Cable Issues Supplemental Rept Cable Testing

ML20155B683
Person / Time
Site:	Browns Ferry
Issue date:	09/22/1988
From:	Brown K TENNESSEE VALLEY AUTHORITY
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NUDOCS 8810070005
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Text

QA Record

. B22 '88 0 9 23 004 4

l TVA TENNESSEE VALLEY AUTHORITY

$"" Division of Nuclear Engineering p\l g[3, j{

BROWNS FERRY NUCLEAR PLANT CABLE ISSUES SUPPLEMENTAL REPORT CABLE TESTING PREPARED BY DATE 7/hj RsyswaoB/ihkObwk DATE b/M/k APPROVED BY dei G_ DATE jf_Id,

!SA A888? 088sSLo l'Ntl

TENNESSEE VALLEY AUTHORITY BROWNS FERRY NUCLEAR FIANT ,

1 CABLE ISSUES SUPPLI2iENTAL REPQET CABIE_ TESTING i

September, 1988 l

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l Prepareri by: John A. Simons  !

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4 IABLE_9F . CONTENTS East

1.0 INTRODUCTION

1 1.1 Background 1 1.2 Purpose 2 1.3 Approach 2 2.0 DESCRIPT 0N OF BFN CABLE TESTING PRACTICES 4 2.1 Installation, Modification, and Maintenance Cable Testing 4 2.2 Environmental Qualification (EQ) Testing

• 2.3 Test Methodologies and Basis 5 3.0 RESULTS OF CABLE TEST DATA REVIEW AND APPLICATION TO CABLE ISSUES 7

4.0 CONCLUSION

S AND

SUMMARY

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5.0 REFERENCES

12 6.0 ATTACIIMENTS 14 Attachment A - TVA/BFN Procedures / Instructions with Cable Test Requirements -

Construction Through Present Attachment B - EQ Cable Test Samples - Application to Cable Issues Attachment C - BFN Unit 2 Walkdown Cables / Conduits That Have Been Maintenance Hi-Pot Tested - Application to Cable Issues Attach.me.. D - Summary of TVA BFN 8kV de Hi-Pot Test Re po r t.s I

Attachment E - TVA BFN Cable Acceptance Test Records '

] Summary '

Attachment F - BFN Unit 2 Class 1E, 4kV Walkdown Data Attachment G - Supporting Calculations / Basis for Applicability to Cable Issues

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4 1.0 INTRODUCTIQN 1.1 Backa round During the summer of 1986, the U.S. Nuclear Regulatory Commission (NRC) began a review of concerns relating to the adequacy of construction practices at the Tennessee Valley Authority's (TVA)

Watts Bar Nuclear Plant (WBN). The review identified that many of the concerns centered on potential damage to electrical cables due to alleged improper or inadequate cable installation practices.

Accordingly, the NRC performed a comprehensive review to determine if significant damage had occurred to cables during their installation at WBN. Since TVA's Sequoyah Nuclear Plant (SQN) and WBN are based on the same overall design, the NRC extended the evaluation of the cable installation concerns to the SQN plant.

The Technical Evaluation Report (TER) describing the NRC's evaluation, conclusions, and recommendations regarding the concerno relating to potential abuse of electrical cable from installation practices at SQN was provided to TVA via reference 1.

TVA performed an extensive and comprehensive evaluation of those SQN issues for which the TER determined implementation was required prior to startup of that plant (reference 2). These issues were successfully resolved at SQN and its cable installation practices in these areas were demonstrated to have resulted in adequate cable installation (reference 3).

As a result of generic reviews of the Condition Adverse to Quality Reports (CAQRs) issued to document the potential conditions at SQN, these same cable installations concerns have been identified at Browns Ferry Nuclear Plant (BFN?

In order to evalbate the extent to which these concerns applied to BFN and to determine whether significant damage had occurred to cables during their installation, TVA implemented an individual indepth review on BFN. The review was structured to address the followings -

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• Determine if significant dif ferences existed between the cable installation practices and procedures utilized in the construction of BFN and those utilized in the industry during the time period of BFN's construction.

• Perform plant walkdowns to review specific installation practices and assess the overall quality of the cable installation.

Determine the extent to which the installed cables at BFN are enveloped by the SQN cable issue resolution program.

Establish, as necessary, a BFN corrective action program for resolution of the cable installation concerns. i 1

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1.0 INTRODUCTION

(Cont'd) 1.1 Rackground (Cont'd)

The result of this review was the issuance of four reports (references 4 through 7) addressing the above listed actions.

The summary report (reference 4) was transmitted to the NRC via reference 8 on July 18, 1988.

A meeting was held with the NRC on July 21, 1988 to discuss TVAs approach to resolution of the cable issues at BFN and the summary '

l report recommendations. At this meeting, the NRC indicated that a 1

testing program similar to that of SQN was preferred over the l approach proposed by TVA in the cable issues summary report.

During a subsequent meeting with the NRC on September 12, 1988, TVA 1 presented preliminary information on testing of cables performed at BFN for Environment Qualification (EQ) and routine maintenance.

TVA proposed that review of the test data, when combined with the previous walkdown (reference 7) and corrective actions of the summary report, would provide a sound basis for resolution of the r BFN cable issues.

This report provides the evaluations and conclusions from the review of previous BFN cable test data.

1.2 Euranst

The purpose of this evaluation is to determine the scope of BFN cable testing to date, analyze the types of testing performed and 1

the cables tested for applicability to resolution of the cable issues, review actual test data, and establish conclusions from the review to facilitate resolution of the BFN specific cable installation concerns.

1.3 Approath The approach utilized in the evaluation of historical cable test data at BFN is summarized as follows:

1. Research BFN historical records to establish scope of cable testing to date, with emphasis on de high potential testing.  ;

2. Research BFN historical records and compile cable test I data / documentation.

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l 3. Analyze data to assess cable failure rate, failure cause, and categorize findings. L l

4. Determine applicability of test data to electrical cable issues. [

l 5. Make conclusions and recommendations.

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1.0 INTRODUCTION

(Cont'd) 1.3 Approach (Cont'd)

For the purposes of this report, it wee decided to limit review of cable test data to de high potential ("withstand" and "time-leakage current") tests and EQ testing. This data is more likely to detect cable damage caused by installation practices than insulation resistance (IR) test data. In addition, medium voltage shielded cable, to which de high potential testing solely applies, is considered more susceptible to damage due to jamming, bend radius, sidewall pressure (SWP) and vertical support concerns, than the  ;

majority of other cable types used at BFN. '

All of the BFN cable test instructions / procedures referenced in

, this report require IR testing using a 500V insulation resistance tester for various durations (dependent upon test purpose and 4

associated equipment) on low voltage power and control i cable / equipment. For 4kV equipment and cables, a 2500V insulation resistance tester is used. The IR tests are performed for both I

initial acceptance and maintenance testing. Review of the cable

( test data indicates that IR test documentation exists in great abundance at BFN. Samples of IR test data were pulled and reviewed ,

e to determine the extent and application of IR testing, however a '

detailed review of IR test results was not performed.

To date, de high potential testing of low voltage cable (cable rated at 600V and less) has not been performed at BFN. ,

Maintenance procedure EPI-0-000-TST-002 Electrical Preventive Instruction, "Surge Comparison Testing of Electrical Equipment"  !

i test data was not reviewed as part of this report effort.

] EPI-0-000-TST-002 was implemented on May 10, 1988 to supersede D1I-71. Considering the limited amount of test data that could be generated in the short time f rame since implementation, it was decided not worthwhile to retrieve EPI-0-000-TST-002 test data for this evaluation.

Test records for temporary cables, cables not associated with the permanent plant (warehouse /of fice feeds, etc.), and pre-installation (cable on the real) tests were not included in

, this evaluation. ,

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2.0 DESCRIPTION

OF BFN CABLE TESTING PRACTICES 2.1 Installation. Modification and Maintenance Cable Testine The cable installation practices report (reference 5) was issued to establish the application of TVA cable installation, testing, and maintenance specifications, procedures, and instructions, both past and present, to BFN cable practices. The main focus of the report is cable installation requirements. Although testing is addressed by reference 5, it is not covered in great detail.

TVA documents identified in reference 5 that contain cable test requirements are BF-17, MAI-13, MAI-45, and EMI-71 (See Attachment A for titles). The cable test date research performed for this report indicates the following additional BFN documents contain cable test requirements:

PSO Field Test Manual Division of Power System Operation (PS0)

Fleid Test Manual, Section D3, "High-Voltage Cables", and Section C3, "High-Potential Testing" BF-14 Document not retrievable. Preceded BF-17.

Test records exist which reference this document. The records are similar in format to BF-17 test records.

EMSIL - 50 Electrical Maintenance Section Instruction Letter 50, "Megger, Bridge, and High Potential Testing of Electrical Equipment".

EMI-58 Electrical Maintenance Instruction 58, "Splicing of Medium and Low Voltage Signal, Low and Medium Voltage Power, and Control Cables - Critical and Non-critical".

EPI-0-000-TST-002 Electrical Preventive Instruction, "Surge Comparison Testing of Electrical Equipment" Attachment A lists all BFN specifications / procedures containing cable test requirements and describes their scope, application to each phase of installation, modification, oc maintenance, and effective dates.

