM
.610 SBACC
.610 ZPSUM
.610 SBACC
.610 ZPSNM
.610 SBACC
.610 SBACC 610 ZPSNM
.610 ZPSNM
.610 SBACC
.610 ZPSNM
.610 SBACC
.610 ZPSNM
.610 SBACC
.610 ZPSNM
.610 SBACC
.610 ZPSUM
.610 ZPSUM 610 SBACC 10 29 29 65 85 10 85 85 97 117 117 2
39 10 89 89 117 117 2
39 39 103 103 107 107 B
39 39 39 109 109 109 109 8
39 39 69 109 109 43 71 81 8
53 8
55 8
53 109 125 B
55 8
55 8
53 B
55 69 B
55 C)
H)
H)
H)
Hf Cf H)
Hf Hf Hf H)
C:
H)
H)
H)
H)
H)
C)
H)
H)
H)
H)
H)
H)
C)
H)
H)
H)
H)
H)
H)
Hf C)
H)
H)
H)
H)
H)
Hf H)
H)
C)
H)
C)
H)
C)
Hf H)
H)
C)
H)
C)
H)
Cf H)
Cf Hf H)
Cf H)
Hf 1
02C 6.85 2
TSR
-17.03
+-,+----+----+----+----+
+
+
+
+----+----+---+
+
+
I ROW CDL VOLTS DES IND PER CHN LOCN IUCH1 INCH2 I
CRLEN CRWIO CES BEST EUDI PDIA PTYPE CAL L)
+----+----+----+---+----+
+
+
+
+
+---+
+
+
TSR ISH
.610 ZPSNM 69 4
Braidwood 2 A2R12 CDE 20061001 10/27/2006 092447 TEC TEH 610 ZBAZC 41 O1H G1H 610 ZPSNM 81
+---_+----+_---+----+----+-_-------+
+--+
+-------+----+----+----+------+------+------+--+
ROW COL VOLTS BEG IND PER CHN LOCN INCH1 INCH2 I
CRLEN CRWID CEG BEGT ENDT PDIA PTYPE CAL LI
+----+----+----+----+----+
+
+--+
+
+----+----+----+
+
+
+--+
I 23 72 NOD 02C 02C 610 ZPSNM 8
Ci I
23 72
.38 137 OFS 1
03H 4.65 TEC TEH
.610 SBACC 53 HI I
23 72
.32 124 DFS 1
10H 2460 TEC TEH
.610 SBACC 53 HI I
23 72 1.20 152 DFS 1
07C 15.36 TEC TEH 610 SBACC 53 HI I
23 72 NOD TSH TSH
.610 ZPSNM 69 HI 31 73
.71 95 M8M 1
02C
-.78 02C 02C
.610 ZPSNM 8
CI I
31 73
.32 61 DSS P1 02C 56 TEC TEH
.610 ZBAZC 41 Hi I
31 73 223 75 MOM 6
01C 8.74 TEC TEH
.610 Z8AZC 41 HI I
31 73 NDD TSH TSH
.610 ZPSMM 71 HI I
31 73 PBC TEC TEH
.610 SBACC 107 HI I
38 75
.32 108 DSS P1 G1H
.00 HI I
38 75 NDF 2
01H
.00 HI 34 76 NDF 2
02C
-.11 02C 02C
.610 ZPSP4M 8
CI I
34 76
.22 104 DSS P1 02C
-.13 TEC TEH
.610 SSACC 45 HI I
34 76 29 51 DSS P1 02C
-.21 TEC TEH
.610 SBACC 107 HI 47 85 5.37 178 DM1 P1 05H
-.53 TEC TEH
.610 SBACC 47 Hj I
47 85 6.26 178 ONT P1 05H
.56 TEC TEH
.610 SBACC 47 HI I
47 85 3.04 177 DM1 P1 11H
-.44 TEC TEH
.610 S8ACC 47 Hj I
47 85 4.79 181 DM1 P1 11H
.57 TEC TEH
.610 SBACC 47 HI I
47 85 1.47 68 MOM 6
09C 30.24 TEC TEH
.610 S8ACC 47 HI I
47 85 NOD TSH TSH
.610 ZPSNM 79 HI I
47 85 NDF 2
OSH
-.47 05H 05H
.610 ZPSNM 81 HI I
47 85 MDF 2
05H
.61 05H 05H
.610 ZPSNM 81 HI 46 86 2.63 173 DM1 P1 05H
-.50 TEC TEH
.610 SBACC 45 HI I
46 86 4.63 175 DM1 P1 05H
.58 TEC TEH
.610 SBACC 45 HI I
46 86 NOD TSH TSH
.610 ZPSNM 77 HI I
46 86 NDF 2
05H
-.32 05H 05H
.610 ZPSNM 81 HI 46 86 NDF 2
05H
.69 05H 05H
.610 ZPSNM 81 HI 46 87 3.56 175 DNT P1 05H
-.45 TEC TEH
.610 SBACC 51 HI I
46 87 4.97 176 DNT P1 05H
.64 TEC TEH
.610 SBACC 51 HI I
46 87
.20 147 DFS 1
10H 28.27 TEC TEH
.610 SBACC 51 HI I
46 87 2.61 199 DNG P1 AV2 18.00 TEC TEH
.610 SBACC 51 HI I
46 87 NDF 2
05H
-.47 05H 05H
.610 ZPSNM 81 HI I
46 87 NDF 2
05H
.64 05H 05H
.610 ZPSNM 81 HI 45 88 2.54 174 DM1 P1 05H
-.44 TEC TEH
.610 SBACC 49 HI I
45 88 5.16 175 DNT P1 05H
.63 TEC TEH
.610 SBACC 49 HI I
45 88 1.54 78 MOM 6
07H 4.25 TEC TEH
.610 SBACC 49 HI I
45 88 3.97 69 MOM 6
AV2 6.81 TEC TEH
.610 SBACC 49 HI I
45 88 2.42 75 MBM 6
03C 33.13 TEC TEH
.610 SBACC 49 HI I
45 88 NDF 2
05H
-.32 05H 05H
.610 ZPSNM 81 HJ I
45 88 NDF 2
05H
.75 05H 05H
.610 ZPSNM 81 HI 44 89 4.38 179 DNT P1 05H
-.47 TEC IEH
.610 SBACC 51 HI I
44 89 4.35 178 DM1 P1 05H
.61 TEC TEH
.610 SBACC 51 HI I
44 89 MOE 2
05H
-.47 05H 05H
.610 ZPSNM 81 HI I
44 89 MOE 2
05H
.58 05H 05H
.610 ZPSNM 81 HI 45 89 4.57 178 DM1 P1 05H
-.45 TEC TEH 610 SBACC 51 Hj I
45 89 4.59 178 DM1 P1 05H
.64 TEC TEH
.610 SBACC 51 HI I
45 89 2.34 78 MOM 6
10H 32.85 TEC TEH
.610 SBACC 51 HI I
45 89 NDF 2
05H
-.50 05H 05H
.610 ZPSNM 81 HI I
45 89 MOE 2
05H
.64 05H 05H
.610 ZPSNM 81 HI I
1 94 NOD 1IC TEC
.610 IBAIC 12 CI I
1 94 NDF 2
05H
-.36 05H 05H
.610 ZPSMM 81 HI I
1 94 MOE 2
05H
.71 05H 05H
.610 ZPSMM 81 HI I
1 94 ROD I1C TEH
.590 SBUCC 113 HI I
1 94 7.68 177 DM1 P1 05H
-.31 11C IEH
.590 SBUCC 119 HI I
1 94 7.94 177 ONT P1 05H
.75 11C TEH
.590 SBUCC 119 HI I
2 98 NOD 11C TEC
.610 TBATC 10 CI I
2 98 MDF 2
05H
-.38 05H 05H
.610 ZPSMM 81 HI I
2 98 NDF 2
05H
.73 05H 05H
.610 ZPSMM 81 HI I
2 98 4.47 176 ONT P1 05H
-.33 11C TEH
.590 SBUCC 111 HI I
2 98 2.81 177 ONT P1 05H
.73 11C TEH
.590 SBUCC 111 HI
+----+
+-,--+,---+
+
+--+
+
+---,+----+----+
+
+--+
I ROW CDL VOLTS BEG IND PER CHN LOCN INCH1 INCH2 I
CRLEN CRWIO CEG BEGI ENDI PDIA PTYPE CAL LI
+.---+----+,..-+----+---.+
+
