NL-04-065, Request for Additional Information Regarding Steam Generator Tube Inspection Reports for the 2003 Outage, Indian Point Nuclear Generating Unit No. 3
| ML041560463 | |
| Person / Time | |
|---|---|
| Site: | Indian Point  |
| Issue date: | 05/25/2004 |
| From: | Kansler M Entergy Nuclear Northeast |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| NL-04-065, TAC MC1912 | |
| Download: ML041560463 (38) | |
Text
Entergy Nuclear Northeast Entergy Nuclear Operations, Inc.
%Entergy 440 Hamilton Avenue White Plains, NY 10601 Tel 914 272 3200 Fax 914 272 3205 Michael R. Kansler President May 25, 2004 NL-04-065 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001
Subject:
Indian Point Nuclear Generating Unit No. 3 Docket 50-286 Request for Additional Information Regarding Steam Generator Tube Inspection Reports for the 2003 Outage, Indian Indian Point Nuclear Generating Unit No. 3 (TAC NO. MC1912)
References:
- 1. USNRC letter from Patrick D. Milano to Michael Kansler, "Request for Additional Information Regarding Steam Generator Tube Inspection Reports for the 2003 Outage, Indian Point Nuclear Generating Unit No. 3 (TAC NO. MC1 912)", dated April 6, 2004.
- 2. Entergy letter to NRC, NL-03-182, regarding "Steam Generator Tube Inservice Examination Results for Refueling Outage 12 (R12)", dated December 8, 2003.
- 3. Entergy letter to NRC, IPN-99-129, regarding "Steam Generator Inservice Inspection Results", dated December 17,1999.
Dear Sir:
Reference 1 transmitted to Entergy Nuclear Operations, Inc. (ENO), a request for additional information (RAI) regarding the Indian Point 3 steam generator (SG) tube inspection reports for the 2003 outage. Attachment 1 to this letter provides ENO's response to Reference 1. Attachment 2 of this submittal provides a copy of Attachment 2 to ENO's December 17, 1999 letter (Reference 3), as requested by question 10. Attachment 2 of this submittal includes Revision 1 to the original Westinghouse Proprietary 2 document. Revision 1 has been reclassified as Westinghouse Proprietary 3, which permits unrestricted distribution of this document. No information was removed from the original report for reclassification.
PC)q I
There are no new commitments made in this letter. If you have any questions, please contact Ms.
Charlene Faison at 914-272-3378.
President Entergy N ar Operations, Inc.
Attachments:
I. Response to Request for Additional Information Regarding Steam Generator Tube Inspection Reports for the 2003 Outage, Indian Point Nuclear Generating Unit No. 3 (TAC No. MC1 912).
II. Resubmittal of Attachment 2 to Entergy's December 19,1999 letter to the NRC (IPN-99-129).
cc: Mr. Patrick D. Milano, Senior Project Manager Project Directorate I, Division of Licensing Project Management U.S. Nuclear Regulatory Commission Mail Stop O-8-C2 Washington, DC 20555 Mr. Hubert J. Miller Regional Administrator, Region I U.S. Nuclear Regulatory Commission 475 Allendale Road King of Prussia, PA 19406 Resident Inspector's Office Indian Point Unit 3 U.S. Nuclear Regulatory Commission P.O. Box 337 Buchanan, NY 10511-0337 Mr. Peter R. Smith President NYSERDA 17 Columbia Circle Albany, NY 12203 Mr. Paul Eddy New York State Dept. of Public Service 3 Empire Plaza Albany, NY 12223 2
A I I ATTACHMENT 1 RESPONSE TO REQUEST FOR ADDITIONAL INFORMATION REGARDING STEAM GENERATOR TUBE INSPECTION REPORTS FOR THE 2003 OUTAGE, INDIAN POINT NUCLEAR GENERATING UNIT NO. 3 (TAC NO. MC1912)
Entergy Nuclear Operations, Inc.
Indian Point Nuclear Generating Unit No. 3 Docket No. 50-286
A I I Attachment 1to NL-04-065 Docket No. 50-286 Page 1 of 6
In several locations, the reports reference tube support structures (e.g., 1C) and tube locations (e.g., Row 29, Column 17). In order for the NRC staff to better understand the location of the indications, provide a sketch of the IP3 SGs that depicts the tube and support naming conventions. In addition, provide the following general design information: (a) tube manufacturer and (b) tube support (including anti-vibration bar) thickness. Discuss reference datum for the measurements from a tube support such that it is clear whether the measurements are from the middle of the support of the edge or the support (e.g., does A V2 minus 0.6 inch specify an indication 0.6 inch from the bottom edge of the second anti vibration bar?).
Response: Sketches of the tube locations and support structures are provided in Figures 1 and 2 respectively. (a) The manufacturer of the steam generator (SG) tubing is Sandvik. (b) The dimensions of the support structures are as follows: the flow distribution baffle is 0.76' thick, tube support plates are 1.125" thick and AVBs are 0.690" wide on the side contacting the tubes. It is important to note that the AVBs are not perpendicular to the tubing such that the contact length varies from 0.697 through >1.50 inches. All indication locations are reported relative to the centerline of the nearest support structure except for indications within and near the tubesheet.
For indications within and near the tubesheet the locations are reported relative to either the tube end (TEC or TEH) or the secondary face of the tubesheet (TSC or TSH). In the example from the question, AV2 minus 0.6 inch specifies an indication 0.6 inch from the centerline of the second anti-vibration bar in the direction of AV1.
- 2) Provide the completion date for RFO 11 and state whether any SG tube inspections were performed during that RFO. The staff notes that the August 19 report implies that inspections were performed (i.e., 'a.. wear scars were not identified during Refueling Outage 11 because sludge lancing occurred after the IS.'). However, the December 8 report indicates that no eddy current inspections were performned.
Response: RFO 11 was completed on May 24, 2001. No SG eddy current inspections were performed during RFO 11. The August 19, 2003 report inadvertently implied that an ISI eddy current examination was performed in RFO 11.
- 3) Provide the completion date for your SG tube inspections in 1999.
Response: The completion date for the IP3 SG tube inspections in 1999 was October 2, 1999.
4 I Attachment 1to NL-04-065 Docket No. 50-286 Page 2 of 6
- 4) Three tubes were reported as having restrictions such that a 0. 700-inch bobbin probe could not pass through the U-bend region. Discuss: (a) the largest size probe that passed through these tubes during RFO 12, (b) the largest size probe that ever passed through these tubes, and (c) the source of these restrictions. Also, provide the bend radii of the first three rows of tubes.
Response: (a) The largest size probe that passed through the three restricted tubes in SG34 (Row 3, Column 49; Row 3, Column 50; and Row 3, Column 57) during RFO 12 was 0.680". (b) Records from the pre-service inspection performed in 1988 indicate that a 0.740" bobbin probe was passed through those tubes. (c) When the restriction to the bobbin probe was identified, the U-bends were retested with a 0.680" motorized rotating pancake probe (MRPC). The data from the MRPC indicated no detectable degradation. Based on that information the source of the restriction is assumed to be a combination of slightly higher ovality of the tubing in the U-bend region than in other tubes and use of different bobbin probe designs. The bend radii of the first 3 rows of tubes are: 2.187", 3.421" and 4.656" for rows 1 through 3 respectively. Additional radii can be determined by adding an additional 1.2344 inches for each row.
- 5) All hot leg dents in the straight section of the tubes were inspected with a rotating probe if the dent voltage was greater than 5 volts. Discuss whether the calibration procedure (for measuring dent size) is consistent with the guidance described in Generic Letter (GL) 95-05, "Voltage-Based Repair Criteria for Westinghouse Steam Generator Tubes Affected by Outside Diameter Stress Corrosion Cracking," or is consistent with industry guidelines. Also, discuss whether the dents and dings found during the RFO 12 inspection were traceable back to the baseline inspection and discuss any changes in magnitude. If the dents or dings are not traceable to your baseline inspection and/or have changed in magnitude, discuss the reason for any change.
Response: The calibration of the eddy current techniques used to monitor dents and dings is consistent with industry guidelines. The techniques are qualified in accordance with Appendix H of the EPRI (Electric Power Research Institute) SG Examination Guidelines. Bobbin coil voltage is used to monitor the size of the dents and a sampling of dents greater than 5 volts with rotating pancake coil probes confirms the absence of stress corrosion cracking in the dents. Of the 65 dent and ding indications identified in RFO 12, thirty-two could be traced to indications reported in the baseline inspection. Dents and dings as low as 1.91 volts were recorded in RFO 12 compared to 3.0 volts in the pre-service baseline inspection.
This would explain why 31 of the RFO 12 indications between 1.91 and 2.88 volts did not have comparable indications recorded in the baseline inspection. One indication was recorded as 3.03 volts. The one remaining indication not traceable to the baseline inspection was a 6.02 volt ding identified in SG33 at 6H+4.10". The raw data from the baseline inspection is not readily available for reanalysis to determine if the indication was missed during the baseline inspection or present below the threshold voltage of 3.0, however it was previously identified in RFO 9 in 1997 and measured 5.38 volts. This represents only a 12 percent change which is within the variability of the inspection technique. Therefore there is no need to reevaluate this
I Attachment 1to NL-04-065 Docket No. 50-286 Page 3 of 6 indication at this time. There are no indications that would lead us to believe that the dents/dings are changing in magnitude. All dent and ding indications found during RFO 12 were screened to determine if a history review and/or additional diagnostic testing was required. All history reviews were performed by two resolution analysts.
- 6) One tube was classified as having a "trackable anomaly. "Define this classification.
Response: A trackable anomaly (TRA) is defined as a "signal from Bobbin or RPC that is not believed to be flawlike but is flagged for tracking in subsequent inspections." The TRA code is considered a category VII indication that requires an indication review, history review, diagnostic sampling or engineering evaluation. Any TRA indications are added to the sample population at the next inspection of that steam generator.
- 7) Clarify whether the tubes with possible loose parts signals were visually inspected to confirm the nature of any potential loose parts. Provide the location of these indications. If visual inspections were not performed and/or the part was not removed, discuss the analyses performed to ensure these potential parts do not compromise tube integrity for the period of time between inspections.
Response: Four possible loose part (PLP) indications were identified in RFO 12. In all four cases, the surrounding tubes were inspected with eddy current and there were no additional PLP indications. Visual inspections were performed on the two tubes (Row 29, Column 28 and Row 30, Column 28) with PLP indications in SG31 and there was no evidence of any foreign objects.
The other two PLP indications were in locations inaccessible to visual examinations.
One of the two PLP indications was identified in SG31 at 0.09" above the tubesheet on the hot leg at Row 24, Column 46. The second PLP indication was identified in SG34 at 0.49" above the tubesheet on the hot leg at Row 4, Column 45. Because these two PLP indications were in locations inaccessible to visual examinations, were limited to single tubes and no wear was detected, the PLP indications were assumed to be from sludge deposits on the tubes. No further evaluation was required.
- 8) In 1997, a free span bobbin indication was identified in one tube in SG 34 (Row 8, Column 21). During that outage, a rotating probe inspection was performed at this location which revealed the presence of a small ding.
Discuss whether any indications were identified in this region of the tube during your 2003 outage, and discuss whether the bobbin signal has continued to change.
Response: This tube was not inspected during the 2003 outage or in the refueling outages between 1997 and 2003. Reinspection of this tube was not required or
Attachment 1 to NL-04-065 Docket No. 50-286 Page 4 of 6 considered necessary until its regularly scheduled inspection expected to take place during RFO 14.
- 9) During the 1997 outage, possible indications of erosion-corrosion were identified in two J-tube joints (refer to page 11 of 31 of the December 19, 1997, report). The report further indicated that these J-tubes would be reinspected at a later outage to determine if the erosion-corrosion is progressing. Have these additional inspections been performed? If so, describe the results of these inspections.
Response: A follow-up inspection of those J-tube welds in SG34 has not yet been performed because the inspection rotation for secondary side steam drum inspections has not been completed. The 1997 inspection was performed in SG34.
In 1999 and 2001, steam generators 33 and 32 were inspected respectively and there were no indications of erosion corrosion of J-tube welds to the feed ring. The next planned steam drum inspection of SG34 is in RFO 14 which is scheduled for 2007. Based on the fact that the last visual inspection was inconclusive and the fact that there is no evidence of wear at the J-tube nozzle for any other SG's there was no justification for accelerating the inspection of the steam drum in SG34.
- 10) The staff's review of the 2003 inspection results included referring back to the previous inspection results which were provided by letter dated December 17, 1999. In reviewing this document (ML003670350), it appears that portions of Attachment 2 were not incorporated into the NRC's document management system. Provide a copy of Attachment 2 to the December 17, 1999, letter.
Response: A copy of Attachment 2 to the December 17, 1999 letter has been included as Attachment 2 of this letter. Attachment 2 to the December 17, 1999 letter included a copy of Revision 0 of the Condition Monitoring and Operational Assessment for the steam generator inspections performed at Indian Point 3 during RFO 10. Attachment 2 of this submittal includes Revision 1 to the original document prepared in 1999. Revision 1 has been reclassified as Westinghouse Proprietary Class 3, which permits unrestricted distribution of this document. No information was removed from the original report for reclassification.
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Attachment 1 to NL-04-065 Docket No. 50-286 Page 6 of 6 Figure 2 Illustration of Support Structures In the 1P3 Replacement Steam
,r Generators
- 6C Structural Data Anti-Vibration Bars (3 sets) are 0.690" wide on the side contacting the tubes. Sets 1, 2 & 3 supports
-SC rows 9+, 14+ & 25+ respectively.