It should be noted that all BFN procedures / instructions which require initial acceptance de high potential tests refer to the ,

i Division of Power System Operation (PS0) Field Test Manual which .!

establishes test voltages, durations, and actual test procedure. I This document is a common thread which provides consistency to past }

cable test practices at BFN. This is evidenced by the consistency l of documentation produced in accordance with several different procedures / instructions spanning the years from the early 1970s to the present.

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2.0 DESCRIPTION

OF BM' CARI.E TESTING PRACTICES (Cont'd)

! 2.2 Environmental Oualification (EO) Testina Other cable testing performed at BFN, but not covered in  !

Attachment A, is the EQ testing performed in accordance with  ;

IEEE 323 (reference 9) as part of resolution of EQ concerns which '

are addressed by the Browns Ferry Nuclear Performance Plan (BFNPP)  !

i Volume 3. Section 1.0 (reference 10) and documented by Wyle l l Laboratories Nuclear Equipment Qualification Test Report No.

17745-1 (reference 11).

2.3 Test Methodologies and. Basis The various BFN cable tests considered by this report, and

, described in paragraphs 2.1 and 2.2 above, can be summarized into I three basic catagories. The catagories are discussed belows (

j Category 1 - Inttallation and Modification DC 111mh Potential _

j IstAling This category includes de high potential "time-leakage current (

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tests" performed for acceptance and proof testing. Acceptance [

tests were performed after initial cable installation '

(including splices and terminations) by application of 25kV de i

for 15 minutes. Acceptance criteria was a decreasing, or not  !

increasing, leakage current with respect to time. Proof tests l were performed when a cable required testing after the initial i acceptance test. Situations requiring proof tests include ,

! disconnection /reconnection of splices or terminations, partial j cable replacement, etc. Proof tests vere performed at 18.7%V

! or 17.6kV de for 5 minutes. Acceptance criteria is the same as  ;

for initial acceptance tests.

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] As depicted in Attachm6nt A, BFN procedures / instructions which l require (d) tests as defined by this category are BF-14, BF-17, j MAI-13 l'AI-45 and EMI-58 (See Attachment A for titles). i i

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The basis for the Category 1 test methodology is Table D3-1 of the PSO Field Test Manual. The "after installation" values provided in the table are derived f rom NDIA WC-3 (reference 12)

! for rubber-insulated cables and NEMA WC-5 (reference 13), and l NEMA WC-7 (reference 14) for polyethylene and cross-linked

polyethylene insulated cables. The test values in the PS0 j Field Test Manual Table D3-1 are also consistent with the test i values recossnended by IEEE 400 (reference 12) which establishes

) current industry practice.

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Category 1 test records are sumnarized in Attachment E.

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2.0 DESCRIPTION

OF BFN CABLE TESTING PRACTICES (Cont'd) 2.3 In s t Me thodologis s_and_3as i s ( c on t ' d1  !

Category 2 - Maintenance DC High Potential TestiDS This category includes de high potential "withstand" tests, performed periodically to assess the condition of 4kV motor windings. The tests were applied to the feeder cables and i motor windings simultaneously and are therefore useful in l assessing age related cable degradation resulting from, or enchanced by, cable installation practices. These tests are performed in ikV increments of three (3) minutes in duration up  ;

to 8kV dc. The test voltage is limited to 8kV to preclude i

detrimental effects of high voltage stress on the motor winding insulation. The tests are performed periodically, usually j during each outage, or following a circuit trip. Acceptance 1

a criteria is a linear versus non-linear incremental increase in leakage current.

As depicted in Attachment A, BFN procedures / instructions which  !

required tests as defined by this category are EMSIL-50 and  ;

EMI-71 (See Attachment A for titles). The basis for the  !

Category 2 test methodology is TVA document N75MS (See  !

Attachment for title) which specifies an 8kV upper limit, l stepped de high potential test for 4kV motors and associated j feeder cables. The industry basis for the test methodology and 3 limiting the test voltage is ANSI /IEEE 43 (reference 17).

Maintenance testing guidelines for cables are provided by l l ANSI /IEEE 400 (reference 12) Appendix A.1.2. }

Category 2 test records are summarized in Attachment D.  ;

Category 3 - EO Testing  ;

This category of tests encompasses cable samples representative of the various cable types, configurations, and manufacturers i that have been EQ tested in accordance with IEEE 323 by an  :

independent test agency. For the purposes of this report, only l 5 cable samples that were obtained by removal f rom actual service j

] and routed at least partially in conduit are considered. The i i

i EQ test sequence, methodology and parameters are as specified in IEEE 323 (reference 9) and documented by reference 11. In i addition to the test requirements of IEEE 323, the test samples i were subjected to a 2.2kV ac high potential test af ter exposure  ;

to a Loss of Coolant Accident (LOCA) environment. I 1 l 1 I l l

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3.0 RESULTS OF CABLE TEST DATA REVIEW AND APPLICATION _T0_ CABLE ISSUES Category 1 test results are applicable to the TER cable issues with the exception of pullbys and use of condulets. As recommended by reference 4, corrective action walkdowns have been performed on BFN Unit 2 4kV Class IE cables to determine the extent and severity of bend radius and cable support violations. The Category 1 test data spplies te the same group of cables addressed by the corrective action walkdown 3

(i.e. 4kV circuits). A review of test records for cables addressed by the correcti'ce action walkdown shows that Category 1 test records were available for 93% of the cables. This is a substantial samplo. Review of conduit configuration data produced by these walkdowns shows that l ccndulets were not used in conduits containing 4kV cable. Pu11bys do l

not typically occur in power feed conduits. '

Although this report does r.ot cite specific examples of Category 1  !

conduits that have conduit / cable configurations applicable to the issues

. of jamming, SWP, and bend radius, the Category 1 test -eview results have application to these issues in that existence of a "testing program" is demonstrated. It can be concluded that existence of a "test program" which is consistent with current practice would have detected significant cable damage resulting f rom jamming, excessive SWP, or bend radius violations.

1 Five.hundred fifty-seven (557) Category 1 cable test records were produced as part of the data research which included four-hundred r I

eighty-eight (488) individual cables. Refer to Attachment E for a  !

detailed summary. Records retrieved do not document 100% of the safety-related cables at BFN, however the records found and reviewed are in sufficient quantity to demonstrate that an initial acceptance test 1

program was in place and was effective in evaluating cable quality prior '

, to placement in service.

Category 1 test records, although not complete, are considered a very comprehensive samplo. Review of Category 1 test records indicate zero (0) cable insulation failures resulting f rom cable acceptance testing. The records doctment five (5) splice and termination failures (cable nos. 3ES4090-II, PP1154, PP1169, PP65, and PP66 which had i terminations / splices repaireo er.d ratested). The acceptance test  !

" records also document new cabic installation to replace previous cable  !

for various reaaons, including in-se.vice failures. Test records for cables PP1150, (7/17/78), PP1151 (7/19/78), and PP1173 (6/16/78) indicate that in-service f ailures occurred on the previously installed  ;

cah1ca. Further research was performed, but the specific cause of the  ;

in-service failures for these three (3) cables could not be determined.  ;

All three (3) cables are feeds from the AkV cooling tower switchgear A l and C to various 480V cooling tower unit substations. Although the l purpose of this repvrt is not to investigat in-service failures, the  !

research into these three (3) cables ravealed that the majority of documented cable, splice, and terminstion failures at BFN have occurred in circuits associated with the cooling towers.

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3.0 BESULTS OF CABLE TEST DATA REVIEW AND APPLICATION TO CABLILIS1UES (Cont'd)

Documented cooling tower cable failures have included overheating of aluminum to copper splices / terminations, insulation failure due to electro-chemical treeing, insulation damage resulting from collateral work activities and unexplained failures. No documented failures attr!butable to insulation damage caused by installation were found.

Cab 1(s *P1150, PP1151, and PP1173 have approximately 80% of their installed lengths in cable trench with removable covers and the remaining 20% in embedded conduits /ductbank. Conclusions regarding the specific failure mechanisms for cables PP1150, PP1151, and PP1173 cannot be drawn, however it is evident from the review of documented BEN cable failures that materials and practices used in the installation of cooling tower cables / terminations do not seem representative of the balance of BFN cable work.

Test records for cables IPP1000, 1PP1001, 1PP1002, 1PP1050, 1PP1051, and 1PP1052 (12/22/78) indicate the previous cables were replaced due to "stress basket damage". These cables are reactor recirculation pump feeds from the Unit #1 Motor-Generator (MG) set generators to the Recirculation Pump Trip Boards, and are routed entirely in cable tray.

The cables are supported f rom the MG set terminal boxes by wire baskets grips. Damage resulting from these cable supports are considered not applicable to the cable issues discussed in the SQN TER as they are not in conduit and are designed cable supports (as opposed to no design).

It is known that several medium voltage shielded power cables for the 6 conductor per phase circuit between the AkV Bus Tie Board and the 4KV Cooling Tower Switchgear failed de high potential tests (See Reference 18). The research for this report did not recover these test records. The cable failures were attributable to damage from collateral work activities and electro-chemical treeing and therefore are not related to the SQN TER cable issues.