+--+
+
+.---+----+----+
+
+
5 Tubes:
90 Records:
304
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+~-(JJ~4IIN~t-hUtIONS Braidwood A2R12 CDE D5 X 15 TUBE TESTED FOR SPECIAL INTEREST WITH +POINT PROBE SEE LIST FOR EOCATION(S)
TESTED a 25 PLUGGED TUBE 110 105 100 95 90 85 80 75 70 65 60 C000mCCC0~0000~
0000 oX oo 0
0:0 4
0 000 4
0 0))
0 0
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70 65 60 *5 50 45 40 35 30 75 20 15 10 W~~))t))hoo))~
E0,ot0 Company LLC - ST M~x10)27)2006 1411:00
- 0 Specal Interest
÷PointInspection Results Braidwood 2 A2R12 COE 20061001 10/27/2006 14:05:49 31 48 20 95 DSS P1 O1H
.47 31 48 NOD 31 48
.15 99 VOL 2
GIH
.42 31 48
.13 101 VOL 2
01H
.41 31 48
.14 244 PCI 19 2
01H 43 TEC TEH 610 ISH TSH
.610 G1H 01H
.610 B1H O1H
.610
.30 44 68 BIH OIH
.610
+----+----#----#----#----#
+
4--f
+
- ---,+----#----+
+
+
4--
I ROW CDL VOLTS BEG 1MB PER CHM LOCM INCHI INCH2 I
CRLEM CR1410 CEO BEGI ENO1 P0IA PIYPE CAL L
- ----#----4----#----#----4
+
4--f
+
- ----+----#----#
+
+
4--
360 184 0MG P1 ISH 1.30 1EC 1EH
.610 3.19 185 0MG P1 ISH 7.58 TEC TEH
.610 3.74 184 0MG P1 01H 5.38 IEC 1EH
.610 3.84 185 0MG P1 0tH 11.52 IEC IEH
.610 357 185 0MG P1 0tH 17.75 IEC TEH 610 4.10 184 0MG P1 0tH 23.84 IEC IEH
.610 5.58 184 0MG P1 03H 2,03 TEC 1EH
.610 2.20 186 0MG P1 03H 8.27 TEC TEH
.610 287 186 0MG P1 03H 14.49 TEC IEH
.610 3.70 183 0MG P1 03H 26.93 TEC IEH
.610 3.23 184 0MG P1 03H 32.90 IEC IEH
.610 314 185 0MG P1 05H 3.02 IEC IEH 610 282 181 0MG P1 05H 330 TEC IEH 610 MOE 2
ISH 137 ISH 07H
.610 MOE 2
ISH 760 ISH 07H
.610 MOE 2
ISH 7.63 ISH 07H 610 MOE 2
01H 5.29 ISH 07H
.610 NOF 2
O1H 11.68 ISH 07H
.610 MOE 2
BIH 17.71 ISH 07H 610 NOF 2
B1H 23.98 ISH 07H 610 MOE 2
03H 1459 ISH 07H
.610 NOE 2
03H 26.95 ISH 07H 610 NDF 2
03H 3309 ISH 07H
.610 MOE 2
05H 3.14 ISH 07H 610 MOE 2
05H 3.41 TSH 07H 610 I
12 16 1
12 16 1
12 16 1
12 16 12 16 I
12 16 I
12 16 1
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 1
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 I
12 16 42 22 42 22 42 22 42 22 42 22 42 22 42 22 42 22 1
29 1
29 1
29 1
29 1
29 1.72 1.57
-35 178 2.20 MOD MOF 79 MOM 81 MOM 29 DSS 74 MOM 67 MBM P80 2
070
-.03 6
10H 5.36 6
100 9.24 Pt 07C
-.03 6
07C 27.37 6
060 16.56 2
07H
-.71 P1 07H
-.65 P1 07H
.36 NOD ROD MOE 4.14 175 DM1 218 174 INR 02C 020
.610 07C 070
.610 TEC IEH
.610 lEO IEH 610 TEC IEH
.610 TEC TEH 610 TEC TEH
.610 TEC IEH
.610 11C TEC
.610 11C TEH
.610 07H 07H
.610 11C IEH 590 11C TEH
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113
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4.--
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INCN1 INCN2 I
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VOLTS DES IWO PER CNN LDCN INCN1 INCN2 I
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Braldwood 2 A2R12 COE 20061001 01/18/2007 12)48)02
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.63
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- 40
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- 06
.00 1 -00 1 - 02
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---4.
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+-.--+-
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VOLTS DIG IND PER CNN LDCN INCNI 4.-
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2 TIC 21 2
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14 14 14 14 14 60 60 76 76 76 76 6
6 6
6 9
36 27 77 125 125 16 31 22 66 26 CAL CI C
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CI CI CI CI N
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4)
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+
L
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---4.
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VOLTS DIG IND PER CNN LOCN
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.+
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--4.
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INCN1 INCN2 I
CRLEN CRWID CEO BEST ENDT POIA PTYPE 1
Tubes) 2 Records) 76
Ora:dwood 2 A2R12 CDI 20061001 0b/b8/2007 b249.04 4.-.
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I INIPOATE ROW CDL VOLTS DES IND PER CNN LOCN INCN1 INCN2 I
CRLEN CRWID CEO BEST ENOT PDIA PTYPE CAL
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4.--
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4.--
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.4.