Tube support plates (6) are 1.125" thick with quatrefoil broach holes
-4C Flow distribution baffle (1) is 0.75" thick with center cutout approximately 35" in diameter and octafoil broach holes.
3C Tubesheet is 21.96" thick inclusive of 0.150" thick cladding on the primary side.
Tubing is Inconel 690TT made by
-2C Sandvik (Sweden); 0.875" OD; 0.050" wall thickness Number of tubes is 3214 arranged in a square pitch pattern 1.2344"
-1C on center. There are 45 rows and 92 columns.
Tube length ranges from 56.53' for row 1 to 71.35' for row 45.
-BPC U-bend radius for row 1 is 2.187".
-TSC TSC - Tubesheet Cold TSH - Tubesheet Hold TEC - Tube End Cold TEC TEH - Tube End Hot
ATTACHMENT 2 RESUBMITTAL OF ATTACHMENT 2 TO ENTERGY'S DECEMBER 17,1999 LETTER TO THE NRC (IPN-99-129).
Entergy Nuclear Operations, Inc.
Indian Point Nuclear Generating Unit No. 3 Docket No. 50-286
SWestinghouse Westinghouse Electic Company Nuclear Services Waltz Mill Service Center P.O. Box 158 Madison. Pennsylvania 15663 USA Mr. Curt Ingram Directtel: 724-722-5658 Entergy Nuclear Operations, Inc. Dir.ctfax: 724-722-5166 440 Hamilton Avenue e-mail: irasmewestinghouse.com lWhite Plains, NY '10601 Our ref INT-04-124 April 23, 2004 Entergy Nuclear Northeast Indian Point Unit 3 CMOA Report SG-99-10-003 Revision I
Dear Mr. Ingram:
Enclosed with this transmittal letter is a copy of the Condition Monitoring and Operational Assessment for the steam generator inspections performed at IP3 during 3R1 0. The report is being issued as Revision 1 to the original document prepared in 1999. Revision I has been reclassified as Westinghouse Proprietary Class 3, which permits unrestricted distribution of this document. No information was removed from the original report for reclassification.
If you have any questions, please contact Herm Lagally at (724) 722-5082 or me. Thank you!
Sincerely, Steve Ira Customer Projects Manager
/Ars Enclosure cc: Bob Cullen Bob Penny Official Record Electronically Approved in EDMS2000 A BNFL Group company
Our ref: INT-04-124 Bcc: Herm Lagally Carl Schwartz l,
DEC DOCUMENTUM
REFERENCE:
SG-99-10-003, Revision I A BNFL Group company
. I SG-99-10-003 Revision 1 Indian Point 3, RF10 I.
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SG-99-10-003 Revision 1 1.0 Introduction and Background NEI 97-06 (Reference I) requires that a Condition Monitoring (C-M) evaluation be performed following each inspection to assess the structural integrity of the steam generators (SG) based on the results of the eddy current inspections. Based on the appropriate EC signal parameters, the CM evaluation is "backward looking" and assesses the structural integrity of the degraded tubes against structural and leakage integrity limits that are included in the Degradation Assessment (Reference 2) prepared prior to the inspection. Additionally, a "forward looking" evaluation, or Operational Assessment (OA), is required to project the inspection results and trends to the next inspection to provide reasonable assurance that the structural and leakage requirements will continue to be met until that time.
This report documents the condition monitoring and preliminary operational assessments for Indian Point 3 for the inspections performed at the RF1O (4t" refueling outage after SG replacement) inspection. The Indian Point 3 SGs are Westinghouse Model 44F SGs with thermally treated Alloy 690 tubing, full depth hydraulically expanded tube to tubesheet joints, and stainless steel tube support plates with quatrefoil tube holes.
2.0 Summary and Conclusions The results of the RFHO inspection confirm that the Indian Point 3 SGs currently meet all industry and regulatory structural and leakage integrity operational requirements.
The only degradation mechanism observed during RF1O was tube wear near the top of the tubesheet (ITS),
attributed to the prior presence of loose parts. No loose parts were observed currently at the location of the observed wear.
Based on the results of the current inspection, satisfactory operation of SGs 31 and 32, which were inspected during RFI0, is expected through end of cycle 12 (EOCl2), when they will be next inspected. Similarly, satisfactory operation of SGs 33 and 34, which were not inspected during RFIO, is expected through EOCI 1, when they will be next inspected.
3.0 Inspection 3.1 Indian Point 3 RF10 Inspections Performed The inspection included 2 SGs, 31 and 32. The actual inspection performed at RFIO exceeded both the technical specification minimum requirements and the requirements of Reference 3. The RFHO inspection of SGs 31 and 32 included:
3 C:\Documcntum\Checkout\SG 10-003.doc
II SG-99-1O-003 Revision 1
- 1) Full length inspection of 100/oofthe tubes (except Row I Ubends) using the bobbin probe.
- 2) Inspection of 40% of the Row 1 and Row 2 Ubends using the RPC (+Point) probe.
- 3) Top of tubesheet inspection, +/-3", of 40% of the tubes using the RPC (+Point) probe.
- 4) All Dings and Dents >5 volts in the straight leg of the hot leg, using the RPC (4 Point) probe.
- 5) All bobbin indications that were new or not resolved after history review, using the RPC (+Point) probe.
- 6) Thirty tubes' at the TIS to bound possible loose parts indications, using the RPC (+Point) probe.
3.2 Indications The following table is a summary of the indications found during RF1O. None of these indications represents a continuing tube degradation mechanism. All indications were dispositioned in accordance with the guidelines of the Degradation Assessment, Reference 2, and the Indian Point 3 Eddy Current Data Analysis Procedure, Reference 5.
Summary of RF10 Inspection Results Indications/Signals SG 31 SG 32 Possible Loose Parts (PLP) 0 2 Support Plate Indications (DSI/DSS) 2 0 Loose Parts Wear (VOL) 0 3 Freespan signals (FSD/MBM) 51/49 27/38 Dings and Dents (DNG, DNT) rrotal/t5V] 70/15 47/5 Permeability Variations 0 I Trackable Anomaly (IRA) 0 The degradation observed at Indian Point 3 during the RF1O inspection was limited to loose parts wear observed at the top of the tubesheet (ITS). No tube corrosion mechanisms were observed.
Two distorted support plate bobbin signals (DSI) were reported in SG3 1. The indications were re-tested using the RPC (+Point) probe; both were confirmed without degradation.
Dings and dents were reported as noted in the table above. Dings and dents Ž5V located in the straight legs of the hot leg were tested with RPC and confirmed to be free from degradation.
Freespan signals (Freespan Differential and Manufacturing Buff Marks) were reported as noted above. The number of indications noted in the table above is the number that showed no change compared to prior data for the same indications. Additional freespan bobbin signals were reported for which no prior data were available or for which the current signal reflected a change from the previously reported signals. All of these "new" and "changed" signals were tested with the RPC and were shown free from degradation.
4 C:\Documentum\Checkout\SG 10-003.doc
SG-99-10-003 Revision 1 A permeability variation (PVN) was reported in SG 32 in the straight section of the cold leg between the 5 th and 6 th TSPs. Since no other degradation was found in the freespan region of the tube, no additional testing was required. The tube with this indication was kept in service, consistent with the guidelines ofReference 2; A trackable anomaly (IRA) was reported in SG 32. This non-flaw-like indication was resolved by a history review, consistent with Reference 5.
3.3 Plugging Summary No tubes required repair (plugging) during the RFIO inspection.
4.0 Condition Monitoring 4.1 Pre-Outage Degradation Assessment A pre-outage degradation assessment was performed for Indian Point 3 (Reference 2). This degradation assessment identified the degradation modes that could potentially occur at Indian Point 3 and evaluated the eddy current techniques applied for detection and sizing of these mechanisms. The degradation assessment (Ref 2) concluded that there are currently no active degradation mechanisms in the Indian Point 3 SGs. Wear due to loose parts was categorized as a relevant degradation mechanism due to the prior confirmation of loose parts at Indian Point 3. Potential degradation mechanisms were identified with a very low likelihood of occurrence at Indian Point. These were AVB wear, OD Pitting, transition zone ODSCC, U-bend cracking, ODSCC at dings and ODSCC in the sludge pile or freespan.
Another category was identified in the degradation assessment as "Resolution of Unclassified Signals". This category is a class of signals that require a process to be applied to assess signals not readily assigned to a degradation mechanism to resolve them with respect to tube repair disposition. These include precursor signals such as Manufacturing Burnish Marks, Dings/Dents and Permeability Variations, and Tubesheet Anomalous Signals.
4.2 Degradation Structural Limits The Indian Point 3 pre-outage degradation assessumient, Reference 2, identifies structural limits for the relevant and potential degradation mechanisms. For tube wear (such as occurring due to loose parts), the structural limit is based on a bounding assumption of uniform thinning of the tube. Reference 2 provides a conservative lower bound estimate for a 1.5" long uniform thinned region of the tube of 60% TW. Thus, any wear indication with a measured depth less than 60% throughwall (after applying the applicable NDE measurement uncertainty) satisfies all structural integrity recommendations.
Structural limits for other degradation mechanisms are provided in Reference 2; however, no degradation other than wear due to loose parts was observed during the RFIO inspection.
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SG-99-10-003 Revision 1 4.3 Active Degradation Mechanisms There are currently no active degradation mechanisms in the Indian Point 3 steam generators.
4.4 Relevant Degradation Mechanisms The relevant degradation mechanism identified in Reference 2 for Indian Point 3 is wear due to loose parts resulting from the confirmation of confirmation of loose parts in prior inspections of the Indian Point 3 steam generators (Reference 4,).' During the RF09 inspection, several possible loose part (PLP) indications were associated with a loose partw (wire) that was removed from the SG. During RFI0, several foreign objects were removed from the SGs. In SG 32, three tubes (see following table) were reported during the TTS (+/-3" ) 3-coil
+Point RPC program with small volumetric, wear-like indications at the top of the tubesheet hot leg. Although no loose parts were identified at this location, the probable cause of the degradation is wear due to a previously existing loose part. These tubes are located at the periphery of the bundle, typically where loose parts would be expected to be located. Thus, the location of these tubes supports the interpretation of the volumetric indications as wear due to loose parts.'
These indications were sized by constructing a volts versus percent depth curve with the 0.115 Pancake and the
+Point probes using the 20% and 41% flat-bottomed holes on the ASME calibration standard and also the 20%
and 43% notches on the AVB wear standard. Sizing was performed using both the 300kHz and 300/100 kHIz mix channels. This approach is based on application of ETSS# 96910 for +Point and ETSS 96911 for the Pancake coil, qualified for straight-length tube section wear, with a POD of 0.92 and a sizing RMSE of 7.6% for the +Point coil and 12.5% for the pancake coil.
The table below summarizes the depth sizing using these methods. The greatest depth obtained for these tubes was 23% based on the 0.115 Pancake coil, 300kHz channel, set up using the ASME 20% flat bottomed holes.
The largest estimate of wear depth based on the +Point probe was 18% TW for all of the indications.
0.115 Pancake +Point Coil Coil SG Row Col Location ASME Std. ASME Std. AVB Wear Std.
300 300/100 kHz 300 kHz 300/100 300 kHz 300/100
. kkHz kHz . kHz 32 40 29 TSH 21 15 15 15 14 15
-0.08 to +0.18 32 41 29 TSH 13 NA 10 10 11
-0.07 to +0.04 32 41 28 TSH 23 NA 17 18 15 18 0.07 to +0.1 I The tubes surrounding these locations were tested using the RPC probe to confirm the presence or absence of a loose part. No loose parts were identified at the location of these tubes, although loose parts were removed from other locatiorn of the SG tube bundle. Since no loose parts were identified, and the maximum wear associated 6
C:\Documentum\Checkout'S(g99- 10-003.doc
S10-003 Revision 1 with these signals is only 23%, well below the Technical Specification plugging limit of 40 V/o, these tubes were kept in service and will be monitored in future inspections. The wear indications do not represent a challenge to structural integrity since the potential throughwall depth of 35.5% [measured depth (23%) plus the applicable measurement uncertainty (12.5% RMSE) for ETSS 96911] is well below the conservative lower bound structural limit of 60% TW.
4.5 Potential Degradation Mechanisms No pitting or corrosion related degradation was reported in the Indian Point 3 SGs during RFI 0. No AVB wear.
or anomalous signals in the TS region were reported.
4.6 Resolution for Classification of Indications The data from prior inspections were examined for current freespan indications for signal changes that might indicate onset of degradation. Bobbin indications that could not be detected in the baseline data or exhibited a change of signal from the prior inspection data were tested with the RPC probe. There were no confirmed indications for any freespan indication, from either bobbin or RPC testing.
4.7 Condition Monitoring Conclusion All indications found during RFIO satisfy the condition monitoring requirements of Reference I for structural and leakage integrity. No indications were found to exceed any applicable repair or structural limits. These conclusions are based on the evaluations included in this report and summarized below:
- 1. No indications of degradation, other than the result of wear due to the prior presence of loose parts, were reported during RF IO.
- 3. Wear due to loose parts was sized at approximately 23%, well below the Technical Specification plugging limit of 40%/a.
- 4. Application of the NDE uncertainty of 7.6% RMSE for ETSS 96910, the technique utilized to size the wear indications results in a potential wear depth of less than 31% TW, which is less than the applicable structural limit of 60% TW. Thus, the 'relevant" degradation mechanism identified for Indian Point 3 meets the structural integrity requirements of draft Reg. Guide 1.121.
- 4. No pitting or corrosion related degradation mechanisms were observed.
- 5. No degradation indications were observed related to precursor signals such as dents, dings, permeability variations, etc.