Category 2 test records apply to the same cable issues, cable types, and voltage class as Category 1 with the exception of jamming and SWP. With rr;pect to SWP, walkdowns of conduit configuration and performance of SWP calculations were not attempted to show application of test results to specific cable / conduits. The basis for this decision are References 4 and 7 and the TVA Cable Sidewall Bearing Pressure Test Report (ref erence 16) which show that SWP violations are highly unlikely considering BFN canduit installation practices (high SW' limits and high population of pull points). The Category 2 test data a;vlies to the same group of cables addressed by the corrective action walkdown.

Attachment C depicts huw fourteen (14) walkdown conduits with cable tested under this category apply to the cable issues. Review of the Category 2 de high potential test records for all BFN Units, both safety and non-safety related, produced five-hundred seventeen (517) records which applied to one-hundred eighteen (118) individual cables.

One-hundred sixteen (116) of the Category 2 records apply to twenty-four (24) Unit 2 and tummon Unit safety related cables.

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3.0 ILESULTS OF cARLE TEST DATA REVIEW AND APPLICATION TO CABLE ISSUES (Cont'd)

Detailed review of the available BPN Category 2 test records revealed zero (0) cable insulation failures. Five (5) failures of motor windings were documented. The results of this review are tabulated in Attachment D. ,

Category 3 test results are contained in reference 11. Of the forty-six (46) cable samples tested for EQ, eleven (11) with at least partial routing in conduit, were obtained by removal f rom service. Below is a listing of the cables removed from service, their corresponding specimen number in reference ll, and the EQ test result.

Cable No. Spaclaen No. Ins _t_Rean1_t L36 40 (A & B) Passed '

M935 30 (A & B) Passed ,

I 1NM1256 33 (A & B) Passed  !

2ES2726-II 29 (A & B) Passed  !

2V42 28 (A & B) Passed  ;

} 2V1200 26 (A & B) Passed j 2V1218 23 (A & B) Passed 3ES2501 32 (A & B) Passed i 3PL575 25 (A & B) f Passed 1 3PL800 31 (A & B) Passed l 3V1255 27 (A & B) Passed

{i t l Cables removed from service were receipt inspected by the independent 3 test agency. Damage is described in Notice of Anomoly No. 1 to (

! reference 11, but was judged not to affect qualification. I l

) The a,pplicability of EQ cable test record review results to each cable )

issue is summarized in Attachment B. Category 3 test data results can  ;

3 be applied to the "use of condulet" cable issue.

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t 4.0 C.ONCLUSIONS AND S(ttiMO(

The review results of the Category 1 test data (initial acceptance and proof tests) provides substantial evidence that medium voltage (4kV) cables were handled and installed in such a manner to preclude cable damage. Review of five-hundred fifty-seven (557) Category 1 test records revealed zero (0) cable insulation failures. From these results it can be concluded that BFN medium voltage cable installation practices relating to the issues of jamming, SWP, and bend radius, were adequate in the prevention of significant cable insulation damage. This conclusion can be extended to the remaining low voltage and instrumentation cables at BTN, as medium voltage shielded cables are more susceptible to damage resulting from the cable issues of jamming, SWP, and bend radius.

Age or environment related deterioration could result from, or be accelerated by, cable abuse during installation. However, the review results of Categories 2 and 3 test data (maintenance testing and EQ testing) provide evidence that medium voltage (4kV) and EQ test sampic cables have not shown age or environment related deterioration.

This finding is especially noteworthy in consideration of bend radius and vertical support cencerns. Bend radius violations severe enough to result in shield distortions may result in failure over time due to corona discharge between the shield and insulation. Vertical support violations, especially those with cable weight bearing on a surface with a small radius (such as conduit bushing, or inside radius of a condulet), may show failures due to insulation creep caused by time and .

high temperature. Although the results to date of the corrective action l

walkdown indicate a substantial amount of bend radius and vertical support violations, the review of Category 2 test records indicates zero (0) cable insulation failures from a total test sample of five-hundred seventeen (517).

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4.0 CONCLUSION

S AND SUltlARY (Cont'd)

The data reviewed in this evaluation, although substantial, cannot be I considered comprehensive. It cannot be established that all BFN cable test documentation was reviewed. The data is however, a significant statistical sample which allows credible conclusions. The size of the i data sample also supports the argument that any failures that may result l from cable installation practices would be random occurances. l In summary, it can be concluded from a review of PFN historical cable j test data thatt t

j 1. Cable tests were performed; and the type of testing was adequate to l

) detect cable installation abuse initially and over time,  ;

l 2. Cable test results have application to the cable issnes of jamming. !

q SWP, bend radius, vertical supports, and use of condulets.

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3. Cable test data allows conclusion that installation practices have f

! not resulted in significant cable insulation damage.

A significant finding of the BFN cable test data review is that [

] programmatic acceptance testing was performed at the time of initial l cable installation, and that the testing methodology used is consistent with current practices. Of equal importance is that periodic de high 1 potential maintenance testing and EQ testing of in-service cable samples have not detected cable insulation failures resulting from age or 6 operating environment influences.  !

These conclusions, evidenced by documented tests, when combined with the ,

comprehensive walkdown effort described in references 4 and 7 L demonstrates the integrity of cable installed at BFN. i l

Implementation of the recommendations provided in reference 4 along j i with the upgraded installation / maintenance procedures recently issued l l and trending of any cable failures, will ensure that integrity is i q maintained. l I i i >

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5.0 REFERENCES

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1. Letter f rom B. J. Youngblood (NRC) to S. A. White (WA), dated '

March 9, 1987 (A02 870312 023).

2. Letter form R. L. Crldley (WA) to NRC, dated July 31, 1987 (L44 870731 803).

3. Letter f rom R. L. Gridley (WA) to NRC, dated November 20, 1987  !

(L44 871120 803). ,

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4. Evaluation of Browns Ferry Nuclear Plant Cable Installation  !

Concerns - Susanary Report, dated June 17, 1988 (B22 880617 016).

5. Project Topier.1 Report Cable Installation Requirements, date.1

. June 17, 1988 (522 880617 015).  !

J i I 6. Materials Evaluation and Comparison of Safety-Related Cable and j Conduit Materials Used at Sequoyah and Browns Ferry Nuclear Plents, j Revision 1. dated June 1988 (B22 880617 017). ,

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7. Cable Issues Walkdown Report, Revision 1, dated June 1988  !

j (B22 880617 018). l l

] 8. Letter f rom R. L. Gridley (WA) to NRC, dated July 18, 1988 j

(L44 880718 819).

• i i f 9. ANSI /IEEE 323-1983, Qualifying Class 1E Equipment for Nuclear f Generating Stations.

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{ 10. Browns Ferry Nuclear Performance Plan (4FNPP) Volume 3, Revision 1  !

i dated July 1, 1987 (L44 870701 802).  !

! t l 11. Wyle Laboratories Inc., Nuclear Equipment Qualification Test Report f l No. 17745-1, dated February 26, 1987 (801 870302 251). t l l

12. ANS1/IEEE 400-1980, Guide for Making High-Direct-Voltsge Tests on f Power Cable Systems in the Field. I

13. NEMA WC-3 Rubber-Insulated Wire and Cable for the Transmission and Distribution of Electrical Energy (ICEA S-19-81, Sixth 1

Edition); Revision 1-January 1983, Revision 2-March 1985, and Revision 3-March 1987.

14. NEMA WC-5 Thermoplastic-Insulated Wire and Cable for the  !

Transmission and Distribution of Elsetrical Energy (ICEA S-61-402) I l (R 1985); Rev. 1-74. Rev. 2-77, Aev. 3-79. Rev. 4-79. Rev. 5-80, Rev. 6-82, Rev. 7-82. Rev. 8-82, Rev. 9-82 Rev. 10-83 Rev. 11-84,

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15. NEMA WC-7-82 Cross-Linked-Thermosetting-Polyethylene-Insulated Wire and Cable for the Transmission and Distribution of Electrical Energy; Revision 1-December 1984, Revision 2-March 1985, and Revision 3-August 1986.

16. TVA Cable Sidewall Bearing Pressure Test Report, dated 5/30/86.

17. ANSI /IEEE 43-1974 Testing Insulation Resistance of Rotating Machinery.

18. TVA report - Evaluation of the Adequacy of Installed Class 1E ,

Cables, dated February 18, 1986. (B43 860331 916).