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8 10
.57 132 DII Pu 07N
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18
.14 108 PlO 2
07N
.74 07N 0711
.610 ZPINM 85 Nj O
18
.20 100 PCT 22 2
0711
.01
.40
.47 72 07N 07N
.610 ZPSNM 101 Nj O
18
.13 86 SI/I 2
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.74 07N 07N
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I 2005/04/01 0
18 NOD TIC TEN
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18 NOD TIN TIN
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18
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1997,10/01 8
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1996/03/01 8
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1993,03/01 8
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1990/04/01 8
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N
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Tubes) 1 Records) 15
Oraidwood 2 A2RI2 CDI 20061001 01/18/2007 12)49)54
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I INIPOATE ROW CDL
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31 Nj 67 Nj 83 Nj 91 N
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63 Nj 63 N
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CRLEN CRWID CEG BEST INDT POIA PTYPE CAL 4...--
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Tubes 1
- Records, 24
Attachment B.5 Tubes Containing Anti-Vibration Bar Wear
SG - A ANTI-VIBRATION BAR WEAR INDICATIONS MOST SEVERE INDICATION PER TUBE Braidwood A2R12 CDE D5 2 80 INDICATION 20 10 29 PERCENT P
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55 50 45 40 35 30 25 20 15 10 We-,tu,~hoo~e EI*w-toc Cumpany LLC - ST Max 1526/2006 II 0808
A Anti-Vibration Bar Wear Indications Braidwood 2
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PCI 20 P2 A13
.10 lEO TEN
.610 ZBAZC 23 Nj
+
+,-,-f
+,-.,+
f----+
+
+-.+
+
+.--+-..-f--,-+
+,,-.,.+
f.-+
I ROW COL VOLTS DES IWO PER CNN LOON INCNI INCH2 I
CRLEN CRWID CEG BEST ENDI PDIA PIYPE CAL LI
+,---+-..-+
+-,--+
+
+,.4,.,----+--,,,.
+
f----4---,,.4 f.-,-,.4,-f
A Anti-Vibration Bar Wear Indications Braidwood 2
A2R12 CDI 20061001 10/26/2006 10:32:24 I
ROW CDL VOLTS DIG IWO PER OHM LOOM IWON1 INOH2 I
CRLEN ORWID CIG BEST ENDI P014 PIYPE CAL Lf
+----f----+----f--f----f 4
f~~f
+
+
+
4 f--+
41 68 1.93 0
PCI 24 P2 AV2
.610 SOACO 21 Hf I
41 68 4.09 0
PCI 34 P2 AV3
.610 SBAOO 21 Hf 40 69 1.02 0
PCI 16 P2 AV1
.00 110 TEN
.610 SBACC 21 Nj 41 69 1.44 0
PCI 20 P2 AV3
.00 110 TEN
.610 S8ACO 25 Nj 39 70 2.65 0
POT 30 P2 AV2
.610 ZBAZO 23 Nj 45 70 1.25 0
PCI 20 P2 AV2
.610 ZBAZO 23 Nj I
45 70
.98 0
POT 17 P2 A113
.02 110 TEN
.610 ZBAZC 23 Nj 40 71 1.66 0
PCI 22 P2 AV1
.00 TIC TEN
.610 SOAOO 21 Hf 40 71 3.27 0
POT 31 P2 4112
.00 TIC TEN
.610 SBACO 21 Hf I
40 71 6.23 0
POT 40 P2 4113
.00 TIC TEN
.610 SBAOO 21 Nj 1
40 71 5.31 0
PlO P2 AV3
.00 TIC TEN
.610 SBAOC 93 Hf 43 71 2.25 0
POT 26 P2 AV1
.610 SBAOO 21 Hf I
43 71 3.57 0
PCI 32 P2 AV2
.30 TIC lEN
.610 SBACO 21 NI 43 71 1.65 0
PCI 22 P2 AV3
-.05 110 TEN
.610 SBAOO 21 Hf I
46 71 1.80 0
POT 23 P2 AV2
-.05 TIC TEN
.610 58400 21 Nj 39 72 2.07 0
PCI 26 P2 AV2
-.25 TIC TEN
.610 ZOAZO 23 Nj 41 72 1.64 0
POT 23 P2 AV3
-.07 TIC TEN
.610 ZBAZO 23 Ni 43 72 1.10 0
PCI 19 P2 AV3
.00 TIC TEN
.610 ZBAZO 23 Nj 47 72
.56 0
PCI 11 P2 AVI
.00 TIC TEN
.610 ZBAZC 23 Hf 32 73 1.73 0
POT 22 P2 AV1
.00 110 TIN
.610 SBAOO 21 Nj 1
32 73
.99 0
POT 16 P2 AV2
.00 TIC TEN
.610 SOACO 21 Nj I
32 73 1.12 0
PCI 17 P2 AV3
.00 lEO TEN
.610 S8ACC 21 Nj I
32 73 1.08 0
POT 17 P2 AV4
.610 SBAOC 21 Hf 37 73
.86 0
PCI 14 P2 AV1
.00 110 TEN 610 SBAOO 21 Nj I
37 73 3.12 0
POT 30 P2 AV2
.00 TIC TEN
.610 SOACO 21 NI 37 73 1.34 0
PCI 19 P2 AV3
.610 SBACC 21 Nj I
37 73 1.30 0
POT 19 P2 4114