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SG-99-10-003 Revision 1 5.0 Operational Assessment NEI 97-06 requires that an Operational Assessment be performed to assess if degradation mechanisms observed in a plant will continue to meet tube structural and leakage integrity requirements at the end of the upcoming cycle.
The observed wear due to the prior presence of loose parts is arrested at its current condition since no loose parts were detected adjacent to the tubes with indications. Other foreign materials that were detected in the SG were removed during the outage. Therefore, no growth in the observed wear is anticipated during the upcoming operating cycle. Since the current condition ofthe tubes is well within the structural limits applicable to the tubes and no growth of the we# is expected, and since there are no other identified degradation mechanisms in the Indian Point 3 SGs, it is concluded that the Indian Point 3 SGs will continue to meet applicable structural and leakage criteria until the next inspection (SGs 33 and 34) at EOCI 1. Based on the current inspection data, it is also concluded that SGs 31 and 32 will continue to meet applicable structural and leakage criteria until their next inspection at EOC12, subject to confirmation by the EOCI1 inspection results.
6.0 References
- 1. NEI 97-06 (Rev 1, Draft 3); Steam Generator Program Guidelines; October 1999
- 2. Westinghouse SG-99-04-004, Rev. 2; SG Degradation Assessment for Indian Point 3. RF1O Refueling Outage; April 1999
- 3. EPRI TR-107569-V1, Rev. 5; PWR Steam Generator Examination Guidelines.
- 4. Westinghouse NSD-SGP-97-INT-031; "ATS's Generated for Steam Generator Loose Parts"; July 2, 1997.
- 5. Westinghouse Procedure NSD-FP-1997-7971, Rev.5; Indian Point 3 Steam Generator Eddy Current Data Analysis Techniques.
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I 0 DOC3810:49)080999 Number & Rev I NSD-FP-1997-7971 Rev. 5
-Appendix B INDIAN POINT 3 ALLOWABLE ACRONYMS CategoryyI - No Further Action Required ,,
Code Used For Location Extent Acronym Description Required Required Bobbin RPC NDD No Detectable Degradation N Y X X (A blank rnay also be'used) '_.__
CUD Copper y y y DEP Deposit Y y X X PID Positive Identification yY X PLG Tube is plugged N N X X SLG Sludge Y Y X .
Category 11- Retest Required -_'_.
Code Used For Location Extent Acronym Description Required Required Bobbin RPC RAD Retest Analyst Discretion N Y X X RAV Retest with AVBSTD N Y X RBD Retest Bad Data N Y X X RFX Retest Fixture N Y X X RID Retest ID N Y X X RND Retest No Data 'N N - -X X RST Restricted Tube N Y X X Category 11. Diagnostic Testing Required After Resolutions Code Used For Location Extent Acrornym Description Required Required Bobbin RPC DNI Dent or Ding with Indication Y Y X DRI Distorted Roll Transition Indication Y Y X DSI Distorted Support Plate Indication Y X DTI Distorted Tubesheet Indication Y l X LPI Loose Part Indication Y Xx NQI Non-Quantifiable Indication Y X _ I POP 62 of 70 DOC0001 FRM:49
'S 9' 00CD3810:49=00999 Number &Rv PA-I. NSD-FP-1997-7971 R~ev. 5 -
I ,
1% .
Appendix B (Continued)
Category IV - Post. Diagnostic Test Result or Result of Historical Review Code Used For Location Extent Acronym Description Required Required Bobbin RPC DNH Ding or DeptUignal - Reviewed in History Y Y X DNS Ding or Den Signal - Non-Conwiming wIRPC Y Y X DRS Distored Roll Signal - Non-Cnfirming wRPC Y X DSS Distorted Support Signal - Non-Confirming Y Y X w/RPC DTS Distorted Tubepheet Signal - Non-Confirming Y Y X wIRPC FSS Free Span Signal - Non Confirming wYRPC Y LPS Loose Part Degradation Signal - Non-'. Y Y
______ Confirming wIRPC_ _ _ __ _ _ _
NOS Non-Quantifiable Signal -,Non-Confirmc Y Y X I______ wIRPC__ _ _ _ _ _ _ _ __ _ _ _
Category V - Repair or Engineering Evaluation Required . . . _l Code Used For Location Extent Acronym Description Required Required Bobbin ., RPC LCI Support Ligament Cracking Indication Y Y X X MMI Mixed Mode Indication Y Y X
. Multiple Axial Indication Y Y X MCI Multiple Circumferential Indication Y Y X MVi Multiple Volumetric Indication Y Y X SAI Single Axial Indication Y Y X SCI Single Circumferential Indication Y Y X Single Volumetric Indication No Qualified Sizing Y Y. X Technique _
Pop 63 of 70 rnPOcOOIFRM.49
L
'F-r
'II.
fl'IfO Lfl. wu#A I
Number &Rev-,
II IDF N.RNFMTD1
- -sOss-007_7074 vW RPV~k
- S rW.A W
Appendix B (Continuied)
Category VI - Review Indication, Review History, Diagnostic Sampling, or Engineering Evaluation Required Code Used For Location Extent Acronym Description Required Required Bobbin RPC i BLG Bulge __ y x DNG Ding .' _Y. Y X X DNT Dent Y x x FSD Free Span Differential Y Y X.
INF Indication Not Found Y Y X X .,
INR. Indication Not Reportable I Y Y X X LAR Lead Analyst Review Y Y X X MBM Manufacturing Buff Mark Y _ Y_. X NDF No Degradation Found Y Y X NTE No Tube Expansion Y Y X OXP Ove Expansion Y Y X PTE Partial Tube Expansion Y Y X PVN Permeability Variation Y Y X X PLP Possible Loose Part Y Y X X TRA Trackable Anomaly Y Y X X TSM Tube Support Missing Y Y X X VOL Volumetric Indication Qualified Sizing Technique Y r X I Page 64 of 70
SG 32 Cu~ul.ative Indication List from Refuel 18 1It~ian Point 3 Refuel 10 INT 19998981 1010311999 12:50:10
. .... ........ .... .... ....-. ... ..... ..... ..... ... .. ....4......- .... ........ 4 .... . 4.
IROW ;COL VOLTS' DEG IND PER 'CN4N LOCK INCHI IKCHZt I CRLEK CEG BEGT ENOTo PDIA PTYPE, CALI
........................ .. 'i.....4... .... ......................
11 2 5.61, 182 ONG L 3C 26.71. TEN TEC .720 NBARH 201 40 NOD2 TSH T49.21ZSC S I 3 5 RBD 6C TEC .720 NBARH 41+
I 3 5S 1.52 62 INR 6 IH 4.65 7.80 614 TER .720 kBARH SI I 3 5 NDD SC TEC .720 NBARM 61 3 5 NOD 6C 51H .700 NEARN' 23!
I 3 5 NOD TSH TSH .720 !PS3C 491 I, 2 6 NOD 614 TEN .720 NBARM 1 1 2 6 2.06 184 DKG 1 4C .4.6SC TEC .720 NBARN 21 I2 6 NOD SC 614 .680 ZPUNM 351 I2 6 NOD .TSH TSH -.720 ZPS3C 491 I3 6 RBD SC TEC .720 14BAR 41 I3 6 NDD 614 TEN .720 M4BARH SI 1 3 6 2.28 184 ONG I 3C 42.89- SC 1'EC .720 MB8ARH4 SI I 3 6 NOD , C 514 .780 MBARH 231, I, 3 6 NOD TSH TSH .720 ZPS3C 491 8 r- 3.13' 185 0KG 1 SN 32.66 ~ .- TEN TEC .720 "MMA 28!0 ..
-8 6 NOD ITSH TSH .720 ZPS3C 491 I11 6 2.20 186 DNG 1 5C 24.60 TEN TEC .720 MSARH 201 I11. 6 NOD . TSH TSH. .720 ZPS3C 491 I19 .6 .34 92 FSD 3 IN 9.55 TEN . TEC .720 + 8MBM 221 119 6 NDTSH. TSI{ .7280 ZPS3C 491 I14 7 .48 272 INR 6 414 4.71 TEH TEC+ .720 MBARH 221 1 1 7 1.22 67 INR S SC 49.60 TEN TEC .720N8AN .221 121 7 . NOD .TSH- TSH .720 ZPS3C 491 112 8 4.12 38 N8H 6 4C 9.86 .TEN TEC .720 MBAR 221
.j 3 11 RBD SC TEC .720 U4BARH 41 3 1NOD SN TEN '.720 NBARH .SI 3 1, 2.30 77 H181 6 2C 11.41 SC TEC .720 MBARH 61 1 1NOD S SH 1 .700 NARN .231 I26 11 4.58 36 XBM 6 *3C 47.29 .TEN . TEC' .720 NBARH 221-I 12 2.98 187 ONG 1 41 13.77 TEN' TEC .720 WIARN 281 I20 12 .23 59 FSD 3 TSH 19.38 TEN TEC .720 MBARN 2 I 3 .13 RBD SC TEC .720' MBARN 41-I 3 13 NOD SN TER .720 NBARN 5!
I 3 13 .28 74 FSD 3 2C 19.32 Sc TEC .720 NEAR 61S I 3 13 NOD 6C 514 -700 WBARN 231 I 23 13 .52 74 INR 6 EPC 6.40 TE ' TEC .720 MBARH 12!
I17 15 .2.18 118 MBM1 6 BpH 2.84 TEN TEC .720 MBARK 121 I27 15 .22 97 FSD 3 BpH 17.38 TEN. TEC .720 MBARN 181' I27 15 2.47 77 MBM1 6 1I4 4.95 TEN TEC .720 MBARH III I27 15 2.58 253 MBM1 6 114 24.06 TEh TEC .720 WBARN 101 I27 15 2.20 245 MBM1 6 214 1.93 TEN TEC .720 #4BARN 101
. 3 16 . B C TEC .720 NBAR 41 13 16 2.29 109 M48M 6 6H -1.37 614 TEN. .720 MBARK 651 I 3 16 NOD fiC TEC .720 NBAR 61 I 3 16 2.01 96 #48M 6 514 46.27- SC 5S4 .700 MBARN 23!
I28 16 2.46 78 #4BM 6 AV2 16.64 TSN TEC +.728 MB8AR 141 I20 16 2.28 82 MB81 6 AVZ 15.72 16.35 TEN TEC .720 115AR 341 I 29 16 2.35 154 DNG 1 3C 31.84 TEN TEC ;720 +MBARN 101 1 27 17 .86 257 INR 6 5C 16.28 TEN TEC .720 MBARN 101 1 27 17 NOD TSH TSH .720 ZPS3C 531 W 31 17 2.04 71 1481 6 AV6. 2.22 TEN TEC .720 MBARH 181 I31 17 NOD TSN TSH .720 ZPS3C 551
.4..... .............. 4.....4........ .............. ....... ... ................................44 . . ..... .. . 4.
.44 I ROW COL VOLTS DEG IND PER CNN LOCK INCH1 INCN2 I CPLEN CEG BEGT ENOT POTA PTYPE CAL I
4 .-------------------------------------------. 4............... .... .... .4............. 4...
1
SG -32 Cumulative Indication List from Refuel 10 Indsian Point 3 Refuel. 10 lINT 199.96961 10103I1999 12: 563:16
........ 4..... .......
.... . 4 .- -.......... --- 4.-.- ------.-........ 4.....
JAROW 'COL VOLTS DEG KINO PER CHU LOCH INCHI ICHC12 I CU.EW CE6 BEGT' ENDT, POIA .PTYPE CALl
.... ,.....,,. . .. . .. . .. . .. . .. t . --- --- ---- --- + ... ... ... ... ....
~,3 18 RBD 6C TEC .720 MBARH 41
- 3 18 NOD 6)4 TEN .720 MBARN 51 3, 18 2.69 74 t4BH 6. SPC 16.75 6C TE~C .720 IIBAAH 81 18I NOD 6C- 5)4 .700 NOARH 231.