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b 6.0 AITACHMENIS T

Attachment A - WA/BFN Procedures / Instructions with Cable Test Requirements -

Construction Through Present Attachment B - EQ Cable Test Samples - Application ,

to Cable Issues ,

Attachment C - BFN Unit 2 Walkdown Cables / Conduits t That Have Been Maintenance Hi-Pot i Tested - Application to Cable Issues Attachment D - Summary of WA BFN 8kV de Hi-Pot Test Reports Attachment E - WA BFN Cable Acceptance Test Records Sunnary Attachment F - BFN Unit 2 Class 1E, AkV Walkdown Data l

Attachment G - Supporting Calculations / Basis for Applicability to Cable Issues i

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ATTACHMENT A IVA/BFN Procedures / Instructions with Cable Test Requirements - Construction through Present 4

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4 T VA/BFN PROCEDURES / INSTRUCTIONS WITH CABLE TEST REQUEEMENTS CONSTRUCTION THROUGH PRESENT INITIAL INSTALLATION MODIFICATION MAINTENANCE i

1. SF-14; DOCUMENT NOT RETREWASLE. PRECEDED 1. mat-13 "CONTROL POWER AND S8GNAL CASLES? 1. EMS 8L 80 - ELECTRICAL MABdTENANCE INSTRUC-SF-17 R4. TESTS AECORDS NAVE SNWILAP FORMA f RS (S/ 2/ 0 3) TNROUJ R7 (11/14/ SS). REPLACED TIDN LETTER SS: "ReEGGER, SR8DGE. AND IeGN TO SF-17 RECORDS. TEST RECORDS DOCUMENT SY MA8-44/4S. SPECFIES S7%NDARD CASLE TEST No. 3 POTF.NTIAL TESTDs4 OF ELECTrJCAL EQUIP 9AENT?

2 5 hV DC F OR 1 S MBd. (2 8 h V DC - 1 S MIN ). DOCUMENT ATION INCORPORATED CAfeCELLED S/7/SS. SPECFES S kV DC STEP DC NIGN INTO WORK PLAN. POTENTIAL TESTS.

2. SF-17: *0A PROGRAM FOR CONTR3L, POWER, A9eD 2. MA8-4S; "CABLE TEmeRNATBeG AND EPUCDeQ 2. Eh8 SS *SPtsCSs0 OF asEDeWas AteD LOW LEVEL S*0.NAL CASLES.* R S (2/24/ 8 0) TNetOUGN FOR BeSULATED CASLES RATED UP TO 18.999 VOLTS? SGONAL, LOW AND 4AEDIUh4 VOLTAGE POWER AssO RS 4S/30/78). R4 (4/

• 1/73) STARTED STANDARD R S (S/ 30/98) TNROUGN R S ( S/27/8 0). STANDARD CONTROL CASLES - CRtTICAL AfsD peon-CRfTICAL?

CABLE TEST No. 4. (2' e F DC FOst S S MIN.) CABLE TEST No. 3 (2 S kW DC - 15 BAIN.). ACCEPTApeCE 11/2 3/ 0 3 - R 1(S/ 81/ 88). CONTAsNS TASLE DOCuneENTED ON ATTACNRAENT *0, ITEM s.S. PSO WNBCN SPEC 3FIES 2 8 kV DC MEW,18.7 kW DC IN SERVICE.

DOCuadENT FILED WITN WORf( PLAN. SUPERCEDED MAF13. REQUOtES PSO ACCEPTA8eCE SIGas OFF 006 ERAFSS DOCunaENTATIOst

3. Easl- 71: "maEGGER, SftIDGE, AND NBCN POTENTIAL TEST 9eG OF ELECTheCAL EQUIPtAENT? S/11/93 TNROUQN R 2(12/19/ SS), SPECFES Sir *JGE, Pt, AND 0 hW DC STEP 90-POT.

4 EPFS-SSS-TSTSS2 RS (S/13/98) *ELECTAsCAL PREVDsTIVE SeSTftUCTION SURGE COesPARISOes TESTBeG OF ELECTetsCAL EQUIP &KMT? USES *SAMER SURGE COesPAmeSOes TESTER

• S8 LEU OF SP'9CE, P1 AND S kV DC STEPPED NP. SUPERCEDED EAAI-71.

~

UPPER TIER DOCUMENTS j N T SM S: *400,4509,8000. AND 13,289 V heOTORS- ROUTDsE MABdTENANCE TESTS j AND TEST PROCEDURE AFTER TRIPOUT SV PROTECTIVE RELAYS OR DEVTES?

l REVISaOA DATES S/S/78 TNROUCN 4/22/0 3. EMSIL-SS AND EMF 71 REQUIREMEpeTS AF E SASED ON T905 DOCateENT.

PSO FELO j TEST MANUAU DrVISsON OF POWER SYSTEM OPERATION (PSC) FIELD TEST MANUAL, SECTION D3,

• DeGN-VOLTAGE CASLES." AND SECTION G3,*DeCN POTENTIAL TESTBeQ?

SF-14.SF-17,MAF13, MAS-4S, AND EMF SS REQUIREMENTS ARE SASED ON790SDOCUR A T.

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. i ATTAClfMENT B EQ Cable Test Samples - Application to Cable Issues i

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r ATTACHMENT B 1.EGEND Abbreviations: A- Aluminum Conduit COND - Conduit IR - Intermediate Rigid Steel Conduit NO - Number Data Codes: I- Indeterminate (see below)

N- No Application to Cable Issue Y- Yes - Applicable to Cable Issue N/A - Not Applicable - Cable Not Installed in Conduit Cable Data Cable data codes are in accordance with IVA Design Standard DS-E12.1.13.

See Attachment G for supporting calculations for data in this table. Bend

, radius is indeterminant at this point considering the cables have been removed from service for testing. The nature of BFN documentation on conduit / cable installation (i.e. workplans) makes determination of application to pullbys ,

! extremely difficult. This research was not pursued.

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I EO CABLE TEST SAMPLES APPUCATION TO CABLE ISSUES .

CABLE DATA CABLE ISSUE CRITERIA CABLE NO CABLE DATA CONDUIT NO COND SIZE BEND VERTICAL JAMMING PULLBY SIDEWALL MID-RUN CONDULET RADIUS SUPPORT PRESSURE FLEX L36 WCH L39 2A I N N I N N N M935 sVD D-2 MC1910 21R I N N I N N N INM1256 WDF-1 INM1256 1A I N N I N N N l INM1263 1 - 1/2 A I N N I N N N 2ES2726 !! 2ES2731-Il WVA 1-1/2iR I N N I N N Y 2V42 YG 2PL3715 3A I N N I N N N 2V1200 WLC 2PL3709 JA I N N I N N N I j 2V1200 1 - 1/2 A 1 N N I N N N 1 2V1218 WGI 2PL3710 3A I N N I N N N 2V1218 1 - 1/2 A I N N I N N N 3ES2101 WCA 3ES2573-il 2- 1/2 A I N N I N N N 3PL575 WDG 3PL3700 3A I N N I N N N

! 3PL800 WDF 3PL800 1 - 1/2 A I N N I N N Y

.j i 3V1225 WLC 3PL3700 3A I N N I N N N i

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s ATTACHMENT C BFN Unit 2 Walkdown Cables / Conduits That Have Been Maintenance Hi-Pot Tested

- Application to Cable Issues r

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ATTACEMENT C LEGEND

, Abbreviations: A- Aluminum Conduit COND - Conduit l IR - Intermediate Rigid Steel Conduit i NO - Number l

Data Codes: I- Indeterminate (see below)

N- No Application to Cable Issue Y- Yes - Applicable to Cable Issue N/A- Not Applicable - Cable Not Installed in Conduit Cable Data Cable data codes are in accordance with TVA Design Standard DS-E12.1.13. i l

See Attachments F and G for supporting evaluations / calculations for l l information in this table. The nature of BFN documentation on conduit / cable  !

i installation (i.e. workplans) makes determination of application to pullbys extremely difficult. This research was not pursued. See Paragraph 3.0 for discussion of SWP application.

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BFFJ UNIT 2 WALXDCTNN CABLESCCDIDUIT THAT HAVE BEEN MAINTENANCE h1 POT TEsI t-D- APPUCATKWJ TO CABLE ISSUES .

CABLE DATA CABLE ISSUE CRITERIA CABLE NO CABLE DATA CONDUIT NO COND SIZE BEND VERTICAL JAMMING IPULLPY MDEWALL MID-R U NCONDULET '

RADIUS SUPPORT PRESSURE FLEX ES13-1 WNB ES13-f 3A Y Y N I N N N ES21-1 4A Y Y N I N N N ES50-1 WNB ES50-1 3A Y Y N 1 N N N ES50-1 4A Y Y N I N V N ES75-1 WNB ES75-1 3A Y N N I N N N ES88-I VnJB ES88-1 3A Y N N I N N N ES100-! WNB ES100-I 3A Y N N I N N N ES113-1 WNB ES113-1 3A Y N N I N N N ES 141 -1 WNE-1 ES138-1 4A ~Y Y N I N N N ES189-1 WNE-1 ES190-1 4A Y Y N I N N N ES2513-1 VnJB ES2513-Il 3A Y Y N I N N N ES2513-Il 4A Y Y N I N N N ES2550-I WND ES2550-Il 3A Y Y N I N N N .

1 ES2589-I WNB ES2588-li 3A Y N N I N N N ES2641 -1 WNE ES2641-Il 4A N Y N I N N N ES2575-1 WNB ES2575-Il 3A Y Y N I N N N -

1 ES2689-1 WNE ES2689-ll 4A Y Y N I N N N Page 1 9/20/88

O ATTACIIMDIT D Summary of IVA PFT: 8kV de ili-Pot Test Reports a

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. ATTACK 1ENT D LEGEND Abbreviational APH - A Phase AUX - Auxiliary BIOTHRM - Biothermal BOOST - Booster BPH - B Phase CCW - Condenser Circulating Water COND - Condensate CPH - C Phase CRD - Control Rod Drive CT - Cooling Tower DOC - Documentation HP - High Potential HTC - High temperature circulating LTC - Low temperature circulating MG - Motor Generator Set ,

MTR - Motor l RCW - Raw Cooling Water RECIRC - Recirculation RER - Residual Heat Removal RERSW - Residual Heat Removal Service Water RSIS - Resistance Data Codest MOTOR - Abbreviated description of motor tested. A question mark (?)

indicates missing descriptive data on test records. l UNIT - 0 - Conanon equipment to all Units.