.00 lEO TIN
.610 SBACC 21 Hf 39 73 5.53 0
POT 38 P2 AV2
.00 110 TEN
.610 SBAOC 21 Nj I
39 73 4.70 0
POT 36 P2 AV3
.00 110 TEN
.610 SBACO 21 NI I
39 73 3.40 0
POT 31 P2 AV4
.00 lEO TEN
.610 SBAOC 21 HI 40 73 4.11 0
PCI 34 P2 4112
40 73 1.24 0
.610 SBACC 21 Hf 46 73 1.05 0
POT 17 P2 4111
.21 110 TEN
.610 ZBAZO 23 Nj I
46 73 3.62 0
POT 34 P2 AV2
.02 110 TIN
.610 ZBAZO 23 Hf I
46 73 1.13 0
POT 19 P2 AV3
.610 ZOAZO 23 HI 16 74 1.35 0
PCI 19 P2 4114
.00 TIC TEN
.610 SBAOO 55 Nj 37 74 1.05 0
POT 18 P2 AV2
.00 TIC TEN
.610 ZBAZO 23 Nj 40 74 1.11 0
.610 SBACC 37 Nj I
41 74 1.79 0
POT 22 P2 AV1
.17 lEO TEN. 610 SBAOO 37 Hf I
41 74 5.13 0
PCI 37 P2 AV2
.00 TIC TEN
.610 SBAOC 37 Nj I
41 74 6.04 0
PCI 40 P2 AV3
.02 110 TEN
.610 SBAOO 37 Hf I
41 74 3.76 0
PCI 33 P2 AV4
.05 ICC TEH
.610 SBACC 37 Hf 41 74 5.34 0
PlO P2 AV3
.00 lEO TIN
.610 SBACC 93 Nj 37 75 3.62 0
PCI 34 P2 4112
.610 ZBAZC 39 Hf I
37 75 1.77 0
PCI 24 P2 AV3
.05 lEO TEN
.610 ZBAZO 39 Nj 39 75 1.26 0
PCI 20 P2 AV3
-.02 lEO TEN
.610 ZBAZO 39 Hf 41 75 2.27 0
PCI 27 P2 4111
.00 TIC TEN
.610 ZBAZC 39 Hf 41 75 1.45 0
PCI 21 P2 4112
-.02 TIC TEN
.610 ZBAZC 39 Nj I
41 75 2.56 0
POT 29 P2 AV3
-.05 TIC TEN
.610 ZBAZO 39 HI 30 76 1.12 0
PCI 19 P2 4112
.00 TIC TEN
.610 ZBAZC 23 Hf I
30 76 1.48 0
PCI 22 P2 AV3
.00 TIC TEN
.610 ZBAZC 23 Hf 37 76 2.44 0
PCI 26 P2 AV1
.610 SBAOC 37 Nj I
37 76 5.36 0
PCI 38 P2 4112
-.03 TIC TEN
.610 SBACC 37 Hf I
37 76 2.77 0
PCI 28 P2 AV3
.03 TIC TEN
.610 SBACC 37 Nj 1
37 76 1.39 0
PCI 19 P2 4114
-.15 TIC TEN
.610 SBACC 37 NI 4----+--4--+
+
+
~
+
~
+
+
I ROW COL VOLTS DES INO PER CNN LOON INCN1 INCN2 I
CRLEN CRWIO CES BEST ENOT PDIA PIYPE CAL LI
+
+----+
+
+
+.,+
+
f.---f-.--+--,-f
+
+
CDI 20061001 10/26/2006 10:32:24 A
Anti-Vibration Bar Wear Indications Braidwood 2 A2R12
+---+-+----f----f---+--f---4+4--44-f----+----+----+-4-f-f--f I
ROW CDL VOLTS DES IWO PER OHM LOOM INON1 INCH2 I
CRLEM CRWID 015 BEST EWDI P014 PIYPE CAL If
+----+----+----4----+----f
+
f--+
4
+----f----+----f
+
+
f--f 39 76 1.65 0
PCI 21 P2 4111
.15 110 TIN
.610 SBACC 37 Hf I
39 76
.99 0
POT 15 P2 AV2
.10 TIC lEN
.610 SBAOC 37 Nj I
39 76 1.42 0
PCI 19 P2 AV3
.08 110 TIN
.610 SBACC 37 Nj I
39 76 1.40 0
POT 19 P2 AV4
-.05 TIC TEN
.610 SBACO 37 NI 29 77 1.07 0
POT 17 P2 AV2
.00 110 TIN
.610 ZBAZO 43 Nj I
29 77 1.08 0
POT 16 P2 AV3
.00 TIC TEN
.610 ZOAZO 43 Nj 33 77 1.10 0
PCI 17 P2 Mi
.00 110 TEN
.610 ZBAZO 43 Hf 37 77 1.64 0
POT 22 P2 4112
.00 110 TEN
.610 ZBAZO 43 Nj 25 78 1.23 0
POT 16 P2 AV3
.00 110 TEN
.610 SBAOO 41 Hf I
25 78 1.44 0
POT 18 P2 AV4
.610 SBAOO 41 Nj 29 78 1.17 0
POT 16 P2 AV2
.08 lEO TEN
.610 SBACC 41 Nj 34 78 1.87 0
POT 21 P2 AV2
.00 lEO TEN
.610 SOACO 41 Nj 37 78 1.08 0
POT 15 P2 AV1
.00 110 lEN
.610 SBAOO 41 Nj 39 78 2.47 0
PCI 25 P2 AV2 27 TIC TEN
.610 SBAOC 41 Nj 39 78 2.47 0
POT 25 P2 AV3
.00 110 TIN
.610 SBACC 41 NI 40 78 1.06 0
POT 15 P2 AV2
.00 TIC TEN
.610 58400 41 Nj I
40 78 1.07 0
PCI 15 P2 AV3
.00 lEO TEN
.610 SBACC 41 Nj 41 78 1.47 0
POT 18 P2 AV3
.00 TIC TEN
.610 SBACC 41 Hf 31 79 1.34 0
POT 19 P2 AVI
.00 TIC TEN
.610 ZBAZO 43 Nj I
31 79 1.87 0
POT 24 P2 AV2
.610 ZBAZO 43 Nj 31 79 3.31 0
PCI 32 P2 AV3
-.15 TIC TEN
.610 ZOAZO 43 Nj 40 79 2.34 0
POT 27 P2 AV2
.00 lEO TEN
.610 ZBAZO 43 Nj 40 79 3.56 0
POT 33 P2 AV3
-05 110 TEN
.610 ZBAZO 43 Hf 41 79 1.26 0
.610 ZOAZO 43 Nj 41 79 144 0
POT 20 P2 AV2 02 lEO TEN
.610 ZBAZC 43 NI 41 79 2.58 0
POT 28 P2 AV3
.02 TIC TEN
.610 ZBAZC 43 Nj 45 80 2.57 0
POT 26 P2 AV2 20 110 TEN
.610 SBAOO 41 NI I
45 80 4.40 0
POT 35 P2 AV3
.02 TIC TEN
.610 SOAOO 41 Hf I
45 80 1.64 0
POT 20 P2 AV4
.00 110 TEN
.610 SBACC 41 Hf 33 81 1.09 0
PCI 18 P2 AV2
.00 110 TEN
.610 SBAOO 51 Nj 34 81 2.17 0
POT 26 P2 AV2
.00 lEO TEN
.610 SBACC 51 Nj 37 81 1,08 0
POT 18 P2 AV1