I 3 18 NOD TSH TSH .726 ZPS3C 511 I I I, 21 18 .32 55 FSD 3 3C 44.41- TEN TEC .720 MOARII IL14 I 21 is, HDO TSH TS 720 ZPS3C 55I I31 18 IHF. 6 AV6 2.96 TSH TEC .720 NBARH 141 131 18 INF 6 AV6 2.98 TEN TEC+ .720 NSARH 341 I3t18 ISOND TSM TSM .720 ZPS3C 531 I34 18 3.61 89 1.191 6 4)4 41.11 -TEN TEC .720 NEARH 141 I34 18 NOD TSH TSH .720 ZPS3C 531 I12 19 1.21 243 INR 6 BpC 27.22 .TEH TEC .720 MBARH 181 31 19 2.26 183 DNG I1 M) 49.68 TSH TEC .720 MBARI4 141 I 1 -19 2.04 187 ONG 1 3)4 48.18 .TEN TEC .720 IIBARN 341 It1 20 1.32 93 INR 6 it 46>.91 TEN TEC .720 NBARH 181 23 26 2.24 183 DHG I AVS 8.76 TEN TEC .720 -MBARH 181 35 22 3.26 185 DHG 1 4)4 7.77. TEN TEC, .720 I4BAR)4 121 I35- 22 NOD TSH 1TS4 .720 ZPS3C 531
.123 23 2.07 181 ONG 1 iC 1643 TEN TEC .720 14BARN 161 I10 24 5.56 90 NBH 6 411 1.31 TEN TEC .720 NBARN 261 10 24 .36 86 FSD 3 SN 40.28 TEN' TEC '.720 AWNBA 261-I35 f ~ 5.25 187 IRR ml 5)4 11.20 TEN TEC .720 R4BARN 141
.35'-/25. 4.26 183 OHG 1 5)H 11.92 . TN Ec .729 .4mH 141 I35 25 NOD TSN T1)4 .720 ZPS3C 551 1I 2 .618 N M 31 I 11 2 .6 18OG1 S .7TEN TEC .726 WBARNI 281 1 26NDTSH 1T)H .720 ZPS3C 631 I16 26 1.29 67 INR' 6 3H4 16.53 TEN TEC .720 HDAPN 281 I 6 26 HOD TSH TSH .726' ZPS3C 531 I22 26 3.22 78 IIBM 6 3)4 26.89 TEN TEC .720 NOARM L81 I22 26 NOD TSN TSH .720 ZPS3C 531 27 27 2.10 181 OHS I AV6 1.68 TEN TEC .720 MBAAH .141 I4 28 HOD . 6C TEC .720 MBARH 661 1 4 '28 1.75 262 INR 6 2)4 13.72 6)4 TEN -. 720 HBARH 711 I 4 28 NOD 6C SN .706 ?4BH 791 I 9 28 1.53 179 INR 1 2C 18.03 TEN TEC -.726 WOARN 301 I 9 28 1.86 68 INR 6 +2C 18.37 TEN TEC: .720 KBARN 301 I41 28 HOD TEN TEC .720 MBARH 261
- I41 28 .38. 126 VOL 3 TSH .11 0 .. 296 61 TSN TSH .720 ZPS3C 491 I41 28 .8l 0 PCT 23 2 TSH .11 TSN TSN .720 ZPS3C 671 I 4 29 1.91 -94 INR 6 4C 19.62 .6C TEC .720 MSARN 661 I 4 29 HOD .6)4 TEN .720 IIBARM 711 I 4 29 HOD 6C- SN .700 HBARN 791 I12 29 1.49 263 1WR 6 BpH 11.03 TEN TEC .720 WBARN 301 I25 29 1.89 79 INR 6 3C 21.17 TEN TEC .720 HBARM 261 1 46 29 HOD TEN TEC .720 WBARN 221 1 48 29 AS4 72 VOL 2 TSH .86 0 .306 79 +TSN TSH ..720 ZPS3C 631 1 46 29 .66 81 VOL 2 TSH 606 0 .306 79. TSN TSN .720 ZPS3C, 651 1 40 29 .71 8 PCT 21 2 TSH .65 TSH TSH .720 ZPS3C 671 1 41 29 NOD TEN TEC .720 I4BARN 221 41 29 .23 126 VOL 3 TSH .11 0 .251 56 TSH TSN .720 ZPS3C 491 41 29 .38 6 PCT 13 2 TSHI .04 TSH TSH .720 ZPS3C 671 1 16 '36 .31 85 FS0 3 5)4 31.83 TEN TEC .720 MBARN 281
....................... ......... ................ 4.........................
IROW COL VOLTS DEG IHD PER CHN LOCH INCHI I1HCN2 I CRLEN CEG BEGT ENDT POIA PTYPE CALI
~.................................................4. . 4. . 4.... + .. + . ...... . ..... .......
2
SG 32 Cumbljative Indication List fromn Rsfve1 TO
!ndtan Point 3 Refuel 16 TNT 19996k961 16/63/1999 12:50:10 I:RDW+ COL VOLTS DEG IND0 PER CNN LOCK INCHI INCH2 I CR.EN CEG BEGT ENOT, PDIA PTYPE CAL.
............ .h...4.................................... .4...
-f -.-......... *..4 ...
.26 30 .27 59 FSO '3 BPC 8.22 TEN TEC .720 t4BARH 28)
W~24 36 .80'4 8 3 3C+ 49.6 TEN TEC .720 NBARH 281 125 87I 2I 36 .40 87INR 6 4C 15.46 TEH 'TEC .726 NBARH 281 I28 30 3.95 16 PVN 11 SC 38.80 TEN TEC .7206 148RN 281.
I I 31 30 .26 56 FD .3 2H4 4.19 TEN TEC .720 MSARH 281 I31. 30 .27 +55 FSO 3 2H 7.45. TEN TEC .720 NBARN 281 I31 30 1.98 13 IN4R 1 3C 44.60 TEN TEC .720 . IBARN 281 36 30 2.95 187 ONG I 4H 3.89 'TEN TEC .720 MBARH 281 I36 36 3.58 187 INR ml 414 4.66, TEN TEC .720 NBARH 281 I 16 31 2.38 66 MB81 6 4C 24.13. TEN TEC .720 WBARN 261 1 29 31 .52 81 INR 6 '21 21.95 TEN TEC .720 t4ARI4 261.
I :41, 31' NOD140 TEN TEC .720 NMBAN 261 41 31 7.61 4 DHT 2 TSN .15 TSH TSH .726 ZP3C, 651 I19 32 .36 55 FSO 3 IN 33.93 TEN TEC .726 NUARN 261 28 33 1.42 72 INR 6 IC 26..17 TEN TEC -.726 NBARH 26) 128 33 NODTSH TSHN .720 'ZPS3C 551 27 34 2.05 165 -DNG 1 AV5 7.17 TEN TEC .720 HSARH 261 I 27 34 ~H T90 TSN .720 ZPS3C 531 I 28 34 2.81 86 +N84 6 414 19.15 TEN TEC .720. MBARH 261 I28 34 ,NOD TSN. TSH .720 ZPS3C 5 31 22 35 1.64 12. !NR 1 2C 44.11- TEN 'TEC .726 I4BARH 281 I 36 NOD TEN TSC .720 MBARH 321 8 35 2.94 181 OMG 1 614 32.75 TEN TEC ..726 NSARH 661 S7 .1247 TRA 2 TSHN .17, TSH TSH .720 ZPS'3C 491 5 37 31 NOD 6C TEC .720. MBARH 71[
ND6N TEN .726 NSAAH 7211 I 5 37ND 5 70 WAN 79 14 37 .31 75 FSD 3 BPC 24.91 TEI TEC .720 M4ARH 281 I14 37 . NOD TSH TSN .726 ZPS3C 491 1 29 37 4.52 85 14814 6 IN 2.52 TEN TEC .726- MBAMM 361.
'I 29 37 3.05 173 DM6 1 IN 2.92 TEN TEC .720 NSARN 361 I29 37 2.34 172 ONG 1 2N 26.84 TEN TEC .726 NBARN. 36)
I29 37 4.32 85 MB81 6 214 21.53 TEN TEC ..726 M8ARN 301 I29 37 1.58 72 INR 6 3N 39.52 TEN TEC .720 HBARH 361 I29 37 .65 161 MB81 6 SN 6.19 TEN TEC .726 IWARN 301 I29 37 9.52 163 ONG 1 AVI 1.61 TEN TEC .726 NBARM 3k%
I29 37 4.48 1+87 ONG I AVS 12.73 TEN TEC .720 MBARN 3%,,
29 37 NOD .TSH TSH. .726 -ZPS3C. 551 I32 37 2.21 61 MBM 6 SC 43.89 TEN TEC .720 WARNM 301 132 37 NO0D TSM TSK' .720 ZPS3C 55)
IS1 38 2.27 183 ONG 1 2H 19.66 TEN TEC .720 1BARH .321 I15 38 NOD TSN TSN .726 ZPS3C 511 I 2 39 1.74 95 IRR 6 .114 66.21 614 TEN +.726 M4BARN 71 I 2 3.9 NOD 6C TtC .726 MBARH 741 I 7 39 3.22 34 MBM 6 6H 34.49 614 TEC .720 NBARN 721 I 7 39 Koo0 TEN TEC .720 IBARN 781 I 32 39 4.91 187 ONG I IN 48.81 TEN TEC .726. MBARII 301 I 32 39 4.91 187 DM9 1 IN 48.87 TEN TEC .720 M4BARH 361 I46 39 1.64 79 [MR 6 2C 31.62 TEN TEC .720 I4BARH. 321 17 46 .46 99 'FSD 3 314 39.20 TEN TEC .720 MARKM 361 I29 40 2.53 183 D1NT ml SN -. 68 TEN TEC .720 MBARH 361
........ 4....4......................... ........................ .......... 4..4....
IROW COL VOLTS DEG IND0 PER CNN LOCK INCN1 INCH2 I CRLEM CEG SECT ENDT PDIA PTYPE CAL)-
............................................... *..4...........4 . 4 ........... 4.. 4....
3
SG,'- 32 Cui"Uilative Indication List from Refuel It Indiani Point 3 Refuel 10 INT 19990901 1610311999 12:50:10 I-ROW, COL VOLTS DEG IND, PER .CHN LOCH INCHI INC12. I CRLEN CEG BEGT ENDT' PDIA PTYPE CALl 42NOD 614 TEN .720 NBARH SI 42NOD .TSH4 TSH .720 ZPS3C 511 8 42 2.73 183 DNG I 6H .31.01 61 -TEC .720 WBARN 721 I I 1 16 42 1.92 94 XNR 6 414 17.21 TEN TEC .720 NBARN 361 I 16 42 NOD TSH TSN '.720 ZPS3C S11 I J.
I32 42 .48 85 FSD .3 314 2.1TN TEC .720 14BARN 361 I32. 42 2.04 80 118M 6 514 19.69 TEN TEC .720 NBARH 361 T 32' 42 HOD TS14 TSH .726 ZPS3C S51 I A I 39 43 INF 1 AV2 14.29 .TEN TEC .720 NBARN .621 I 45 43 NODDT TSHI _720 ZPS3C 591 I 45, 43 2.10 81 NW81 6 314 19.22 TEH TEC .720 NBARH 601 I 2 44 3.37 183 ONG I 414 33-.A3 614 TEH .720 NBARN 71 I 2~ 44 2.96 154 ONG I
- 41 49.41 614 TEN .720 HBARI4 71 1 21 .44 R OO 6C .614 .680 ZPUNN 371 I 2 -4f NOD SC TEC ..720 tIBARH 741 I10 44 NOD ,*614' TEN .720 NBARH 61 11644 .23 98 FSD 3 4C 48.30 614 TEC .720 I4BAR 721 1 43. 44 2.28 180 ONG 1 4C 34.69. TEH TEC .720 MBARN 601 I. 12 45 NDD 614 TEN .726 MBARN SI I12 45 NDD TSH TSH .720 ZPS3C 491 I12 45 1.63 82 INR 6 2C 46.53 614 TEC .720 HMBA 721 I1. 27 45 1.70 79 INR 6 414 38.16 TEN TEC .7;M WARN 31 I27 45 1.95 8e INR 6 414 38.76 TEN TEC .720 MBARN 341 I27 45 HOD ,TSH TSH .720 ZPS3C 551 148 46 NOD TSH TSH .720 ZPS3C 591 I48 46 1.77 268 INR 6 4C 16.46 TEN TEC .720 W8ARN 601 7 47 .99 69 NOS 5 TSH .82 614 TEN .720 NBARH 191 p7 47 HOF TSH. .82 TSN 1IN .720 ZPS-3C 571 7 47 NOD 614 TEC ..720 NBARN 701 I I 59 47 .52 100 NOS 3 TSH 1.09 614 TEN .720 tBARH 191 9 47 .20 170 HOF .3 TSH 1.09 TSH IN .720 ZPS3C 561
~'47 NOD 614 TEC .720 MEAR 701 I 9 48 NOD 614 TEN .720 NBARH .191I I 9 48 2.23 181 DMG 1 614 17.17 614 TEC ~720 W4ARNH 701 I 34 48 2.11 76 lISM 6 AV6 9.19 TEN TEC -. 720 W8ARN 601 I 7 I 39 48 2.23 41 MBM 6 4C 27.93 TEN TEC .720 MBARH 601
[ 5 49 IMF 6 314 35.62 614 TEN. .7260 MBARH4 191 5 49 2.65 78 148M 6 314 36.47 614 TEN~ .720 MSARH 191 I 49 NOD 6C TEC .720 14BARH 721 I 5 49 ODo 614 SC .700 14BARI1 841 I 8 St .99 84 INR 6 214 24.21 614 TEN .720 14BARN 171 I 8 5o NOD 614 TEC .720 MEARH 721 38 50 1.63 113 INR . 6 4C 27.30 TEN TEC .720 NBARN 601 I 6 51 HiD 614 TEN .720 MBARH4 1is I 6 51 2.08 125 NQS 6 614 6.18 614 TEC .720 NBARH 721 I 6 51 2.65 129 NOS 6 614 6.68 SC TEH .706 NBARH 811 I 6 51 NOF 614 6.18 614 6C .680 ZPANM 821 7751 :3 89 NOS 3 TSN .95 614 TEN .720 HBARN 191 7 51 NOF YSHI .95 TS14 114 .720 ZPS3C 571 I 7 51 NODD 614 TEC .720 MSARH 701
- j18 *52 2.47 186 ONG I 314 12.41 TEN TEC .720 MBARH 481 9 54 2.16 76- M481 6 314 39.75 614 TEN .720 14ARH 171 9 54 NOD TS14 TSH .720 ZPS3C 431 9 4NOD ... 4614 TEC .720 14BARH 701 I ROW COL VOLTS DEG IND PER CHN LOCK INCHI INCH2 I CRLEN CEG BEGT ENDT PDIA PTYPE CALl
.................. .+----4 ........... *................ ...- 4.........4 - .-.......
4
SG' -32 Cu?~ulative Indication List from Refuel 10
!-idianlPoint 3 Refuel 16 INT 19990901 1016311999 12:50:10)
IRNW COL VOLTS DEG IND PEJt CNN LOCH INCH1. INCH2 I CRLEN CEG BEGT ENDT sPDIA PTYPE CALj
.-4+. --.
........- 4-. ......... -. ......... . .
.---- .4....+ . .---...... 4'. 4.4....