1 - Unit 1 equipment 2 - Unit 2 equipment 3 - Unit 3 equipment DATE - Date test was performed CSSC - Y - Indicates that motor is a "critical structure, system, or component" 1.e. safety related. See note below.

N - Indicates that motor is not a "critical structur.

system, or component" i.e. not safety related. See note below.

BRIDGE - Y - Indicates bridge resistances for each phase are within one percent.

N- Indicates bridge resistance dif ferences are greater than one percent.

Blank - Missing data sheet or bridge reading not performed.

NR - Data not readable (illegible). <

l PI - Polarisation index value Note: The term "CSSC - critical structure, system, or component", is no longer used at BFN to identify safety .telated equipment. The term is used in this summary because it is part of data retrieved from historical records.

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. ATTACHMENT D (cont'd) l LEGEND DCHP - Y- Indicates 8kV de high potential maintenance test results are satisfactory.

N- Unsatisfactory test results Blank - Missing data sheet or high pot test not performed.

DATA - E50 - Data retrieved f rom test documentation prepared in accordance with BFN procedure EMSIL-50.

E71 - Data retrieved from test documentation prepared in accordance with BFN instruction EMI-71.

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SUlWAARY OF TVA BFN 8KV HI-POT TEST REPORTS ASOTOR !U NIT 1 DATE CSSCBRIDGEj PI DCHP DATA CABLE REAAARKS ,

AUX RCW A 0 12/13/85 N Y 3.1 Y E 71 AUX RCW A 0 1/31/86. N Y 4.2 Y E 71 AUX RCW A O__ 8/6/87 N Y 2.4 Y E 71 AUX RCW A 0 1/14188 N Y 3.3 Y E 71 AUX RCWB 0 t i31/8 6 N Y 3.2 Y E 71 AUX RCWB 0 11/24/86 N Y 2.0 Y E 71 AUX RCWB 0 7/31/87 N Y 2.2 Y E 71 CT UFT 1 A 0 2/17/79 N FR 7.0 Y E 50 CT UFT 1 A 0 1/9/80 N m 3.3 Y E 50 CT UFT 1 A 0 3/18/80 N Y E 50 CT UFT 1 A 0 4/2/81 N Y 3.7 Y E 71 CT UFT 1 A 0 10/24/81 N Y 4.0 Y E 71 CT UFT 1 A 0 3/1/82 N Y 3.7 Y E 71 CT UFT 1 A 0 2/4/83 N N 3.3 Y E 71 CT UFT 1 A 0 2/4/83 N Y E 71 BR & PI NOTINCLU CT UFT 1 A 0 1/25/84 N Y 2.0 Y E 71 CT UFT 1 A 0 7/13/84 N N 2.6 Y E 71 CT UFT 1 A 0 1/17/85 N Y 3.3 Y E 71 CT UFT 1 A 0 4/10/85 N Y 4.3 Y E 71 CT UFT 1 A 0 8/14/86 N N 1.7 Y E 71 CT UFT 1 A 0 9/3/87 N Y 2.9 Y E 71 CT UFT 1 A 0 9/8/87 N Y 2.9 Y E 71 CT UFT 1B 0 2/19/79 N m 5.0 Y E 50 CT UFT 18 0 1/9/80 N m 5.5 Y E 50 i CT UFT 1B 0 3/11/80 N m 4.5 Y E 50 CT UFT 1B 0 3/9/81 N N 5.4 Y E 71 CT UFT 1B 0 3/3/82 N _

Y 2.0 Y E 71 CT UFT 1B 0 2/4/83 N Y 2.2 Y E 71  !

I CT UFT 1B 0 1/26/84 N Y 2.1 Y E 71 CT LIFT 1B 0 7/13/84 N Y 3.3 Y E 71 C_T_UFT 1B 0 1/18/85 N Y 3.2 Y E 71 CT UFT 1B 0 4/10/85 N Y 3.8 Y E 71 CT_ UFT 1B 0 9/30/87 N 2.0 Y E 71 CT UFT 2A 0 2/17/79 N TH 8.9 Y E 50 CT UFT 2A 0 3/11/80 N FR 5.2 Y E 50 Page 1 9/22/88

_ - ~ , - . - - . . - . . . - , - . . - - - . . - - - - - - - - - - - - -- . - - - - - - - - - - - - - -

_ _ . _ _ . _ _ - _ - _ _ __ _..___ __ _ _ _ _ __ - _. _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . . _ = _ _ _ - . ______. . _ . . _ _ ._

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SUMMARY

OF TVA EFN 8KV P1 POT TEST REPORTS ,-

ISOTOR IUNITj DATE iCSSC. BRIDGE P I DCHP DATA ' CABLE RERSARKS .

CT UFT 2A O 6/20/81 N N 4.2 Y E 71 CT UFT2A 0 3/15/82 N Y 3.0 Y E 71 ERRORINBRIDGE CT UFT 2A 0 2/3/83 N Y 2.2 Y E 71 '

CT UFT 2A 0 1/30/84 N Y 3.1 Y E 71 CT_ UFT 2A 0 1/18/85 N Y 2.5 Y E 71 CT UFT 2A 0 4/17/85 N Y 2.7 Y E 71 CT UFT 2A 0 9/4/87 N N 3.6 Y E 71 CT UFT 2A 0 7/15/80 N 3.3 N E 71 l CT UFT 2A APH 0 7/14/80 N Y 2.0 E 71 MOTOR FAR.ED CT UFT 2A BPH 0 7/14/80 N Y 2.3 E 71 MOTOR FALED

, CT UFT 2A CPH 0 7/14/80 N Y 1.0 E 71 MOTOR FALED CT UFT 2B 0 3/26/79 N m 6.1 Y E 50 l CT UFT 2B 0 4/10/79' N m 5.0 Y E 50 l CT UFT 2B 0 3/11/80 N m 5.6 Y E 50 CT UFT 2B 0 6/23/81 N N 4.7 Y E 71

! CT UFT 2B 0 3/15/82 N N 3.1 Y E 71 CT UFT 2B 0 2/3/83 N Y 2.7 Y E 71 l CT UFT 2B 0 1/31/84 N Y 3.6 Y E 71 CT UFT 28 0 7/16/84 N Y 3.1 Y E 71 l C ' UFT 2B 0 1/18/85 N Y 3.7 Y E 71 CT LIFT 2B 0 4/18/85 N Y 3.1 Y E 71 i CT LIFT 2B 0 9/11/86 N N 1.4 Y E 71 l

CT UFT 2B 0 9/28/87 N 2.8 Y E 71 CT UFT3A 0 3/11/80 N m 5.6 Y E 50 CT UFT 3A 0 4/25/81 N Y 7.0 Y E 71 CT UFT3A 0 3/4/82 N Y 6.0 Y E 71 CT UFT 3A 0 2/4/83 N Y 2.4 Y E 71 CT UFT 3A 0 2/1/84 N Y 4.3 Y E 71 CT UFT 3A 0 7/17/84 N Y 2.7 Y E 71 CT UFT 3A 0 1/23/85 N Y 2.5 Y E 71  !

CT UFT3A 0 5/15/85 N Y 2.5 Y E 71 CT UFT 3A 0 9/18/86 N Y 1.6 Y E 71 CT UFT 3A 0 9/8/87 N N 3.0 Y E 71 CT OFT 38 0 2/17/79 N m 7.0 Y E 50 CT UFT 3B 0 3/11/80 N m 5.8 Y E 50 l

Page 2 9/22/88

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SlMAARY OF TVA BFN 8KV Hi-POT TEST REPORTS .

R80 TOR IUNIT DATE CSSCISRIDGE PIIDCHP DATA CABLE REISARKS CT UFT 3B i 0 4/26/81 N Y 5.1 Y E 71 CT UFT 3B 0 3/4/82 N Y 4.0 Y E 71 .