.00 110 TEN
.610 SBACC 51 Hf I
37 81 3.41 0
PCI 33 P2 AV2
.00 lEO TEN
.610 SBAOC 51 NI I
37 81 2.86 0
PCI 30 P2 AV3
.610 SOACO 51 Nj 40 81 1.67 0
POT 23 P2 4112
.00 TIC TEN
.610 58400 51 Nj 37 82 1.53 0
PCI 20 P2 AV1
.03 110 TIN
.610 SBACC 49 Nj I
37 82 1.06 0
PCI 16 P2 4113
-.20 110 TIN
.610 58400 49 NI 40 82 1.50 0
PCI 20 P2 AV2
.02 TIC TEN
.610 S8AOC 49 NI I
40 82 1.50 0
pCI 20 P2 4113
.05 lEO TEN
.610 SBAOC 49 Hf 41 82 1.12 0
PCI 16 P2 AV1
.610 SOACO 49 Nj I
41 82 5.31 0
POT 38 P2 AV2
-.05 lEO TEN
.610 SBAOC 49 Nj I
41 82 2.91 0
POT 29 P2 AV3
-.18 110 TEN
.610 SBACC 49 Hf I
41 82 1.92 0
PCI 23 P2 AV4
-.05 TIC TEN
.630 SBAOO 49 Nf 45 82 1.00 0
POT 15 P2 AV2
.00 110 TEN
.610 S8ACC 49 Hf I
45 82 1.29 0
PCI 18 P2 4113
-.15 lEO TEN
.610 SOAOO 49 Nj 36 83 1.33 0
POT 19 P2 AV2
.00 TIC TEN
.610 ZBAZC 43 Hf 40 83 3.13 0
PCI 31 P2 AVI
.00 110 TEN
.610 ZBAZC 43 Hf I
40 83 2.43 0
PCI 27 P2 4112
.22 lEO TEN
.610 ZBAZO 43 Nj I
40 83 1.67 0
POT 22 P2 4113
-.05 lEO TEN
.610 ZBAZC 43 Nj I
40 83 1.16 0
POT lB P2 AV4
.05 110 TIN
.610 ZBAZO 43 Hf 39 84 1.32 0
PCI 17 P2 AV1
.03 110 TIN
.610 SBACC 41 Hf I
39 84 1.63 0
PCI 20 P2 4112
-.02 TIC TEN
.610 SBACC 41 Nj I
39 84 1.88 0
PCI 22 P2 AV3
.00 lEO TEN
.610 SBACC 41 N~
f----+--.-f f----+---.+----+
+
+
+-.+
+
+-.,-f
+
+
+
I ROW CDL VOLTS DES IWO PER OHM LOON IWONI INCN2 I
CRLEN CRWIO CES BEST
[NOT POIA PIYPE CAL If
+----+.---+.-,,f.---+.---f
+
f--f
+
f--.-+,,--f
+
+
f--f 5
si~
A Anti-Vibration Bar Wear Indications Braidwood 2
A2R12 ODE 20061001 4----+----4-+----+----+----+----4----4-f-+--+-f----+----+----+-4-4-+--~
I ROW CDL VOLTS DIG IWO PER OHM LOON INCH?
INCN2 I
ORLEN CRWID CIG 8EGI EWOT P014 PTYPE CAL If f----4----+
+----f----f----+----f----+
4
+
+
f----4----f----+
4
+
f--4 10/26/2006 10:32:24 40 84 1.39 0
POT 18 P2 AV3
.610 SBACO 41 Nj 41 84 1.74 0
PCI 20 P2 AV2
.610 SBACC 41 Hf 39 85 1.67 0
POT 22 P2 4112
.00 110 TEN
.610 ZBAZC 43 Nj 39 85 2.30 0
PCI 27 P2 AV3
.00 TIC TEN
.610 ZOAZO 43 Nj 40 85 1.32 0
POT 19 P2 AV1
.00 TIC TEN
.610 ZBAZO 43 Nj 40 85 3.46 0
POT 33 P2 AV2
.00 110 TIN
.610 ZBAZC 43 NI 40 85 5.18 0
PCI 40 P2 4113
.00 110 TEN
.610 ZBAZC 43 HI 40 85 1.31 0
POT 19 P2 AV4
.00 110 TIN
.610 ZBAZC 43 Nj 40 85 5.17 0
PlO P2 AV3
.00 110 TEN
.610 SBAOC 93 Hf 41 85 1.59 0
PCI 22 P2 AV2
.00 TIC TEN
.610 ZBAZC 43 Nj 41 85 1.30 0
PCI 19 P2 4113
.00 TIC lEN
.610 ZOAZC 43 Nj 45 85 3.37 0
PCI 32 P2 4112
.00 110 TIN
.610 ZBAZC 43 Nj 38 86 1.04 0
PCI 14 P2 AV1
.00 110 TEN
.610 SOACC 41 Hf 38 86 2.30 0
POT 24 P2 AV2
.00 110 TEN
.610 SBACC 41 Hf 38 86 1.78 0
POT 21 P2 4113
.00 TIC TEN
.610 SBAOC 41 Hf 39 86 1.67 0
POT 20 P2 AV2
.00 TIC TEN
.610 S8ACC 41 Hf 39 86 1.40 0
PCI 18 P2 4113
.00 lEO TIN
.610 58400 41 Hf 36 87 1.63 0
PCI 22 P2 AV3
.00 lEO TIN
.610 ZBAZC 43 Nj 38 87
.90 0
POT 15 P2 AV2
.32 lEO TIN
.610 ZBAZC 43 Hf 39 87 3.40 0
PCI 33 P2 AV2
.00 TIC TEN
.610 ZBAZC 43 Hf 39 87 1.00 0
PCI 16 P2 AV3
.08 TIC TEN
.610 ZBAZC 43 NI 40 87 1.53 0
POT 21 P2 AV1
.00 TIC TEN
.610 ZBAZC 43 Hf 40 87 4.94 0
PCI 39 P2 4112
.610 ZBAZC 43 Nj 40 87 1.22 0
PCI 18 P2 AV3
-.02 TIC TEN
.610 ZBAZO 43 Nj 40 87 1.47 0
PCI 20 P2 AV4
.610 ZBAZO 43 Nj 41 87 4.06 0
PCI 36 P2 4112
.00 TIC TEN
.610 ZBAZC 43 Nj 41 87 3.19 0
PCI 32 P2 4113
-.02 lEO TEN
.610 ZBAZO 43 Nf 33 88 1.68 0
PCI 20 P2 AV2
.03 TIC TEN
.610 SBACC 41 Hf 36 88 1.41 0
PCI 18 P2 AV2
.00 lEO TEN
.610 SOACO 41 Hf 36 88 1.84 0
PCI 21 P2 AV3
.610 SOACC 41 Nj 40 88 3.45 0
POT 31 P2 AV2
-.05 lEO TIN
.610 58400 41 Hf 40 88 2.45 0
PCI 25 P2 AV3
-.03 TIC TEN
.610 SBACC 41 Nj 40 88 1.51 0
POT 19 P2 AV4
.610 SBACC 41 NI 47 88 1.48 0
POT 21 P2 AV4
.00 lEO TEN
.610 SBACC 51 Hf 36 89 1.19 0
PCI 18 P2 4112
.00 TIC TEN
.610 SBAOC 47 Nj 36 89 1.09 0
PCI 17 P2 AV3
.10 110 TEN
.610 SBACO 47 Hf 38 89 1.44 0