'.38. 54 NOD TSH TSH .72e ZPS3C 41I U358 64 .30 '71 FSO I~I.
3 2C 2.111 TEN, TEC- .720 MBAR 601 I11 55 .66 93 FSD 3. TSH 9.72 611 TEH .720 W8ARN III I11 55, NOD . H TEC .720 MBARH 701 I12. 55 NOD SN TEN .720 P4BARN .91 I12 55 2.53 185 DNG .1 IC 26.37 SN TEC .720 MBARN 701 I42 55 1.36 83 INR 6 2H 13.88 TEN TEC .720 MBARH ~381 I25 56 2.94 82 MBM 61 311 43.05 TEN TEC .720 M4BARH 381 I I I I11 57 .20 84 PLP 16 TSN .17 TSH TSH .72e ZPS3C 411 I11 57 NOD TEN TEC .720 KBARN 681 I I I12 57 .26 90 PLP 10 TSH .21 TSH TSH .720 ZPS3C 411 I'12 567 NODD TEN TEC 1720 KBARH 681 I . I I1-3 T1~8 NOD TSH TSH .720 -ZPS3C I13 68 1.66 76 IRR 6 211 16.22 I TEN TEC .720 H4ARH "I I I I I 6 59 2.62 185 ONG *1 414 3.59 TEI{ TEC .720MBRN 441 I 6 69 .60 49 FSO 3 411 3.85 TEN TEC. .720 lBARH "I1 16 59 1.57 95 1NR 6 414 3.91 . TEN TEC .720 MBARH 441 I406 59 .31 69 FSO 3 4C 15.83 .TEN TEC .726 WEARN 681 1666 1.22 85 [MR 6 2C 16.67 TEN TEC .720 MBARH 441 I I I21 60 2.09 186 ONG 1 3C 24.96 TEN TEC .720 NBARH 681 I35 60 .66 72 FSO 3 .214 16.33 . .TEN -TEC .72ONMBARH 441 I I I42 60 NOD TSH TSH .726 ZPS3C 411
-J42 60 1.61 66 INR 6. IC 27.87 TEN TEC .720 MEARN "I1 24 61 NOD TSN 7T14 .720 ZPS3C 411 I24 61 2.48 183 ONG I IC 46.96 TEN TEC .720 IGARH "I1 I39 61 NOD 78SH TSH .720 ZPS3C 431 I39 61 .26 50 FSO 3 4C 9.56 TEN' TEC .720b NBARM ."I 39 64 .30 62 FSD 3 IC ~ 6.38 TEN TEC .720 NBARN 5o1 I 3 65 NOD SN TEN .720 NBARN 191 3 65 NOD 6C SN -. 708 N4BARN 311 I 3 65 I.44 92 [MR 6 iC 206.1 6C TEC .726 MBARN 60 135 65 .47 104 FSO 3 3C 37.04 TEN TEC *.720 WEARN 481 I41 65 NOD TSH TSN .720, ZPS3C 431 41 65 .42 74 FSO 3 2C 33.51 TEN TEC M.2 lEARN 481
.3 67 .26 102 KOS 3 211 42.95 611 TEN .720 MBARH 191 I 3 67 NOD SC SN .700 HBARH 311
.3 67 NOD IN 2N .720 ZPS3C 571 I3 67 NOD 311 411 .720 ZPS3C 591 I3 67 NDF 211 42.95 211 3H .720 ZPS3C 591 3 67 NOD 6C TEC .720 I4BARH 601.
I 5 68 NOD SC TEC..720 MBARN 601 I 5, 68 NOD SN TEN .720 lBARN 691 I 5 68 4.87 180 DNG 1 61 11.56 6C SN .700 WIARN 791 111 58 4.20 183 ONG 1 3C 4.12 TEN TEC+..720 WEARN Sol 123 68 .2.72 185 ONG 1 311 15.00 TEN TEC .720 MBARH S6l I31 69 NDOD TSH TSN .720 ZPS3C -431 31 69 2.05 87 HB8M 6 SC 45.49 TEN TEC .720 HBARH 561 I 31 69 1.55 77 [MR 6 4C 14.52 TEN TEC .720 MBARN 561 23 76 NOD TSH TSN .720 ZPS3C 431 1 23 70 .31 90 FSD 3 411 16.36 TEN TEC .720 N4BARH 541 IROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 I CRLEN CEG BEGT ENOT POTA PTYPE CALI
. .......... ..... ..... 4
..... - 4-....
.....- + --..... +
.... - 4.-.....-
..... ..... 4 - --- 44......
5
SG - 32 Cwmulative Indication List from Refuel 10
. Indian Point 3 Refuel 10 . INT 19990901 10/03/1999 12:50:10
........ ......-.... *.**.........................4.. ....... ......................... 4.
I ROW COL VOLTS DEG IND PER' CNN LOCH INCH INCH2 I CRLEN CEG BEGT ENDT POIA PTYPE CALl
_.... . .......... '-.......................................................... g.-. ..
I 1 71 1.05 114 INR 6 S5 40.06 6H TEN .720 MBARH 191 -
I1 71 NDD 6C 6H .680 ZPUNM 331 1 71 HOD 6C TEC .720 MBARH 661',
I 26 72 2.65 90 MSH 6 BPC 3.15 TEN TEC .720 MBARH 581 I 35 72 1.79 73 INR 6 2C 15.03 TEN TEC .720 MBARH 581 1 7 73 HOD TSH TSH .720 ZPS3C 411 1 7 73 2.83 177 ONG l 6H 14.04 TEH TEC .720 MBARH :601 I .I 1 13 74 NDD TSH TSH .720 ZPS3C 431 I 13 74 1.27 82 INR 6 5H 28.77 , TEN TEC .720 MBARH 581 13 74 .58 286 INR 6 4C 28.35 TEN TEC .720 MBARN 581 I 19 74 NOD TSH TSH .720 ZPS3C 431 1 19 74 2.08 79 MBM 6 TSH 18.06 TEN TEC .720 MBARH 581 28 74 NOD TSH TSH .720 ZPS3C 431 28 74 1.23 264 INR 6 BPC 18.63- TEN TEC .720 H8ARH 581
'31 74 NOD TSH TSH .720 ZPS3C 411 31 74 2.18 292 MBM 6 IC 21.94 TEN TEC .720 MBARH Sal 6 76 8.17 78 FSD 6 S 11.10. TEN TEC .720 MBARH 621 1 11 76 2.15 102 MHB 6 AVI 5.28 TEN TEC .720 MBARH 581 I . -. I I 23 76 2.41 185 ONG 1 TSC 17.72 TEN TEC .720 MlARH 581 I -*I 1 23 77 NOD TSH TSH ;720 ZPS3C 41,1 1 23 77 2.70 185 ONG 1 4C 41.44 TEN TEC .720 HWARN 561 I 8 78' HOD TSH .TSH .720 .ZPS3C 431 1 8 78 2.16 186 ONG 1 2C 6.65 TEN TEC .720 M8ARH 621 20 78 NOD TSH TSH .720 ZPS3C 431 20 78 2.16 186 ONG 1 IC 13.12 TEN TEC .720 HWARH 581 1 7 80. 2.49 78 M81 6 SC 27.00 TEN TEC .720 MBARH 601 1 7 80 .50 113 INR 6 SC 29.11 TEN TEC- .720 M8ARH 601 12 81 2.34 76 M8M 6 IN 3.90 TEN TEC .720 M8ARH 561 i tg 81 2.81 92 INR 6 AVI 2.72 TEN TEC .720 #EARH 561 28 81 HOD TSH TSH .720 ZPS3C 411 1 28 81 2.90 71 MBM 6 AV4 13.97 TEN TEC .720 MBARN 561 I 25 83 2.66 183 DNG 1 AV5 8.96 TEN TEC .720 HBARN 561 16 84 2.25 184 DNG 1 2C 38.69 TEN TEC .720 MBARH 561 1 14 85 NOD TSH TSN .720 ZPS3C 411 1 14 85 1.11 66 INR 6 IN 44.28 TEN TEC .720 HBARH 561 1 14 85 INF Ml 2H 44.62 TEN TEC .720 MBARN 561 l 9 86 NOD TSH TSH .720 ZPS3C 431 1 9 86 1.77 276 INR 6 4C 19.63 TEN TEC .720 MBARN 581 I ROW COL VOLTS DEG IND PER CNN LOCH INCH1 INCH2 I CRLEN CEG BEGL ENDT PDIA PTYPE CALl
............ .... .................................. 4 .... 4.4 ... .... ..............
Tubes: 145 Records: 300 6
SG ' 31 Cumulative Indication Liat from Refuel 10 Ind'an Point 3 Refuel. 10 INT 1999.0901 10/03/1999 12:50:09
. ........ ... . 4. ... ..... ....... . .... . .4...- . .. ... +.
... ...... 4. ..................
4.
1ROWl COL VOLTS DEG IND PER CNM LOCN INCH1! INICH2 I CRI.EN CEG BEGT ENDT ',PDIA PTYPE CALl
~4 1NOD .- TSH TSH4 .720 ZPS3C 251 4 1. 1.64 85 ZER 6 311 23.5i 6K TEN .720 HWHR1 471 4EDIONO 6C SN .706 MBARN 671.
4H 1 OD 6p TEC .720 NBARH 601 17 1 .25 96 NOS 3 TSC 4.09 TEN TEC .720 MBARH 21 I 7 N1ODO TSN TSH .720 ZPS3C 251 I 7 1 NDF TSC 4.09 TSC BPC .720 ZPS3C 76.1 9 2 .60. 109 EQS 3 TSC 5.03 TEll TEC .720 KBARH 21 9 2 NOD TSH TSH .720 ZPS3C 251 9 2+ NOF TSC 5.03
- TSC ,BPC .720' ZPC3C 761, 1.11 2 .22 97 NOS 3 TSC 6.80 . TEN, TEC .720 M4BARH 21 I11 2 ODO TSH4 T51H .720 ZPS3C 251 L1 NOF TSC 6.80 TSC BPC .720 ZPS3C 761 I12 3 .48 80 NOS 3 TSC 4.16 TEN tEC .720 NSARN 21 1 12 .3 NOD TSH TSH .720 ZPS3C+ 251 12 3 VIOF TSC 4.16 TSC BPC .720 ZPS3C 761 I ' 4 3.80 7P MBE 6 '41 -.191 -TENl TEC .720 MBARN. 21 I8 4 .29 72 FSO 3 414 -1.45 TEN TEc .720 MBARN 21 a 4 2.41 92NMBM 6 414 2.46 TEN TEC .720 MBARH 21 I.16 6 40259 IER 6 SC 42.87. TEN TEC .720 MBARK 21 16 5 NOD TSH TSH .720 ZPS3C 251 I 6~ 6 2.61 189 ONG 1 3C 7.69 TEN TEC .720 N4BARH 61 16 6 2.53 188 DNG 1 3C 16.07 TEN TEC .72ONBA H .61 I 6 6 .2.56 189 ONG -1 3C 24.46- TEN TEC .720 NBARN 61 6 6 2,23 189 ONG 1 3C 41.23 TEN TEC .720 #4BAH 6)
I6 6 2.16 188 'ONG 1 3C 49.65- TEN4 TEC. .7t0 1BARN 61 I 6 6 :2.03 191 ONG 1 ,2C .89 TEN TC .720 NBARH 61
-6 6 2.87 187 ONG I .2C 17.98 .TEN TiCc .720 MEARK 61 6 .6 910TSN TSH .728 ZPS3C 231 h14 6 .34 255 IER 6 TSHI 11.69 TEH TEC .720 HSARH 21.
9 7 .41 63 FSD 3 3C+. 35.29 TEN TEC .720 NBARH 61 117 7- .33, 65 FSO 3 IC 29.99 TEN TEC .720 KBARM 661 I17 7 1.67 104 INRI 6 IC 33.19 TEN TEC; .720 MBARII 661 I19 7 .32 +118 IER 8 3C 15.50o TEN TEC .720 HUBRN 61 9 9 .55 96 INR 6 IC 39.74 TEN TEC '.720 NBARN .61 I 9 9 EODO TSN TSN .720 ZPS3C 251 10 l 2.25 105 MBM 6 $14 9.012 TEN TEC -. 720 MBARH 6 24 10 NOD TSH TSH .?20 ZPS3C 251 I27 10 2.33 It ONG I IC 32-38 -TEN TEC .720. IBARH 61 27 10 .46 74 EQS 3 TSC 5.91 TEN TEC .720 IIBARH 61 I27 10 EOD TSH TSH .720 ZPS3C +251 127 10 NDF TSC 5.91 TSC BPC .720 ZPs3C 761
.8 11 2.28 78 945M 6 IN 50.34 TEN TEC .720+ MSARH 101 I 8 11 2.45 162 ONG I 6N 7.70 TEN TEC .720 NBARH 101 9 12 .53 78 INR -6 SPH 14.80 TEN TEC .720 NBARH 6)
I 9 12 2.12 87 MBM1 6 .4C 18.47 TEN TEC .720 KBARH 61 129 12 2.17 210 945M 6 TSC 8.17 TEN TEC .720 KBAR11 61 I29 12 NOO TSH TS14 .720 ZPS3C 251 I22 13 .42 100 IER 6 iN 43.41 TEN TEC .720 NBARH. 101 I22 13 .31 263. INR 6 TSC 18.98 TEN TEC .720 KBARH 101 8 14 .38 85 IER 6 TSC 9.48 TEN TEC .720. NBARK lei I30 14 ..48 26? IER 6 AV6 9.87 TEN TEC .720 I4BAP1N 61 I30 14NOD TSH TSN .720 ZPS3C 231 a 1I .38 82. IMR 6 BPC+ 12.06 TEN TEC .720 NBARN 121 a 1i .82 68 INR 6 BPC 12.05 TEN TEC .720 I4BAH 6ol 4....... 4... 4.................................................4..... ........... ...