CT UFT 3B 0 2/4/83 N N 2.0 Y E 71 [

CT UFT 3B 0 1/31/84 N Y 5.1 Y E 71 i OT UFT 3B 0 7/17/84 N Y 2.1 Y E 71 CT UFT 3B 0 1/23/85 N Y 2.0 Y E 71 CT UFT 30 0 10/1/87 N 4.4 Y E 71 i CT UF~l 4A _. 0 2/17/79 N m 6.4 Y E 50 PP1293/4 CT LIFT 4A 0 3/11/80 N m 3.5 Y E 50 PP1293/4 CT UFT 4A 0 12/7/81 N Y 4.5 Y E 71 PP1293/4 l CT UFT 4A 0 3/4/82 N Y 2.5 Y E 71 PP1293/4 i CT LirT 4A 0 2/15/83 N Y 2.0 Y E 71 PP1293/4 '

l CT UFT4A 0 2/6/84 N Y 2.1 Y E 71 PP1293/4 CT UFT 4A 0 7/18/84 N Y 1.3 Y E 71 PP1293/4 -

C1 UFT 4A 0 9/22/86 N Y 1.1 Y E 71 PP1293/4 l CT UFT4A O_ 9/14/87 N Y 2.2 Y E 71 PP1293/4 i CT UFT 4B 0 2/17/79 N m 8.0 Y E SO PP1303/4 i CT UFT4B 0 3/11/80 _N m 5.2 Y E 50 PP1303/4 CT LIFT 4B 0 3/4/82 N Y 3.2 Y E 71 PP1303/4 CT UFT B 0 2/14/63 N Y 3.5 Y E 71 PP1303/4  ;

l CT LIFT 4B 0 2/2/84 N Y 2.3 Y i E 71 PP1303/4 CT UFT 48 0 7/18!84 N Y 2.1 Y E 71 PP1303/4  :

CT UFT 4B 0 2/1/85 N Y 3.0 Y E 71 PP1303/4 CT UFT dB 0 4/16/85 N Y 28 Y E 71 PP1303/4  !

! CT LIFT 4B 0 9/22,'86 N Y 1.5 Y E 71 PP1303/4 I l

CT UFT 4B 0 9/15/87 N Y 4.7 Y E 71 PP1303/4 j I CT UFT SA 0 2/17/79 N m 7.3 Y E 50 CT UFT SA 0 3/11/80 N m 4.8 Y E 50 CT UFT SA 0 2/2/82 N Y 3.3 Y E 71 CT UFT SA 0 2/15/83 N Y 6.0 - Y E 71 CT UFT 5A 0 3/23/84 N Y 5.5 Y E 71 CT UFT SA 0 7/19/84 N Y 2.2 Y E 71 CT UFT SA 0 2/6/85 N Y 2.4 Y E 71 CT UFT SA 0 4/11/85 N Y 4.0 Y E 71 CT LIFT 5A 0 10/2/86 N N 1.6 Y E 71 l l t Page 3 9'22/88 l

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SUMMARY

OF TUA BFN 8KV Hi-POT TEST REPORTS .

i MOTOR b NITI DATE CSSC! BRIDGE P I DCHP DATA CABLE I REMARKS

! CT UFT SA 0 9/10/87 N N

• 3.3 Y E 71 '

CT LIFT SB 0 2/17/79 N M 7.0 Y E SO l CT LIFT SB 0 3/11/80 N M 4.2 Y E 50 j CT UFT SB 0 4/8/81 N N 4.7 Y E 71 CT LIFT SB 0 2/2/82 N N 5.1 Y E 71 CT LIFT SB 0 2/11/83 N Y 3.7 Y E 71 CT LIFT SB 0 2/2/84 N Y 2.3 Y E 71

, CT UFT SB 0 7/19/84 N Y 2.1 Y E 71 CT UFT SB 0 2/6/85 N Y 2.3 Y E 71 CT UFT SB 0 4/11/85 N Y 3.4 Y E 71 CT UFT SB 0 10/6/86 N Y 2.5 Y E 71 ,

CT UFT 6A 0 2/19/79 N m 8.2 Y E 50 CT UFT 6A 0 3/11/80 N 2 5.1 Y E 50 CT UFT 6A 0 2/26/81 N N 5.0 Y E 71 CT LIFT 6A 0 3/4/81 N Y 1.2 Y E 71 CT UFT 6A 0 3/12/82 N Y 2.5 Y E 71 CT UFT 6A 0 2/15/83 N Y 6.0 Y E 71 CT UFT 6A 0_ 2/6/84 N Y 4.3 Y E 71 j CT UFT 6A 0 7/20/84 N Y 1.7 Y ' E 71 CT UFT 6A 0 2/7/85 N Y 6.3 Y E 71 i CT UFT 6A 0 4/9/85 N Y 3.5 Y E 71 CT UFT 6A 0 10/14/86 N Y 2.7 Y E 71 CT UFT 6A 0 9/17/87 N 1.9 Y E 71 CT LIFT 6B 0 2/19/79 N 2 11.4 Y E SO

_ CT LIFT 68 0 3/11/80 N N1 5.2 Y E SO CT LIFT 68 0 2/9/81 N Y 5.8 Y E 71 CT UFT 68 0 6/21/81 N N 2.3 Y E 71 Cl UFT 68 0 3/11/82 N Y 4.5 Y E 71 CT UFT 6B 0 2/7/84 N Y 5.1 Y E 71 CT UFT 68 0 7/20/84 N Y 2.7 Y E 71 CT UFT 68 0 2/7/85 N N 4.3 Y E 71 CT LIFT 68 0 4/8/85 N Y 4.1 Y E 71 CT UFT 68 0 10/16/86 N Y 2.3 Y E 71 CT LIFT ?A 0 2/17/79 N Y E 50  :

l FIRE PUMP A 0 7/15/81 Y Y 1.5 Y E 71 PP500 Page 4 9/22/88

SU?/JAARY OF IVA BFN BKV Hi-POT TEST REPORTS -

MOTOR !U NIT DATE CSSC BRIDGE P i !DCHP DATA l CABLE REMARKS FIRE PUfAP A 0 7/29/83 Y N 2.1 Y E 71 PP500 FIRE PUfAP A 0 3/19/85 Y Y 3.1 Y E 71 PP500 FIRE PUMP A 0 9/30/85 Y Y 1.2 Y E 71 PP500 FIRE PUTAP A 0 10/22/86 Y Y 2.7 Y E 71 PP500 FIRE PUMP A 0 11/26/86 Y Y 9.1 Y E 71 PP500 FLUC7 READfJGS FIRE _PU_ MP A 0 12/10/86 Y Y E 71 PP500 FIRE PUMP B 0 11/5/85 Y Y 1.9 Y E 71 FIRE PUMP B 0 10/17/86 Y Y 3.2 Y E 71 FIRE PUMP C 0 7/16/81 Y Y 1.7 Y E 71 PP550 FIRE PUMP C 0 7/29/83 Y N 1.8 Y E 71 PP550 FIRE __ PUMP C 0 1/16/85 Y Y 2.3 Y E 71 PP550 FIRE PUMP C 0 5/9/85 Y Y 1.8 Y E 71 PP550 FIRE PUMP C 0 12/24/85 Y 2.9 Y E 71 PP550 FIRE __PU. MP C 0 1/27/87 Y Y 3.4 Y E 71 PP550 RHRSW A1 0 7/19/83 Y Y 3.7 Y E 71 ES75-I RHRSW A1 0 5/24/85 Y Y 2.1 Y E 71 ES75-I RHRSW A1 0 5/14/86 Y Y 3.0 Y E 71 ES75-1 RHRSW A2 0 7/20/83 Y Y 2.6 Y E 71 ES88-1 RHRSW A2 0 5/21/85 Y Y 1.3 Y E 71 ES88-1 RHRSWA2 0 9/25/85 Y ,

Y 3.5 Y E 71 ES88-I RHRSW A2 0 6/9/86 Y Y 1.7 Y E 71 ES88-1 RHRSW A3 0 6/5/80 Y Y 2.0 Y E 71 3ES1530-1 RHRSW A3 0 12/8/80 Y Y 3.7 Y E 71 3ES1580-I RHRSW A3 0 5/15/84 Y Y 3.7 Y E 71 3ES1580-1 RHRSWA3 0 1/15/86 Y Y 3.6 Y E 71 3ES15P0-1 RHRSW A3 0 5/15/86 Y Y 1.8 Y E 71 3ES1580-1 RHRSW A3 0 4/30/87 Y Y 2.0 Y E 71 3ES1580-1 RHRSWB1 0 12/17/8C Y Y 3.0 Y E 71 3ES4080-Il RHRSW B1 0 5/16/85' Y Y 2.8 Y E 71 3ES4080-Il RHRSWB1 0 5/19/86 Y Y 3.6 Y E 71 3ES4080-II

! RHRSW B2 0 6130/81 Y Y 1.5 Y E 71 ES2588-il RHRSW B2 0 8/15/85 Y Y 2.0 Y E 71 ES2588-Il RHRSW B2 0 12/19/85 Y Y 2.6 Y E 71 ES2588-II RHRSW B2 0 S/20/86 Y Y 2.6 Y E 71 ES2588-Il RHRSW B3 0 7/16/85' Y N 1.1 Y E 71 ES2575-II Page5 9 ~22/88 l

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SUWAARY OF TVA BFN 8KV KLPOT TEST REPORTS -

3 800 TOR U NITI DATE CSSC8 RIDGE P I DCHP DATA CABLE REMARKS '

lj RHRSW B3 0 5/16/86 Y Y 16 Y E 71 ES2575-Il ,

0 4/27/87 Y Y 2.1 E 71 ES2575-il RHRSW B3 Y RHRSW B3 0 6/27/87 Y Y 2.1 Y E 71 ES2575-II

] '

RHRSW B3 0 7/19/87 Y Y 4.6 Y E 71 ES2575-il RHRSWC1 0 7/21/83 Y Y 3.7 Y E 71 ES100-1 i RHRSWC1 0 5/21/85 Y Y 2.4 Y E 71 ES100-1 I

RHRSWC1 0 11/22/85 Y Y 2.0 Y E 71 ES100-I j RHRSW C1 0 5/21/86 Y Y 1.7 Y E 71 ES100-1 RHRSWC2 0 5/1/81 Y Y 1.9 Y E 71 ES113-1  !