PCI 20 P2 AV2
.06 110 TEN
.610 SBACC 47 Nj 38 89 1.24 0
PCI 18 P2 AV3
.02 TIC TEN
.610 SBACC 47 Hf 40 89 1.04 0
PCI 16 P2 AV2
.34 TIC TEN
.610 584CC 47 Nj 40 89 1.06 0
POT 16 P2 AV3
.610 SOACC 47 Hf 41 89 1.33 0
POT 19 P2 AV3
.610 S8ACO 47 Nj 42 89
.99 0
POT 15 P2 AV2
.00 TIC TEN
.610 SBACO 47 Hf 42 89 1.33 0
PCI 19 P2 AV3
.00 110 TEN
.610 S8ACO 47 Nj 31 90 1.73 0
POT 21 P2 AV3
-.03 lEO TEN
.610 SBAOO 45 Hf 35 90 1.12 0
PCI 16 P2 AV1
.10 110 TEN
.610 SBAOC 45 Nj 35 90 97 0
PCI 14 P2 AV2
.00 TIC TEN
.610 SBACO 45 Hf 35 90 2.91 0
PCI 28 P2 4113
.00 lEO TEN
.610 SBACO 45 Hf 37 90 1.54 0
PCI
- 19 P2 4112
.07 110 TIN
.610 SBACO 45 Hf 38 90
.91 0
POT 14 P2 AV1
.13 lEO TIN
.610 SBAOC 45 Hf I
38 90 1.74 0
PCI 21 P2 AV2
-.05 lEO TEH
.610 SBACC 45 Hf I
38 90 1.82 0
PCI 22 P2 AV3
-.07 110 TIN
.610 S8ACC 45 Hf 39 90
.89 0
PCI 13 P2 AV1
.10 TIC TEN
.610 SOACO 45 Hf I
39 90 3.69 0
PCI 32 P2 4112
.05 lEO TEN
.610 SBAOC 45 Nj I
39 90 4.16 0
PCI 34 P2 AV3
.05 lEO TEN
.610 SBAOC 45 Nj
+-.--+.+--.-+---f.-f
+
+--f
+
+----+.-.+.--+
+
+
f--f I
ROW COL VOLTS DES IWO PER CNN LOOM INOH1 IWCN2 I
CRLEM CRWIO CEO BEGI ENOT PDIA PIYPE CAL Lf
+--.-+.---f---.f----+----+
+
f-,f
+
+-.--+,--.f-.--f
+
+
4--f
A Anti-Vibration Bar Wear Indications Braidwood 2 A2R12 ODE 20061001 10/26/2006 10:32:24 I
ROW 001 VOLTS DIG IWO PER CNN LOON INCH?
INCN2 I
CRLEN CRWID CIG BEST INOT P014 PTYPI CAL If f----+----+
+4444+
+
++
f----f----f----f
+
+
f--f 1
39 90 1.38 0
PCI 18 P2 AV4
-.03 lEO TEN
.610 SBACC 45 Nj 41 90 3.37 0
PCI 31 P2 AV2
.00 110 TEN
.610 88400 45 Nj 41 91 4.40 0
PCI 37 P2 AV2
.00 TIC TEN
.610 SBAOC 47 Nj I
41 91 1.92 0
PCI 24 P2 AV3
.00 TIC lEN
.610 SBACC 47 Nj 45 91 2.06 0
PCI 25 P2 AV1
.00 TIC TEN
.610 88400 47 Hf 36 92 1.95 0
POT 22 P2 AV2
.17 110 TEN
.610 SBACC 45 Nj I
36 92 2.62 0
PCI 27 P2 4113
.610 SBACC 45 Nj 37 92 1.26 0
PCI 17 P2 AV3
.00 TIC TEN
.610 SBAOC 45 Hf 38 92 3.10 0
PCI 29 P2 AV2
.00 110 TIN
.610 SBAOC 45 Nj I
38 92 2.2?
0 POT 24 P2 AV3
.02 TIC TEN
.610 58400 45 Hf 41 92 1.88 0
PCI 22 P2 AV2
-.10 TIC TEN
.610 SBACC 45 Nj I
41 92 5.00 0
PCI 37 P2 AV3
.00 TIC TEN
.610 SBACC 45 Hf 44 92
.86 0
PCI 13 P2 AV4
.610 SBACC 45 Hf 37 93 1.31 0
POT 19 P2 AV3
.610 SBACC 47 Hf 38 93 1.00 0
PCI 15 P2 AV2
.07 110 TEN
.610 SBACC 47 Nf I
38 93 1.92 0
PCI 24 P2 AV3
-.05 TIC TEN
.610 584CC 47 Nj 41 93 1.10 0
PCI 17 P2 AV1
.610 SBACC 47 Nj I
41 93 4.59 0
PCI 38 P2 4V2
.00 TIC TEN
.610 SBAOC 47 Hf I
41 93 3.83 0
POT 35 P2 AV3
-.13 lEO TEN
.610 SOACO 47 Hf I
41 93 1.02 0
PCI 16 P2 4V4
-.08 TIC TEN
.610 SOACO 47 Hf 43 93 1.00 0
PCI 16 P2 4114
.10 lEO TEN
.610 SBACO 47 Hf 33 94 1.09 0
PCI 15 P2 4112
-.08 lEO TEN
.610 58400 45 Hf 34 94 1.53 0
PCI 19 P2 AV2
.610 58400 45 Hf 42 94 1.17 0
PCI 16 P2 4114
-.08 lEO TEN
.610 SBAOO 45 Nj 35 96 3.09 0
PCI 29 P2 AV2
.02 lEO TEN
.610 SBAOC 45 Nj 26 97 1.32 0
PCI 19 P2 AV3
.05 TIC TEN
.610 SBAOO 47 Hf 33 98 1.74 0
PCI 21 P2 AV2
-.02 lEO TEN
.610 SBACC 45 Hf 33 98 1.53 0
PCI 19 P2 AV3
-.07 lEO TEN
.610 SBAOC 45 Hf 34 98 1.16 0
POT 16 P2 AV3
-.07 110 TEN
.610 SBACO 45 Nj 28 99
.89 0
PCI 14 P2 AV3
.00 lEO TEN
.610 584CC 47 Nj 32 99 5.45 0
PCI 40 P2 AV2
.14 TIC TEN
.610 SBACC 47 Hf I
32 99 1.55 0
PCI 21 P2 AV3
.03 110 TEN
.610 SBAOC 47 Nj I
32 99 1.13 0
PCI 17 P2 AV4
.05 lEO TEN
.610 SBAOC 47 Nj I
32 99 5.48 0
PlO P2 AV2
.11 TIC TEN
.610 SBACC 93 Nj 33 99 1.07 0
POT 16 P2 AV2
.05 110 TEN
.610 SBACO 47 Hf 29 100 1.16 0
POT 16 P2 AV2
.05 TIC TEH
.610 S8ACC 45 Hf 29 100 1.58 0
PCI 20 P2 AV3
-.10 TIC TEN
.610 SBACC 45 Hf 29 102 1.68 0
POT 21 P2 AV3
.00 TIC TEN
.610 SBACO 49 Hf 29 103 1.10 0
POT 18 P2 AV1
.00 TIC TEN
.610 SBAOC 51 Hf 29 103
.99 0
POT 16 P2 4113
-.07 110 TIN
.610 SBAOO 51 Hf 30 103 3.28 0
PCI 32 P2 AV1
.00 110 TEN
.610 SBACC 51 Hf 30 103 2.08 0