IROW COL VOLTS DEG IED PER CHN LOCN INCHI IECH2 I CRLEN CEG BEGT ENOT PDIA PTYPE CALl
. .................... . 4...... 4....4 . .4. ..... .......
..... ... ..... . . .4. . 4.....
SG 31 'Cumlulative Indication List from Refuel 10 Indian PoInt 3 Refuel A0 fIT 19996901 1010311999 12:50:019
....... .... .......... . .. ..........................................- . 4 .......--
I ROW COL VOLTS CEG ~-IND PER CNN LOCK .INCHL 114C12 I CRLEK CEG . 8EGT ENDT, POIA PTYPE CALI 116 is -.45 69 114R 6 2C 24.49' TEN TEC .720 MBAR 12 22 L5 3.31 74 MOM 6' AV2 3.50 TEN TEC.-.720 MBARH 121 1 I' I 26 17 1.05 62 IKR 6 IN 10.45 TEN TEC .720 I4BARH. 161 1 20 17. NOD TSH TSH .720 ZPS3C 251 I.29 17 2.43 183 ONG 1 IC 27.99 TEN TEC .720 MBARH 141 I29 17 NDD TSH TSH .720 ZPS3C 231 I 6 18 NOD TSH4 TSH .720 ZPS3C 231 I 6 18 .88 80 114R 8 UPC 26.10 6C *TEC '.726 MBARH 601 I 6 16 1.18 94' lIN 6 BpC 26.23, TEN TEC .720 MSARM 641 I 7 18 NO0D TSH TSN .720 ZPS3C 231 I 7. 18 .95 84 INR 6 iC 22.28 TEN TEC .720 MBARH 601 r 16 19 2.12 85 MOM1 6 SC 21.48 TEN TEC .720 I4BARH 161 I 21 19 .54 84. FSD 3 1C 47.37 ' . TEN YE6 .72 14BAR 161 I22 19 .76 96 INR 6 iC 22.51 TEH TEC .720 I4BARH 161 I23 19 5.28 L8O ONT ml1 6C .49, TEN TEC .720 HBARH 161 I29 19 .61 1L1 INR 6 SN 28.55 TEN TEC .720 MSARH 161 I33 19- 3.44 81 MO9M 214 19.12 TEN TEC. .720 NBARH 181 I33 19 .62 334 INR 6 214. 33.00 TEN TEC .720 MBARN. 181 133 20 .55 100 INR 6 114 25.75 TEN TEC .720 MBAH 161-2 14.44 262, INRR . 6 114 20.76 TEN .'TEC .720 W4ARH Lai 2 21NOD TSH TSH .720 .ZPS3C 251 13 I29 i3 8 2 22' 22 23 1.88 3.11 181
.39 76 75 1400HO INR ONG NOD.
FS0 6
1-3 1IN 3C' 3M 20.80 37.194 17.67 TSII TEN TEN TS.
TEN TSH TiC TEC
-TSH TiC
. .720 ZPS3C
.720 I4BARN
.720 14MW
.720
.720 14BARH ZPS3C 231 621 161.
251 181 I20 .23 2.49 184 DNG 1 AV2 -1.35 TEN TEC .720 MBARH 181 I17 24 1.50 92 INR 6 4C 26.81, 32.53 TEN TEC .720 NBARH .161 22 24 .93 80 INR 6 214 11.10 TEN TEC .720 MBARN 161 IS3 25 .41 40 FSD 3 1H. 24.84 TSH TEC .720 NBARHN 221 I35 25 NO00 TSH TSI( '.720 ZPS3C 231 I35 25 NO00 TEN TEC .720D WARM 601 I39 26 2.64 182 ONT ml1 AV2 -.61 TEN TEC .720 HSIARH 201 I39 26 1400 TSH TSIH .720 ZPS3C 251 4 27 NOD0 '61 TEN .720 MSARM 471 I 4 27 NO0D 6C 414 .700 MBARH 591 I 4 27 RBD 6C TSC .720 MBARH 621' I 4 27 1.11 74 INR ~ 6 2C 7.15 6C TEC .720 M4BARH 741 I 5 27 .49' 94 148M 6 314 13.08 614 TEN .720 KBARN 471 I 527 NO00 CC S 70 19M 591 I 5 27 1400 6CC TEC .720 WEARM 601.
It1 27 .35 37 FS0 3 SC 45.20 TEN TEC .720 I4BAR 221 I10 27 2.76 187 DNG 1 2C 41.39 TE E 70NAM 221 I15 27 3.30 86 143M 6 TSH 4.36 TEN TEC ..720. IBARH 221 I26 27 1.19 79 M48M 6 IC 2.71 12.95 TEN TEC .720 M4BARH 221 h 5 28 .34 35 FS0 3 414 44.25 614 TEN. .720 HSARN 471 F 5 28 NOD 6C 5N .700 MBARH 591 5528 NOD0 CC TEC .720 14BARN 601 IROW COL VOLTS DEG IND PER CNN LOCN INCHL 114CN2 I CRLEN CEG SEGT ENDT PDIA PTYPE CAL I
- 4. .................................4.4...... . +. 4.
..................................................... .. +.+. . .. ... . ... w4 ...- 4.-...........4 2
3G- 31 -Cumulative Indication List from-Refuel-IC indfail Point 3 Refuet 16 INT 199R9691 1616311999 12:59:09 4- . .... .-.. . ...4 ... ..-- ...................... 4.--4. 4--4 -- -- -- -- --- -- 4. - -- 4... .. ..-- ..- 4-..4...
ROW' COL VOLTS DEG IND 'PER CNN LOCK INCHl.:, INCN2 I CRLEN CEG IBEGT ENDOT'PDKA PTYPE CALl 1: 28 ~ 34 71 FSD 3 1C 12.69 TEH TEC .726 MIARH 261 15 28 1.60 70 INR 6' BPC 23.310 TEN TEC .726 HBARH 261
-j 15 28 .28 36 FSO 3 TSC 7.89 TEN TEC .720 MBARH 261 1 17 -28 1.12 S1 INR 6 3C 16.27 TEN TEC -.729 MBARN 261 I27 29 2.35 35 MBN 6 AVI 7.88 TEN TEC .720 NBAH 221 I31 29 .40 59 FS0 3 IN 32.4 TEN TEC .720 'HBARH .221 I32 29 .26 82 FSO 3 211 26.69 TEN TEC .726 kBARH -221 I 3 36 .48 68 FS0 3 4C 35.66 TEN TEC .729 MBARH 201 I23 36 .53 23 FS0 3 2C 35.20 TEN TEC .720 HBARH 201 I31 36 .37 46 FSO 3 IC 2.61 TEN TEC .720 WBARN 261 42-31 .19~ 74 -FSD 3 IC 43.87 TEN TEC .720 MBARH 221 I42' 61 NODO TSH TSH .720 ZPS3C 251 313 32 .37 195 INR 6 le 21.27 ,TEN TEC .729 MBARN 261 I32 32 1.37 78 INR 6 2N 11.26. TEN TEC .729 HWAR 201 I42 33 .93 81 1NR 6 TSN 16.16 TEN TEC .720 JIBARH 221 I42 33 NOD TSH TSH .720 ZPS3C 2.31 I 3 34 4.49 99 MBN .6 411 48.62. 6N TEN .720 MBARH .11 3 34 NOD 6C 5NH -.70 IIBAR ILI 3 34 NOD TSN TSH .720 ZPS3C -271 I3 34 NOD SC TEC .720 MIBARN 621 4 34 ND SH TSH .720 ZPS3C 271 4 34 NODO 6N TEN .726 DIBARH 471 4 4ND6C SN .,766 MIBARN 591 4 34 1.74 164 INR 6 SC 45.11 6C TEC .720 MBARN 6ol-4 34 1.83 107 INR 6 SC 45.91 SC TEC .720 MBARN 621 I19 34 2.39. 187 ONG I SN 22.63 TEN TEC .720 NHARN 241 I19 34 2.21 185 ONG 1 .AVS 6.53 . TEN TEC :720 NBARH 241 I19 34 NDD TSN TSN .720 ZPS3C 251 I22 34 .28 76 FSD 3 3C 4447 TEN TEC. .720 HBARN 241 I22 34 .26 84 FS0 3 2C 29.69 TEH TEC ~.726 HBARH .241 I22 34 .18 52 FSD 3 TSC 8.97. TEN TEC ,726 IIBARN. 241 122 34 NDO TSN TSN .720 ZP83C 251 I34 34 2.68 187 ONG I 6H 25.75 TEN TEC .726 HBARN 241 134 34 "DO TSN TSN .'720 ZPS3C 251 I.38 34 3.25 187 ONG 1 3C 27.44 TE TC .76 IARH 241 I38 34 NDD TSHN TSN .726 ZPS3C 251 14 35 RBD .6N TEN .726 DIBARH 471 I.4 35 .75 76 IN4R 6 214 9.84 6N TEN .720 MBARH 531 I 4 35 NOD0 6., 5N .7609 DIARN 591 I 4 35 NOD 6C TEC .726 NBARN 601 I26 35 2.15 185 ONG I SC 6.62 TEN TEC .720 DISARH 261 I36 +35 3.76 94 MBSM 6 4H .70 TEN TEC .720 tIBARN 261 I27 36 .36 79 INR 6 3C 36.86 TEN TEC .726 WBARN4 241.
I 4 37 NOD TSH TSH .720 ZPS3C 291 I 4 37 1.6S3 266 INR 6 411 51.67 SN TEN '.720 WSARN 471
.1 4 37 NOD SC SN .706 t4BARN 591 14 37 NOD SC TEC .720 MBARN 601 I19 37 2.66 181 DNT MI AVS .40 TEN TEC .720 DISARM 241 119 37 NOD TSN TSH .726 ZPS3C 271 21 37 .25 57 PFSO 3 2N 32.58 TEN TEC .720 WIARM 241 I21 '37 NOD TSM TSN .720 ZPS3C 271 4.-..........+ . .................................. +...4.................................
3
SG - 31 Oumulat1ve Indication List from Refuel 10 In<an PoInt 3 Refuel la
. INT, 1990901 10/03/1999 12:50:09 ROW. COL VOLTS DEG IND PER CNN LOCN INCH1I INCH(2 I CRLEN CEI BEGT ENQT PDIA PTYPE CALI
. ............ +.
............................- .. ... + _ ._.... . .........
I 33 37 NOD TSH TSH .720 ZPS3C -27?
33 37 2.05 185 DNG 1 IC 9.34 TEH TEC .720 WMARN 341 I,
U1 41 37 NOD TSH TSH .720 ZPS3C 271-I 41 37 1.66 75 INR 6 214 48.94 TEN TEC .720 BARMH 341 I .. .I 44 37 NOD TSH TSH .720 ZPS3C !271 44 37 .65 90 FSD 3 BPH 13.67 TEH TEC .720 MBARH 301 44 37 .47 89 FSD 3 4H 25.56 TEN TEC .720 MBARH 3ma 44 37 .30 43 FSD 3 IC 8.90 TEH TEC .720 WBARN .301
- I I I 10 38 NOD TSH TSH .720 ZPS3C 251 10 38 3.39 183 ONG 1 6H 12.08 TEN TEC .720 NBARH 261 10 38 IMF ml 6H 13.52 TEN T TEC .720 H8ARN 261 I 10 38 3.69 179 ONT m1 AVI .0C TEH TEC .720 M8ARH 261 I 10 38 4.06 179 DNT Mi AV6 .00 TEN TEC .720 MBARH 261 l 10 38 3.26 181 ONG 1 AV6 7.42 TEN TEC .720 NBARH 261 I 10 38 INF MN AV6 8.39. TEH TEC .720 HBARH 261 I . .I 1 19 38 2.64 181 ONG 1. 6H 18.53, TEH TEC .720 FBMARH 261 1 38 . NOD. . . - TSH TSH .720 ZPS3C 291 1 20 38 .48 56 FSD 3 BPC 22.76 TEN TEC .720 MBARH 26?
l 20 38 NDD TSH TSH .720 :ZPS3C 29?
27 38 1.18 86 INR 6 4C 35.31 TEN TEC .720 MBARH 261 27 38 1D0D TSH TSH .720 ZPS3C 291 I .. I 129 38 .35 93 NOS 3 IC 6.07 TEN TEC .720 MBARN 26?
129 38 NOD TSH TSH .720 ZPS3C 29?
I 29 38 HOF IC 6.07 IC 2C: .720 ZPS3C 761 I 30 38 INF 3 BPH 6.20 TEN TEC .720 MBARH 261 I 30 38. NOD TSH TSH .720 ZPS3C 291 I 6 39 .40 247 INR 6 TSC 47.67 TEN TEC .720 MBARH 24?
II 19 39 2.72 185 ONG 1 6H 18.57 TEN TEC. .720 HBARNM41
_ 1 24 39 4.09 188 DNG I 5H 42.47 TEN TEC .720 HBARN 24?
I 32 39 2.10 138 NBH 6 3C 3.81 TEN TEC .720 M3ARN 341 33 39 3.67 141 MBNN 6 3C 3.87 TEN TEC .720 MBARN 341 8 40 .40 85 DSS Ml 5H -.66 6H TEN .720 MBARMH 31 1 8 40 6.15 181 INR MN 6C 4.41 5H TEC .720 WBARH 261 l 8 40 HOF SH -.66 5H SH .720 ZPS3C 411 l 17 41 NOD TS.I TSH .720 ZPS3C 27?