I RHRSWC2 0 7/22/83 Y Y 1.5 Y E 71 ES113-I  !

t RHRSWC2 0 1/16/86 Y Y 3.7 Y E 71 ES113-1 1 RHRSW C2 0 5/22/86 Y Y 2.1 Y E 71 ES113-1 RHRSWC2 0 4/3/87 Y Y 2.5 Y E 71 ES113-1

[ RHRSWC3 0 12/9/80 Y Y 3.6 Y E 71 3ES1590-1 j RHRSWC3 0 5/18/84 Y Y 5.2 Y E 71 3ES1590-1 RHRSW C3 0 9/14/85 Y Y 4.1 Y E 71 3ES1590-1 RHRSW C3 0 5/23/86 Y Y 2.1 Y E 71 3ES1590-1 i RHRSWC3 0 12/23/87 Y Y 5.0 Y E 71 3ES1590-I  ;

RHRSW D1 0 12/12/80 Y Y 5.1 Y E 71 RHRSW D1 0 6/14/84 Y Y 4.7 Y E 71

• i RHRSW D1 0 10/17/85 Y Y 2.3 Y E 71

RHRSW D2 0 6/18/81 Y Y 1.5 Y E 71 RHRSW D3 0 5/7/81 Y Y 3.4 Y E 71 RHRSW D3 0 9/11/86 Y Y 1.2 Y E 71 AUX RCW1A 1 4/27/81 N Y 3.3 Y E it AUX RCW1B 1 4/28/81 N Y 3.0 Y E 71 l CCW1A 1 6/24/86 N Y 1.8 Y E 71

] CCW1B 1 5/29/81 N Y 2.7 Y E 71 j CCW1B 1 6/30/86 N Y 2.0 Y E 71 l 1 CCW1C 1 2/3/86 N Y 3.6 Y E 71  !

j CCW1C 1 7/3/86 N Y 1.6 Y E 71 f

) CCW2A 1 2/24/85 Y Y 5.7 Y E 71 ES2673-Il CABLE & MOTOR l COPO1C 1 4/11/86 N Y 3.4 Y E 71 1 CONDBOOST1B 1 4/16/81 N ( 3.1 Y E 71 CCPOBOCETIC 1 g 7/2/81 N Y 2.3 Y E 71

, Page6 9/22/88 1

u- _ _ _ _ _ _ _ _ _ _ _ . . . . . _ _ _ _ . . - _ . _ - _ _ . . . _ . _ . . _ - - - _ _ - , , - - _ - _ . . - _ . , _ . . . . _ . _ _ . . _ . _ _ . _ _ _ _ _ _ _

SUMMARY

OF TVA BFN 8KV Hi-POT TEST REPORTS

• eBOTOR IU Nill DATE CSSCBRIDGE PIIOCHP DATA CA8t.E REMARKS ~

CORE SPRAY 1A - 1 5/23/83 Y Y 2.9 Y E 71 ES1 CORESPRAY1B 1 5/14/81 Y Y 2.9 Y E 71 ES2501 CORE SPRAY 18 1 612/83 Y Y 3.0 Y E 71 ES2501 COE SPRAY 1C 1 6/2/83 Y Y 2.9 Y E 71 ES38

_ CORE SPRAY ID 1 5/14/81 Y Y 2.8 Y E 71 ES2538 CORESPRAY1D 1 6/3/83 Y N 2.9 Y E 71 ES2538 CRD1A 1 6/2/81 Y Y 1.8 Y E 71 CRD1A 1 5/2?/83 Y Y 2.9 Y E 71 CRD1B 1 6/2/81 Y Y 3.1 Y E 71 CRD1B 1 512/83 Y Y 2.5 Y E 71 RCW1A 1 4/22/81 N Y 2.9 Y E 71 RCW1B 1 5/4/81 N Y 3.5 Y E 71 RCW1B 1 6/6/83 N N 2.7 Y E 71 RCW1C 1 7/1/81 N Y 2.3 Y E 71 RCW1C 1 7/20/83 N 2.2 Y E 71 RCW1D 1 5/1/81 N Y 1.7 Y E 71 4 RCWID 1 7/19/83 N N 2.4 Y E 71

_ _ REORC 1A 1 9/3/79 N FR 3.2 Y E 50 RECRC 1A 1 9/3/79 N PH 3.3 Y E 50 RETEST-LOWER ma RECIRC1B 1 3/13/80 N PR 4.2 Y E 50 REC _lRC IB 1 8/24/84 N N 2.7 Y E 71 REC 1RC MG 1 A-7 1 3/14/80 N PR 3.3 Y E 50 RECIRC MG I A-7 1 1/24/83 N Y 5.2 Y E 71 REC 1RC MG I A-7 1 12/14/84 N Y 2.9 Y E 71 RECIRC MG 1 AG 1 1/24/83 N N 4.6 Y E 71 RECIRC MG 1B-G 1 4/20/80 N Y 3.5 Y E 71 RECIRC MG 1BG 1 4/21/80 N Y 5.1 Y E 71 RECIRC MG 18-G 1 8/24/84 N 3.8 N E 71 GENWPOG FALED RHR1A 1 8/30/84 N Y 2.9 Y E 71 AFTER EPAIR RHR_18 1 6/3/81 Y Y 3.8 Y E 71 RHRIB 1 7/25/83 Y Y 4.0 Y E 71 RHRIC 1 7/12/84 Y Y 3.0 Y E 71 RHR1D 1 6/4/81 Y Y 5.9 Y E 71 ES2673-Il RHR1D 1 12/15/83 Y Y INF Y E 71 RHR10 1 7/12/84 Y Y 5.6 Y E 71 ES2673-Il Page 7 9/22/88

SUPAtARY OF TVA 0FFJ BKV HI POT TEST REPORTS -

MOTOR 'U NITI DATE iCSSCBRIDGE Pl IDCHP DATA CABLE REMARKS '

RHRID 1 2/19/85 Y Y 6.9 Y E 71 ES2673-II FAARGINAL-RETEST RHR1D 1 2/19185 Y Y 4.9 Y E 71 ES2673-II CABLEOrLY CCW2A 2 4/29/79 TJ 3.8 Y E 50 CCW2A 2 9/16/80 FJ Y 2.0 Y E 71 CCW2A 2 7/12/85 N Y 1.9 Y E 71 CCW 2B 2 5/1/79 FJ 5.7 Y E 50 CCW 2B 2 10/10/80 TJ Y 2.5 Y E 71 CCW2B 2 8/8/82 FJ V 2.2 Y E 71 CCW2B 2 7/9/85 FJ Y 2.1 Y E 71 CCW 2B 2 3/13/87 TJ Y 4.0 Y E 71 CCW2C 2 5/2/79 f4 Y 3.7 Y E 50 CCW2C 2 9/17/80. FJ Y 1.9 Y E 71 CCW2C 2 8/5/82' FJ Y 2.2 Y E 71 COrJD2A 2 4/28/79 N Y 6.0 Y E 50 COND2A 2 9/9/b0 TJ Y 2.5 Y E 71 COND2A 2 9/7/82 fJ Y 2.3 Y E 71 COrJ_D2A 2 11/1/82 FJ Y 2.5 Y E 71 COrO2A 2 4/29/85 f1 Y 2.2 Y E 71 COfJD2A 2 11/19/86 N Y 4.4 Y E 71 COrJD2A 2 3/4/87 N Y 1.8 Y E 71 COrO2B 2 5/1/79 TJ Y 6.0 Y E 50 COrO2B 2 9/12/80 FA Y 1.6 Y E 71 COND_2B 2 10/20/82 FJ Y 2.7 Y E 71 COND2B 2 8/2/85 N Y 1.7 Y E 71 COrJD2B 2 7/15/86 FJ Y 1.7 Y E 71 COND2B 2 6i11/87 TJ Y 3.6 Y E 71 COrO2B 2 7/15/87 N Y 4.0 Y E 71 COrO2C 2 4/28/79 N Y 4.3 Y E 50 CO_r02C _2 9/11/80 N Y 2.3 Y E 71 COrO2C 2 10/22/82 TJ Y 2.9 Y E 71

_ COrO2C 2 6/26/83 N N 5.0 Y E 71 Cord 2C 2 4/1/85 FJ FJ N E 71 LOTORGROlJm) _

COrO2C 2 11/19/86 TJ Y 5.3 Y E 71 COrO2C 2 7/17/87 N Y 1.8 Y E 71 CONDBOOST2A 2 4/28/79 N 3.7 Y E 50 Page 8 c#22/L8

SUPAtARY OF TVA BFt4 SKV HI POT TEST REPORTS -

MOTOR IUNIT1 DATE ICSSC'BRIDGB P I iDCHP DATA l CABLE REMARKS ~

COrJDBOOST2A 2 9/11/80 FJ Y 2.0 Y E 71 COrO_B_OOST2A 2 1/26/83 TJ Y 4.0 Y E 71 COrOBOOST2A 2 4/3/85 TJ Y 3.4 Y E 71 OOrOBOOST2A 2 7/14/87 TJ Y 3.9 Y E 71 COf0 BOOST S_. 2 3/27/78 FJ 2.4 Y E 50