PCI 26 P2 AV2
.00 TIC TEN
.610 SBAOO 51 Hf 30 103 2.65 0
POT 29 P2 AV3
.00 TIC TEN
.610 SBACC 51 Nj 28 104 1.59 0
POT 21 P2 AV2
-.10 lEO TEN
.610 SBACC 49 Hf 29 304 1.49 0
PCI 20 P2 AV1
.00 lEO TIN
.610 SBACC 49 Hf 29 104 3.93 0
POT 33 P2 AV2
.00 TIC TEN
.610 SBAOC 49 Hf 29 104 4.56 0
PCI 36 P2 AV3
.00 110 TEN
.610 SBACO 49 Hf 27 105 2.71 0
PCI 30 P2 AV1
.00 lEO TEN
.610 SBACO 51 Hf 27 105 2.22 0
POT 27 P2 AV2
.00 lEO TEN
.610 SBACC 51 Hf 27 105 1.34 0
PCI 20 P2 AV3
.00 110 TEN
.610 SBACO 51 Nj
+----+----#
+----+----+----f-.--f----f
+
+--4
+
+----+
+
+
+
4--f I
ROW 001 VOLIS DES IWO PER OHM LOON INOH1 INCN2 I
ORLEN ORWID CEO BEST ENDI POIA PIYPE CAL If f-.--+----f-.,-f
+
+
4--f
+
+----f
+
+
+
7
A Anti-Vibration Bar Wear Indications Braidwood 2 A2R12 CDI 20061001 10/26/2006 10:32:24 25 107 3.06 0
POT 31 P2 AV1 25 107 1.24 0
POT 19 P2 AV4 25 108 1.50 0
PCI 20 P2 4114
-. 02
-.10
.03
.17
-.24
-.05
.00
.00
-.05 TIC TEN
.610 58400 110 TEN
.610 SBAOC TIC TEN
.610 SBAOC TIC TEN
.610 SOACO TIC TEN
.610 SBACO TIC TEN
.610 SBAOC TIC TEN
.610 SBAOO 49 H
I 23 109 2.00 0
POT 23 P2 AV1
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128 Records:
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SO -0 Anti-Vibration Bar Wear Indications Bra idwood 2 42R12 CDI 20061001 f----+---f-+----f----f----+----f----f-+-f-f-4-4----+----+----+-+-f-f--f I
ROW CDL VOLTS DES IWO PER OHM LOOM INCH1 IWOH2 I
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Anti-Vibration Bar Wear Indications Braidwood 2
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ROW CDL VOLTS 015 IWO PER CNN LOON INCH?
IWON2 I
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Tubes:
86 Recordt:
139
Attachment B.6 Tubes Containing Preheater Wear
SG B
PREHEATER WEAR INDICATIONS Braidwood A2R12 CDE D5 Z
1 PREHEATER WEAR INDICATION AT A
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WontCngimano 51,017)3 Company LIC - ST Man 10)28/2006 17:48:48
SO B
Preheater Wear Indications Bra idwood 2 A2R12 ODE 20061001 10/26/2006 17:38:28 I
ROW 001 VOLTS DES INO PER CNN LOON INON1 INCH2 I
ORLEW CRWIO CEO BEST IMDT P014 PTYPE CAL If
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ROW COL VOLTS DIG IWO PER CNN LOON INCN1 INCH2 I
ORLEN ORWIO CEO BlOT INOT P014 PIYPE CAL Lj 4,---4----+
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. 59 1
Tubes:
4 Records: 22
SG - C PREHEATER WEAR INDICATIONS Braidwood A2R12 CDE D5 x
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25 0
PCI 1
56 0
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.610
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NJ 14 Cf 14 Cf 14 Cf 14 Cf 2
Cf 2
Cf 2
Cf 2
Ci 2
Cf 2
Cf 2
Cf 2
Cf 11 Nj 4/
Hf 47 NJ 4/
Nj 29 NJ 29 NJ 29 NJ 83 NJ 51 H
/0 Cf VO S
115 150 PER CFCN 0CM INCN1 IMCN2 I
CR1114 CRWIO CEO 8161 1.501 P314 PFYPE CAL If
OS A
lubes Plug9ed Our /1/9 A2R12 Bradwood 2
A2R12 I
IMSPDATE ROW COL I
1996 03,01 46 58 I
1996/03/01 46 59 1993.03/01 46 59 1991,10/01 46 58 1990 04,01 46 59 CDI 20061001 10 26, 2006 12 45 13
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1/
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430 1
556 0
PCI 1
89 0
PCI 1 01 166
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38 0
PC) 455 0
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PCI 51 149 DES 1 46 53 150
- 400 464 0
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PCI 1
13 8
PCI 50 156 010 4 21 0
PCI 1
56 0
PCI 59 162 015 NOD 3 97 0
PCT 1
64 0
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87 140 PCI 1 81 PCI NOD NOD 72 134 001 1 56 67 14814 10 71 S//I 13 257 PCI 13 73 PlO 9/
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1/
14 1-IBM 1
13 88 MOM NOD NOD 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 6?