1 17 41 1.48 259 INR 6 4H 3.83 TEII TEC .720 MBARH 301 I .. I I 42 41 NOD TSH TSH .720 ZPS3C 451 1 42 41 1.34 77 INR 6 3H 24.14 TEN TEC .720 MBARH 58?
I .. I 1 4 42 NOD 6H TEN .720 MBARH 31 l 4 42 NOD TSH TSH .720 ZPS3C 271 I 4 42 1.45 270 I;. 6 IC 43.98 6N TEC .720 MBARH 721 7 42 .38 61 OSS m1 6H *.49 6S TEN .720 HBARH 31 7 42 NOD TSH TSH .720 ZPS3C 271 7 42 HOF 6H -.49 6H 6H .720 ZPS3C 411 1 7 42 NOD 6H TEC .720 MBARH 701 l 7 42 NOD 6H TEC .720 MBARH 721 I 9 *42 NOD 6H TEN .720 MBARH 31 9 42 NOD TSH TSH .720 ZPS3C 271 1 9 42 1.24 82 INR 6 3C 44.51 6C TEC .720 MBARN 68j 1 9 42 .62 79 INR .6 3C 44.53 6H TEC .720 NBARH 721 I 11 42 .28 52 NOS 3 TSH 2.09 6H TEN .720 MBARH 31 11 42 NOD TSH TSH .720 ZPS3C 271 I 11 42 NDF TSH 2.09 TSH IH ;720 ZPS3C 411 11 42 NOD 6H TEC .720 HBARH 70 25 42 .92 36 INR 6 3C 21.05 TEN TEC .720 MBARH 28 l 25 42 NOD TSH TSH .720 ZPS3C 29
......... ..... ..... +........................... .................. .. . .. + .... ... .. + ............. _
I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 INCH2 I CRLEN CEG CEGT ENDT PDIA PTYPE CAL
++++ .. . ... ... .+. .... . . ... .. . . . .. . .......... + + . .+. ... + .+.
4
SG 31 Cumul~ative Indication List from Refuel 16 Indian PoInt 3 Refuel 10 . IRT 19990991 16/03/1999 12:50:09 I-ROW COL' VOLTS DEG IND PER CNN LOCK' INCHI 1RNC12 I CRIER CEG sEOT, EwrT POJA .PTYPE CALl
....... ....... .. ........4 . ... 4 .*.. . .... ............... .4............. 4 . . .4.... '
41 42 NOD TSH TSH .72e ZPS3C 451 4 42 .50 59 FS0 IC 14.74 TEN TEC ..720 WARN4 561 I19 43 2.51 185 ORG .1 SC 43.67 'TEN TEC: .720 NEARN 301 129 43 2.40 181 ORT MI AV4 .65 TEN TEC .720 MBARH '3101 I29 43 2.+61 184 DNG I AV4 7.77 TEN TEC .720 I4ARN 391-I29 43 2.84 182 ORT ml AV5 .60 TEN TEC .720 NBAH 361 I 29 43 2.34 185 ONG 1 AV5 8.39 TEH TEC .720 I4BARH 301 I1 29 43 3.61 185 ORG 1 AV6 2.42 TEN' TEC .729' HBAH .321 1 31 43 3.54 186 ONG .1. EN 2.38 TEN TEC .726 14BARH4 301 I 32 43 1.72 82 INR 6 IC 19.11 .TEN ' TEC .726 NBAH 301 I
I 22 44 4.70 187 ONG I 4C 44.35 TEN TEC .720 MBARH4 281 I I 30 .44 .98 109 IRR 6 2C .42.98 TEN TEC .720 WBARN 281 j 39 3,17. 76 MBM 6 411 17.86 TEN TEC .720 NMBARH 561 I 5 45 .76 65 [HR 6 TSR .60 316.60 6HN TEN .720 MBARk 31 15 45. NODD TSH TSI{ .726 *ZPS3C 331 15 45 3.92 44 HBM ~ 6 4C 6.49 -. 6H TEC .720 NBAH Gal 7I 45 2.99 188 ORG 1 414 12.76 6N TEN .720 MBARH 31 17 45 5.4491 BNB 6 414 13.58 511 TEN. .726 MBARH 31 1
7 45 NOD TSN TSN .720 ZPS3C 331 7 45 ROD 6C TEC .726 MBARHN 681 I 7 45 NOD GM4 TEC .720 I4BARH .721 I 8 45 moD 6N TE .26 I4AR 31 I 8 45 NDD TSH TSR .720 .ZPS3C 331 I 45. 6.31 184 IRR I 611 35.76 . E TEC .720 -MBARH 701
.1 9 45 1.28 168 NOS 3 TSH 2.39 6N TEN .720 MBARN 31
- 9 45 NOD TSH TSR .726 ZPS3C 331 U 9 45 HOF TSN 2.39 TSH iN '.726 ZPS3C. 411 WI 9 45. ROD 6C TEC: .720 KDARN 681 9 45 RoD EN TEC .726 MBARH 721 I22 45 1.31 116 INR 8 SN 36.69 TSH. TEC .726 MBARH 281 I22 45 NOD TSH TSH .720 ZPS3C 311 I22 45 1.36 116 INR '8 SN 36.78 TEN TEC .720 M4BARH 601 I 3 4.6 2.18 187 ONG I 3N 45.98 6H TEN .720' MBARN .31 I 3 46 NOD 6C 414 .700 MBARN Ill 1 3 46 MOD TSH TSH .720 ZPS3C 311 I 3 46 NOD 6C TEC .. 7206 MBARN 721 119 46 2.79 183 ORG 1. AV5 6.74 TEN TEC '.720 MEARN 301 I19 46 MOD TSM TSM .720 ZPS3C 331 I35 46 KOO TSH TSR .720 ZPS3C 451 135 46 .69 69 FSD 3 SC 22.75 TEN TEC .726 H8ARN 521 I 36 46 NOD TSH TSH .720 ZPS3C 451 I38 '46 3.97 190 IRR I AV6 13.63 TEN TEC .720 MBARN 521 38 46 4.66 191 INR 1 AV6 21.30 TEN TEC .720 I'BARH 521 I38 46 2.89 181 IRR -ml EC .65 TEN TEC .726 lBARN 621 I38 46 2.63 179 INR Ml 4C .00 TEN TEC .720 t4BARN 521 I 7 47 NDD EN TEN .720 WBARM 31 I 7 -47 1.27 273 IRR 6 SC 44.e9 EC TEC ..720 MBARN 681 I 7 47 1.29 276 IKR 6 SC 43.98 . S TEC .720 I4BARN 721 I 8 47 .31 73 NOS 3 TSH 3.23 EN TEN* .720 W8ARN 31 I 8 47 NOP TSH 3.23 TSR IN .720 ZPS3C +411 I 8 47 NOD .6H TEC .720 lBARN 701 I 9 47 .43 94 NOS 3 TSR 4.34 6N TEN .720 lEARN 31 1 9 47 HOF TSH 4.34 TSH IN .720 ZPS3C 391 9 47 HDP TSH .4.34 TSR TSH .720 ZPS3C 411 9 47 NOD 6C TEC :720 MBARN 681 9I 4 oo 6K TEC .720 MBARM 721 1ROW COL VOLTS DEG. IND PER CNN. L0CR IRCHI INCH2 I CRLER CEG BUGT EHOT PDIA PTYPE CAL I
........................................................... ~.44 .. 4 -... .... 4 5
~SG .' 31 Cumulative Indication List fromw Refuel 16 Indsan Point 3 Refuel 10 INT 19996961 10O63f1999 12:50:09
...... . ~ . .......... --------- ..... --- ,--- ...4... ...... ..........
jROW.COL VOT E N E N LOCN I1CHI INCH1?I CRLEN CEG- SECT. ENDT POZA PTYPE CALl 3 28 47 1.51 BID INR 6 314 809, TEN TEC .720 NBARH '38!
~.28 47 1.33 256 INR .6 3C 4.73 TEH TEC: .720 MBAH Sol 2 48 2.86. 265 MBM1 F 6 1I4 30.62 6H TEl! .720 NBARH 1..
31 I 2 48 2.185 8 BLG 2. 11 32.61 CH4 TEH .720 'MBARH 31 I 2 48 .38 58 FSD 3 114 34.43 614 TEN .720 MIBARH 31 2 48 NOD 6C .614 .680 ZPUNM 171 I 2 48 NOD 6H TEC .720 MBAR14 721 26 48 1.22 76 INR 6 3C 16.17 TEH TEC .720 MBARH .281 I36 48 1.66 268 INR 6 314 38.91 .TEN TEC .726. I4ARH 521 I36 48 1.89 283 UaR 6 414 24.97 . - TEH TEC .. 726 W4ARN( 521 I36 48 .49 76 FSD 3 514 11.94 TEN. TEC .720 t4BAR 621 I36 48 1.36 82' INR 6 SC 43.33. .TEN TEC .720 14BARN. 52!
I 6 49 1.42 88 DIR 6 51H 16.03. 614 TEN .720 MBARN 31 I 6 49 .37 82 FSD 3 4C 4.42 614 TEC .726 M8ARH 701 I 6 49 .94 69. FSD 3 '4C 43.74 614 TEC .720 W4ARN 701 6 49 1.94 76 DIR 6 2C 37.66. 614 TEC .726 WBARN 761 1! LO 49 .41 168 NOS 3 TSH 4.08 ,H TEN .726 HSARN' 3 101 49 NDF TSH4 4.08 TSH4 14 .720 ZPS3C 391 It 49 NOD CH61 TEC; .726 W4ARN4 66!
I I1 I24 49 .93 113 INR 6 4C 48.10 TEN TEC .726 MBARH4 301 144 49 3.43 182 DNG I 3C 1.98 .TEN TEC .720 MSARH 541 1 4 56 NOD 614 TEN .720 MBARH 31 I 4 560 1.69 86 INR- 6 TSC 6.52 12.15 614 TEC ;726 NBARH' 72) is10 o .19 61 NOS 3 TSH. 3.27 68 TEN .720 HBARH4 31 16 so UNOF"11 3.27 TSH IN11 .726 ZPS3C 391 le s6o5 NOD CH61 TEC .726 'MBARN 681 I11 56 .31 69. NOS 3 TSH 3.26 614 TEN .726. MEARH 31 St p 11 11 so NOF NOD TSH
.614 3.26 TSH 14 TEC
-.726 ZPS3C
.720 KBARN 391 701 is 18 e5 2.28 183 DNT ml. UN .06 TEN TEC .726 HDARH 28!-
329 50 2.68 183 DNT ml AV6 -.19 TEN TEC '.728 NUARH 281 44 50 2.96 72 MB61 6 2C 49.24 TEN TEC .726 NBARN 521 I17 51 .66 6 INR 1 AV5 9.15 TEN TEC .720 KBARN 361 I 9 52 NOD 614 TEN .. 720 MEARK 5!
9 52 .46 58 CSO 3 2C 43.98 614 TEC .720 MBARH . 681 I 9 52 .46 55 FSO' 3 2C 44.6So 614 TEC .. 726 MS8AR 721 I11 52 NOD 614 TEN .720 NBARH4 51 11 52 .26 84 FSD 3 2C 22.0 .L 614 TEC .720 W4ARN 761 I20 52 6.66 188 ONG 1 414 2.95 TEN TEC. .720 MBARH 28!
120 52 NOV 414 2.95 414. 514 .720 ZPS3C 411!
I24 52 .40 81 FSD 3 5C 31.34 TEN TEC .720 WEARN 36!
I24 52 1.23 86 INR .6 SC 34.33 TEN TEC .720 KBARM 361 44652 2.60 186 ONG . 1 414 47.31 TEN TEC .720 KBARN 321 I42 62 2.22 184 ONG 1 AV6 22.17 TEN 'TEC .720 MBARH 2 I17 53 1.96 182 INR I .AVS 8.95 TEN TEC .726 I4BARH 261 117 53 NOD TSH TSN .720 ZPS3C 311 I24 53 1.75 116 INR 6+ 5H 6.26 TEN TEC .726 NBARN 301 I24 53 NOD TS14 TSH .-720 ZPS3C 311 I31 53 2.95 145 Na8m 6 3C 4.33 TEN TEC .720 MBARH 301 131 53 NOD TSH TSH .720 ZPS3C 31!
333 53 .39 44 FSD 3 3H+ 17.93 TEN TEC .720 MBARH4 28!
533 NOD TSH TSH .7Z6 ZPS3C 31!
.......... 4.................................................... ...
Ij ROW COL VOLTS DEG IND PER CNN LOCN' INCHi INCH2 I CRLEN CEG BEGT ENDT PDIA PTYPE CAL!
+.4.+................ ~ ..................... 4........... ............. ....
6
SG- 31. Cufiulative Indication List from Refuel 10
- ,.1ndii~n Point 3 Refuel 10e INT 19190901 10/0311999 12
- 50 :09 I-ROW COL VOLTS DEG IND PER CNN LOCN INCHI. INCH2 I CRLEN CEO SEST ENDT ' PDIA ,PTYPE CAL]
.. ... . .. . . .. .............. .--.- .......... - - - - . .4 - . .....
- 4. 4 4 . ... 4. 4................
r36 53 NOD TSN TSH .720 ZPS3C 311
-36. 53 .23 88 FSO 3 1IN 16.39 TEN TEC .720 KBAMH 341 I.
- g36 54 RBD TSH TEC .720 KBARH 321 I36 54 ROD0 TSH TSH .720 ZPS3C 331 36 ~54 2.40 190 ONG 1 AV4 11.77. TEH TEC .720 MSAR ~ 56t I I.
I29 55 2.92 18S ONG I AV3 . 4.98 TEH TEC .720 KBARK 381 I29 65 3.07 180 ONG 1 A:V4 .75 TEN TEC .720 MBARH 301 I29 55 3.60 184 DNG .1 AV4 8.98 TEN- TEC .726- NEAR 301 I29 55 2.59 185 DNG 1 AV5 1.63, TEH TEC .720 11BARH 301 129 55 2.47 185 DNG 1 AV5 9.34 TEN TEC .720 14ARH 301 I I I38 55 .48 74 FSD .3 114 21.92 TEN ' TEC .720 MBARH 341 I43 55 .67 87 IMR 6 2C 46.69 TEN TEC .720 M4BARH 341 I24 56 2.67 186 DMG 1 4C 22.50 TEN TEC .720 NBARH 421, I24 .56 10.63 43 MBDM 6 4C 22.50 TEN TEC .720 WEARN 421 26 .56 1 j7S 270 INR 65 . 79 .. TEN TEC .720 NIBARH 421 I8 58 NOD TSH TSH .720 .ZPS3C 311 I8 58 2.37 261 MBM 6 2C 3.89 TEN TEC .720 NDBARN 481 a SS5 1.38 82 INR 6 2C 5.82 TEN TEC. .720 14BARN 481 I7 59 2.09 80 11DM 6 41i 9.46 TEN TEC .726 MBARH .521 j17 59 3.13 77 11DM 6 2C 20.27 .TEN TEC .720 WBARN 421 1 32 59 RID 214 34 .. 720 ZPS3C 411j.
1 32 59 .NOD IN 214 .720 'ZPS3C 41 1 32 59 22.21 178 DNG I 214 42.24 TEN TEC .720 MBARN 421 1 32 59 *19.37 179 DM6 I 214 42.39 .. TEN *TEC .720 . BARH 421 1 32 59- NDF 214 42.20 214 .31 .720 ZPS3C 431 1 32 59 MOF 214 42.40 2N 3N .720 ZPS3C 431 34 59 3.82 178 DMG I .2C 13.04 TEN TEC -.720 MBARH 421 34 59 4.39 177 DMG 1 2C 13.15 TEN TEC .720 NBARt( 421 I36 60. 1.78 276 IMR 6 IC 27.58 TEN TEC .720 11BARN 421 I36 60 .89 74 INR 6 IC 28.72 TEN. TEC .720 MBARH 421 I23 61 NOD .TSH TSH .720 ZPS3C 311 I23 61 2.10 106 11DM 6 8PH 2.64 TEN . TEC .720 MWHR .401 I23 61 .48 64 FSO 3 BPN 5.34 TEN TEC .720- 'MBARN .401 I23 61 2.16 68 11DM 6 8PH 11.I65 .TEN TEC .720 WEARN 401 I31 61 moo TSN TSN .720 ZPS3C 311 I31 61 .97 262 IMR 6 21H 42.76 TEN TEC .720 MBARH 401 I12 62 NOD TSH TSH .720 ZPS3C 311 I 2 62 .19 112 FS0 3 TSC 9.68 TEN TEC .720 lEAH 481 I4 63 moo 614 TEN .720 lEARN 471 I.4 63 . RST 614 TEC .720 NBARH 52j-I 4 63 .82 74 IMR 6 4C 13.38 614 TEC .720 MRARN 521 1 .4 .63 NDO 6C SN .700 MBARH 591 I23 63 2.65 80 MSM1 6 .2C 42.60 TEN TEC .720 MBARH 421 8 64 .33 57 FSO 3 214 37.52 TEN TEC .720 MBARHN8 I 9 64 2.64 182 0MT ml AV6 -.24 TEN TEC .720 MBAPH Sol I 9 64 2.27 183 DMG 1 AV6 5.71+ TEN TEC '.720 MBARH 5015 I 9 64 2.35 182 ONG 1 AV6 15.68 TEN TEC .720 lBARN 5ol' I12 64 2.71 184 DNT Ml SN .99 TEN TEC .720 MBARN 481 I17 65 1.86 92 INR 6 514 42.67 TEN TEC .720 lEARN 441 I *1 17 68 .51 88 FSD 3 TSH 13.98 TEN TEC .720 MBARN 461 I2 69 1.47 86 lMR 6 8PH 20.08 24.63 614 TEN .720 WDARN 91 I2 69 NOD TSH TSH .720 ZPS3C 331 4..+.. 4............ ...... + .. 4...... .. ................. 4......... 4.......4...........
I ROW COL VOLTS DES IND PER CNN LOCN INCHI INCH2 I CRLEN CEG 8EGT EMOT PDIA -PT.YPE CALl
+.......... ................................................... 4 . . 4.. ... 4.. ....
7
SG.- 31 Cumulative Indication List from Refuel 10 qduian Point 3 Refuel 10 INT 19990961 10/03/1999 12:5 4l F'--'+'
- ---, .............. .................. ........ .,............................... ....- +e.+., .....
gROW COL VOLTS DEG IND PER CNN LOCH INCHi INCH2 I CRMEN CEG 8EGT ENOT POIA PTYPE. CALl I 2 69 HUIU 541
' I 37 37 69 69 1.18 74 NWD INR 6 2H *42.58 TSH TEH TSH TEC
.720
.720 ZPS3C MBARH 311 441 I 19 70 NDD TSH TSH .720 ZPS3C 331 19 70 .38 66 FSD 3 1H 40.37 TEN TEC .720 MBARH' 461 I
l 24 70 NOD TSH TSH .720 ZPS3C 331 24 70 3.07 69 MBM 6' 4C -1.67 TEN TEC .720 BMRN 461 I
l 33 76 NOD TSH TSH .720 *ZPS3C 331 l 33 70 2.68 78 M8M 6 2C 30.33 TEN TEC .720 WBARN 461 I 1 71 .42 63 FSD 3 TSH 16.95 6H TEN .720 MWARNH 91 l 1 71 NOD 6C 6H .680 ZPUNM 191 l 1 71 NOD 6C TEC .720 HBARH 521
.83 I1 31 72 .43 66 FSO 3 iV3 TEN TEC .720 MBARH 461 I 31 72 1.63 263 INR 6 ' AV3 2.10 TEN TEC .720. HBARH 461 r 34 72 .30 7I INR 6 3C 4.34 TEN TEC .720 BARH 451 11
- 3 74 .23 71 FSD 3 ' 3H 3.33 6H TEN .720 NBARH 71 I 3 74 NDD 6C SH .700 MBARH IlI l 3 74 NDD TSH TSH .720 ZPS3C 351 l 3 74 NDD 6C TEC .720 WBARN 541 I 7 74 NDO TSH TSH .720 ZPS3C 351 l 7 74 1.76 78 INR 6 TSH 17.63 TEN TEC .720 MBARN 36 74 NOD TSH TSH .720 *ZPS3C .331 I 36 74 1.35 85 IKR 6 12H 39.95 46.87 TENH TEC .720 MBARH 461 1 5 75 .28 44 FSO 3 414 19.50 61H TEN .720 WBARN 471 l 5 75 NDD 6C TEC .720 WMARN 541
- l. 12 5 78 75 NOD 6C 5H .700 MBARN 591 8 75 1.06 72 INR 6 *3H 24.14 TEN TEC .720 WBARN 481 4B1 l12 75 1.15 84 INR 6 IC 35.76 TEN TEC .720 WeARN. 441 1.75 106 INR 6 514 30.56 -TEN TEC .726 MBARN 22 75 2.03 281 MBM 6 55H 32.68 TEN TEC .720 MBARH 441
.1 23 76 .69 97 FSD 3 TSC 20.71 TEN TEC .720 BARNM 501 l 23 76 1.39 99 INR 6 TSC 21.03 TEN TEC .720 MBARN 501 I.1 NOD TSN TSH . .720 ZPS3C 351 l 20 77 Z.67 184 DNT m1 AVI .51 TEN TEC .720 MBARH 481 I 31 77 NOD TSH TSH .720 ZPS3C 351 l 31 77 .37 51 FSD 3 TSH 11.57 TEN TEC .720 MBARH 481 65 78 NOD TSH TSH .720 ZPS3C 351 l 5 78 1.17 71 INR 6 SPH 8.70 614 TEN .720 MBARH 471 l 5 78 NOD TSH TEC .720 WSARN 541 l.5 78 NOD 6C SH .700 M8ARN 591 I .
I 19 81 .29 100 FSD -3 2H 47.44 TEN TEC .720 HBARN 481 4 1 11 83 4,17 188 DNG 1 . 2C 7.66 TEN TEC .726 M8ARH 481 I 11 83 .71 188 INR 1 IC 23.33 TEN TEC .720 HBARN 481 l 11 83 2.13 187 DNG 1 IC 25.70 TEN TEC .720 MBARK 481 1 11 83 .47 189 INR 1 IC+ 39.11. TEN TEC .720 WBARN 481 l 11 83 3.87 187 DNG 1 IC 43.04 TEN TEC .720 lBARN 481 l 11 83 .51 190 INR 1 IC 46.81 TEN TEC .726 lEARN 481 12 83 Z.69 103 M8M 6 3C 16.19 TEN TEC .720 H8ARN I 27 83 NOD TSH TSE .720 ZPS3C 371 l 27 83 1.28 107 INR 6 AV6 5.31 TEN TEC .720 MBARN 481I 11 85 NOD TSH TSH .720 ZPS3C 371 1.23 65 INR 6 SH. -1.87 TEN TEC .720 M8ARH 481 Wil 85 1
j 5 86 NDD TSH TSH .720 ZPS3C 351
+ .--- + ---. .................
. . .+--+--------.----..+-
. . .*...................................... . 4................ . ........ . . . . . . . -+
I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 IHCH2 I CRLEN CEG BEGT ENDT PDIA PTYPE CALI
+-.-- +.-.... ------- . ....-.-.............................
8
- 31 Cumulative Indication List from-R~fuel 10
-dien Point 3 Refuel 10 - INT iggg!qoi . 10/0311999 12:50:09
. . .. ..... . . . . . . . .. . . .+. .. .. .+ .. _.+
. .. . . . .. . .. .. . .. . . .. .. . +- . ... . ^-.
--. . . . . . .+ .. .. . ... .. .. .. .. .. .. .. .. .. . .... .. . . .. .. +.
. . +. .+
ROW COL VOLTS DEG IND PER CNN LOCN IINCHI I4NCH2 I CRLEN CEG BEGT ENOT iPDIA PTYPE CAL I...
......-... + . ..... .................... .. 4...4...... ........ !........ +...
5 86 NDD 6H TEN .7201BARH 471 5 86 2.39 189 ONG 1 4C -1.00 6C TEC .720 MBARH 541 5 86 NDD 6C SH .700 NBARH 591 5 87 3.01 132 Nam 6 4H 10.31 97.23- 6H TEH .720 MBARH 471 5 87 2.26 123 tMBM 6 6H 6.4 6H TEC .720 HBARH 541 5 87 2.46 118 MBm 6 - H 14.42 6H TEC .720 MBARN 541 5 87 2.52 123 MBM 6 6H 23.43 61 TEC .720 WBARH 541 5 87 2.22 .77 MBM 6 2C 3.59 6H TEC .720 NBARN 541 5 87 .47 89 FSD 3 2C 36.76 6H TEC .720 MBARH .541 1 5 87 34.66 329 INR 6 TSC .00 6H TEC .720 MBARH 541 1 5 87 2.05 266 NBM 6 SNH 3.74 6C SH .700 MBARH 591 I 5 87 2.28 73 MBM 6 5H 17.54 . 6C SH .700 MB MH 91 I 5 87 2.28 80 MNM 6 5H 21.27 . 6C SH .700 MBARH 591 l 5 87 2.23 72 MBM 6 SH 24.26 . 6C 5H .700 MBARH 591 l 5 87 2.24 79 N8M 6 SH 29.51 6C SH .700 M8ARH 691 5 87 2.32 75 IEM 6 SH 31.30 6C SH .700 M8ARH 591 l 5 87 2.34 82 Na8M 6 SH 37.95 6C 5H .700 M8ARN 591 1 5 87 2.26 105 MNM 6 6H 6.40 6C SH .700. MBARN 591 1 5,87 3.08 113 MBM 6 6H 14.45 6C 5H .700 M3ARH 591 l5S 87 2.578100 M8M 6 6H 22.67 6C SNH 700 MBARH 591 1 I l 4 88 3.54 182 -ONG 1 SH 19.96 , 6H TEN .720 MBARH 471 1 4 88 NOD SC TEC .720 M3ARN 521 1 4 88 4.16 184 ONG 1 SH 20.37 6C SH '.700 MBARH 591 2 89 1.08 109 INR 6 TSH 9.19 6H TEN .720 MBARH 91 l 2 89 NOD 6C TEC .720 MBARH( 521 l 13 89 NOD TSH TSH .720 ZPS3C 371 l13 89 2.22 182 DNT Ml AV6 .17 TEN TEC .720 M8ARH 481 .
I ,I 1 92 '5.23 179 ONG 1 TSH 6.81 6H TEN .720 MBARH 91
.1 92 . NOD TSN TS .720 ZPS3C 371 l 1 92 NDF TSH 6.81 TSH 8PH .720 ZPS3C 411 I 1 92 NOD 6C TEC '.720 MARMH 521
..................-............................ 4...' .... ..-. ........ 4........... ....
k ROW COL VOLTS DEG IND PER CHN LOCN INCH1 I INCH2 I CRLEN CEG BEGT ENOT POTA PTYPE CALl
........... ...... .*.. ............ ...................... . 4 .... .......
... 4. ...
--*+--*.-. -* *+ --t +-*+----'---*-
-s-i --- + -----.- ..............................................................................
++_+9 Tubes: 197 Records: 456