40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 62 40 b/I 12
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200504/01 I
2005/04/01 I
2005 04,01 I
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2003/11/01 I
2003 11 01 I
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2007.04,01 I 200204/01 I
2000, 10/01 I
2000/10/01 I
2000 10/01 I
2000/10/01 I
1999/05/01 I
1998,05/01 I
1999.05,01 I
1997/10/01 I
199//10/01 I
199//10/01 I
1997/10/01 I
1896,03/01 I
1996/03/01 I
1896)03/01 I
1993/03/01 I
1991/10/01 I
1990/04/01 1
2005,04/01 I 2005/04/01 I 2003/11/01 I 2802/04/01 I
2002,04/01 I
2000/10/01 I
2000/10/01 I
1999/05/01 I 1997,10,01 I 1997/10/01 I
1896/03/01 I
1996/03/01 I
1993/03/01 I 1991/10/01 I 1990/04/01
/
288*
84 8/
I 2085,04/01 I
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08C P2 AV2 39 P2 41/2 21 P2 A//I 1
SOC 6
08C 39 P2 AV2 20 P2 41/3 1
OOC 6
08C 36 P2 41/2 20 P2 AV3 1
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02C 2
0iaH 16 2
05H 2
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02C 6
020 6
02C 6
0?C 6
0?C 6
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20 CI 20 Cf 20 Cf 4
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CRIFN CRWID CEO BEE/I [MDI I
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34 0
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66 1 39 0
0 PCI PC 30 21 P2 P2 AV4 All
.16 00
TIC TIN TE~-I TIC 610 610 ZBARN RBARN 51 Nj 72 C~
C 2003 11,01 41 74 3
54 0
PCI 35 P2 41/2 00 TEN IC 610
)~BARN 22 Cf I
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2003/11,01 I
2002/04/01 41 41 41
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0 91 PCI PCI IMR 37 30 P2 P2 6
4/3 41/4 03H 00
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Cj I
2002 04/01 I
2002,04,01 I
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75 3
75 0
0 0
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Cf 6
Cf I
2002,04/01 41
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48 5
PCI 29 P2 41/4
.00 lEN TIC
.610 MBART 6
Cf I
2000,10,01 41
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24 85 MOM 6
03N 5 63 TIN TIC 610 I/BARN 10 Cf I
2000,10/01 I
200010,01 41 41 74 74 1
40 17 82 85 INR INR 6
6 03N 08N 32 86 1.83 TIN TIC TEN TIC 610 610 I/BARN I/BARN 10 Cf 10 Cf I
2000 10,01 I
2000/10/01 41 41 74
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73 83 MOM 6
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1999,05/01 j
1999/05/01 41 41 74 74 2.85 1
21 76 0
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1999/05/01 41
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PCI 37 P2 41/3
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59 0
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199//10/01 41
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03N 5.64 TIC IEH
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1997/10/01 41 74 1 04
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03H 33 06 TIC TEN
.610
[BALL 55 Hf I
1997/10/01 41 74 1
70 83 14814 6
SON 1.51 TEC TIN 610 EBALL 55 Nj f
199/,10/01 41
/4 1 26 PCI 16 P2 A//I
.610
[BALL 55 Nj I
1997/10/01 41 74 2 40 PCI 26 P2 41/2
.00 TIC TEN
.610 18411 55 Hf I
199/,10/01 41
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199/<70/01 41
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TON TON 610 ZPOHF 87 Nj I
1996 03/01 41 74 3 05 84 MOM 6
03H 5.61 TEH TIC 610 IBALL 50 Cf I
1996/03/01 41
/4 2
.19 82 I/BM 6
SIN 33,06 TFH TIC 618 IBALL 50 Cf I
1996,03/01 41 74 6
/1 79 M8M 6
.610 EBALL 50 Cj I
1996/03/01 41 74 1 34 PCI 20 M2 A//u
.00 TEN TIC 610
[BALL 50 Cf I
1996/03/01 41 74 1 64 PCI 23 M2 41/2
1996/03/01 41 74 3 00 PCI 33 M2 AV3
1996/03/01 41
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32 8/
MOM 6
03N 5.49 6.75 TIC TEN 610 18411 38 Nj j
1993/03/01 41 74 1 55
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1993/03101 41
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SON
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1993/03/01 41 74 1 59 PCI 24 M2 AV3
.00 TIC TEN 610
[BALL 38 Nj j
1993/03/01 41 74 2 09 PCI 28 M2 41/4
.00 TIC TEN 610 IBALL 38 Nj I
1991/10/01 41
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[84MB 36 Nj 1990/04/01 41 74 NOD 1
TIC TIN 610 184MB 41 Nj 40 85 1
32 0
PCI 19 P2 AV1
.00 TIC LEN 610 ZBAZC I
40 85 3 46 0
PCI 33 P2 AV2
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PCT 40 P2 41/3
?BAZC 40 85 1
31 0
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PlO P2 41/3
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2 CI 33
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03 PCI 16 I/2 ft~//2 00 TIC lEN 610
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01 PCI 32 Il?
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0 PC 40
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~<70 014CC 4i N
I
,5 0
C 21
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610 S8ACC 47 Hf VOLS 00 IMO PER C/CM 16CM IlCNI IMCN2 I
CRIEN CRWID CIG BEE/I 11401 lOlA PLYPE CAL If 4-4-
1
+
I t
4-
+
4-
+
F 4-1/
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3
OS A
Tubes PTuyyed Our/ny A21T12 Br,,dwood 2
A2R12 I
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2005 04/01 32 39 2005,04,01 32 99 I 2003 11 01 32 99 200311,01 32 9
I 2053,11/01 32 99 I2003 11,01 32 99 C 2002 04/01 32 99 I2002 04/01 32 99 2002 04,01 32 99 I
2000 10/01 32 99 I 2050, 10/01 32 99 I 2000,10,01 32 99 I
1999 05/01 32 99 I
1999/05/01 32 99 I
1999/05,01 32 99 I
1997/10/01 32 99 I
1997/10/01 32 99 I
1997/10/01 32 99 I
1997/10/01 32 99 I
1996 03/01 32 99 1993 03/01 32 99 I
1991/10/01 32 99 I
1990,04/01 32 99 INS/DATE ROW CDI 0
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PlO 0
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PCI 85 IBM
.500 0
PC 3
0 1MR 79 I/SM O
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PCI
[32 I/SM 0
PCI 80 I/BI/
MOO 0
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DIR 84 I/SM PCT PCI 80 MOM MOD PCI MIlD NOD NOD
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.00 00 7.21 00 6 83
.00
.00 6.81
.00
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.00 TIC TEN TIC TIN TIC TEN TIC TEN TIC TEN TIC TEN TSN TON TIN TIC TIN TIC EN TIC TEN TIC TIN IC TIN TIC TIN T
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VOLS DIG ISO PER CNN 10CM INCN1 INCN2 I
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23
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18 3
80 1
31 92 6 19 3 24 1
08 5 48 2 99 5 84 1.86 81 3 66 2 16
- 1. 21 3 79 1 30 4-4-
--4--
+
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4------
4-17 P2 AV4 6
SIC P2 41/2 38 P2 41/2 19 P2 41/3 6
01C 35
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AV2 17 P2 41/3 P2 41/4 6
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4---
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CRLEN CRWID CIS BEST ENDT P034 PIYPE CAL If 4-
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6*-a-.-,-
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CRISULT OF RESOLUTION PROCESS I 2000,1001 49 63 000 IS/I TOM
.610 ZPANM 11 H
I 1999,0501 49 63 ODD TI/I TIC 510 I/BALL 30 Of 1997/10 01 49 63 NOD 1
IS/I TSH
.610 ZPSHF 10 H
/
1997,1/0/01 49 63 NOD 1
TIC TI/-I
.610 EBALL 94 H~
I 1996,03/01 49 53 MOD 1
TI/I TFC 610 FRAIL 44 C
I l994/10i01 49 63 NOD 1
~EM TIC
.610 184MB 2
C 1993/0301 49 63 NOD 1
TIC TIM 610 184MB 30 H
199l/10Ol 49 63 000 1
TIC TI/I
.610 104MB 37 H~
1990/04:01 49 63 000 1
TIC TIM
.610 IBAMB 47 H,
I
+
+
+----+
+
+--+
+
INSPOA~1 ROW CDL VOLTS 015 100 PER OHM LOON 100/Il INO/I2 BEST lOOT
/014 PTYPI CAL I
0DM
+
+----+
+---
+---*----*
Iubas 4
Records 109