_COrO_ BOOST 2B 2 5/1/79 N 5.6 Y E 50

_CCrJD_ BOOST 29 _2 9/17/80 tJ Y 2.1 Y E 71 C_OfJD_ BOOST 2B 8/4/82 tJ Y 2.4 Y E 71 ,

_C___

O f JD BOCST 2 S__2 811185 FJ Y 2.2 Y E 71 O_OrO BOOST 2B 2 6/24/87 PJ Y 2.1 Y E 71 COrJDBOCGT2C 2 3/25/78 FJ 3.5 Y E 50

_COrJD BOOST 2C 2 3/29/78 FJ 6.2 Y E 50

_CCIOBOOST2C 2 4/30/79 PJ 5.3 Y E 50

__CONDBOOST2C 2 9/16/80 PJ Y 2.0 Y E 71

_CO_r0_ BOOST 2C 2 1/12/83. FJ FJ 3.9 Y E 71 COrJDBOOST2C 2 3/26/85 FJ Y 40 Y E 71

_COrOBOLETPC 2_ 4/11/86 F4 Y 2.5 Y E 71 i COrJDBOCGT2C 2 6/25/87 FJ Y 1.5 Y E 71

._OOrOBOOST2C 2 12/11/87 FJ Y 2.4 Y E 71

__C_ ORE SFHAY2A 2 9/30/80 Y Y 3.4 Y E 71 ES13-1 CORESPRAY2A 2 8/10/82 Y Y 2.5 Y E 71 ES13-I

_ CORE SPRAY 2A 2 11/13/84 Y Y 4.5 Y E 71 ES13-I

_ CORE _S_ PRAY 2A 2 10/10/87 Y Y E 71 ES13-1 HIPOTCABLESCtLY

._ CORE SPRAY 2A 2 10/1 J./87 Y Y 3.3 Y E 71 ES13-I CORESPRAY2A 2 1/12/88 Y Y 4.5 Y E 71 ES13-I

_ CORE SPRAY 2B 2 512/79 Y Y 5.8 Y E 50 ES2513-il

_ CORE SPRAY 29 2 9/8/80 Y Y 2.8 Y E 71 ES2513-Il CORE SPRAY 2B 2 8/11/82 Y Y 2.8 Y E 71 ES2513-il CORE SPRAY 2B 2 11/28/84 Y Y 4.1 Y E 71 ES2513-Il

_CORESPRAY2C 2 9/30/80 Y Y 3.1 Y E 71 ES50-I

_ CORE _ SPRAY 2C 2 8/12/82 Y Y 2.6 Y E 71 ES50-1

_ CORE SPRAY 2C 2 11/28/04 Y Y 3.9 Y E 71 ES50-1

_ CORE SPRAY 2C_ 2 9/14/87 Y 1.0 .Y E 71 ES2513-il CABt.E TEST OfJLY CORESPRAY2D i 2 3/27/78 Y 4.2 Y E 50 ES2550-Il EsiESPRAY2D 2 5/2/79I Y Y 5.4 I Y I E 50 ES2550-Il Page 9 9/22/88

SUMMARY

OF TVA BFN 8KV Hi-POT TEST REPORTS .

h MOTOR 'U NIT DATE 'CSSCiB51DGEj P I DCHPj DATA CABLE REMAIIKS ~

CORESPRAY2D 2 9/9/80 Y Y 2.8 Y E 71 ES2550-Il CORESPRAY2D 2 8/12/82 Y Y 2.6 Y E 71 ES2550-li l CORFSPRAY2D 2 11/29/84 Y Y 4.3 Y E 71 ES2550-Il !

CORESPRAY2D 2 9/20/87 Y Y E 71 ES2550-Il HIPOTC ~ c3 ONLY CORESPRAY,0 2 10/3/87 Y Y E 71 ES50-1 HIPr .ES ONLY CRD 2A 2 5/2/79 Y Y 3.3 Y E 50 2PP275 CRD2A 2 10/8/80 Y Y 2.7 Y E 71 2PP275 CRD 2A. 2 8/17/82 Y Y 2.4 Y E 71 PPP275 CRD2A 2 7/11/85 Y Y 1.0 Y E 71 2PP275 CRD2A 2 1/7/87 Y Y 4.4 Y E 71 2PP275 ORD2A 2 9/23/87 Y Y 2.5 Y E 71 ES2550-Il CRD2A 2 10/21/87 Y Y 5.1 Y E 71 2PP275 CRD 2A-APH 2 4/10.'88 Y Y 2.5 Y E 71 2PP275 CRD 2A-BPH 2 7/8/85 Y Y E 71 2PP275 CABLETESTONLY CRD 2A-CPH 2 6/26/85 Y Y E 71 2PP.275 RCW2A 2 5/3/79 N Y E 50 RCW2A 2 9/12/80 N Y 1.8 Y E 71 RCW 1 2 8/17182 N Y 2.3 Y E 71 RCW 2A 2 1/3/85 N Y 3.1 Y E 71 RCW 2B 2 3/31/78 ti Y 3.5 Y E 50 RCW 2B 2 5/1/79 N Y 1.6 Y E 50 RCW 2B 2 9/24/80 N Y i 2.0 Y E 71 RCW 2B 2 S/16/82 N Y ' 2.1 Y E 71 RCW 2B 2 7/14/86 N Y 3.8 Y E 71 RCW2C 2 3/29/78 N 3.1 Y E 50 -

RCW2C 2 4/30/79 N Y E 50 RCW2C 2 9/24/80 N Y 1.3 Y E 71

_ RCW2C 2 8/18/82 N Y 2.5 Y E 71 ACW2C 2 12/27/84 N Y 2.9 Y E 71 RCW2C 2 1/23/85 N Y 2.4 Y E 71 RECIRC 2A 2 4/30/79 N Y 5.8 Y E 50 RECIRC2A 2 5/4/79 N Y 4.5 Y E 50 RECIAC 2A 2 9/1/79 N M1 4.0 Y E 50 RECIRC 2A 2 9/12/80 N Y 3.9 Y E 71 RECIRC 2A 2 9/18/83 N Y 3.2 Y E71l Page 10 9/22/88

~

SUlG4ARY OF TVA BFN 8KV Hi-POT TEST REPORTS

• MOTOR UNIT DATE CSSCl BRIDGE PI DCHP' DATA CABLE REMARKS '

RECIRC 2A 2 9/18/84 N Y 3.7 Y E 71 RECIRC 2A 2 9/18/84 N Y 3.7 Y E 71 RECIRC 2A 2 7/15/86 N Y 2.1 Y E 71 FO RC2/. 2 5/18/87 N Y 4.1 Y E 71

HECIRC 2A 2 5/18/87 N Y 4.5 Y E 71 1 RECIRC 2B 2 5/7/79 N Y 2.6 Y E 50 q RECIRC 2B 2 9/12/80 N Y 4.2 Y E 71 RECIRC 2B 2 9/17/84 N Y 4.4 Y E 71 RECIRC 2B 2 4/3/88 N Y 3.2 Y E 71 REC!RC MG 2A-? 2 5/16/81 N N 4.7 Y E 71 RECIRC MG 2A-? 2 5/15/87 N Y 2.1 Y E 71 RECIRC MG 2A-? 2 5/18/87 N Y 2.1 Y E 71

, RECIRC MG P.AG 2 4/30/79 N Y 4.4 Y E 50

) RECIRC MG 2AG 2 9/10/80 N Y 3.6 Y E 71 RECIRC MG 2AG 2 8/19/82 N Y 2.5 Y E 71

) RECIRC MG 2A G 2 6/2/83 N Y 5.0 Y E 71 i

RECIRC MG 2A-G 2 10/26/84 N Y 4.5 Y E 71 l

RECIRC MG 2A G 2 4/10/88 N Y 5.0 Y E 71 j RECIRC MG 2A-M 2 9/10/80 N Y 3.8 Y E 71 RECIRC MG 2A-M 2 9/11/80 N Y 6.7 Y E 71 RECIRC MG 2A-M 2 9/28/82 N Y 2.0 Y E 71 RECIRC MG 2A-M 2 10/25/84 N Y 4.4 Y E 71 RECIRC MG 2A-M 2 5/18/87' N Y 2.1 Y E 71 j RECIRC MG 2A-M 2 4/9/88 N Y 4.4 Y E 71

RECIRC MG 28-? 2 2/3/80 N M1 3.9 Y E 50 I RECIRC MG 28-G 2 4/29/79 N Y 4.5 Y E $0

, RECIRC MG 28-G 2 9/9/80 N Y 2.8 Y ' E 71

! RECIRC MG 28-G 2 6/2/83 N Y 3.1 Y E 71 I RECIRC MG 28-G 2 10/26/84 N Y 2.5 Y E 71 4 RECIRC MG 28-G 2 5/18/87 N Y 2.0 Y E 71 RECIRC MG 28-G 2 4/9/88 N Y 2.9 Y E 71 l PECIRC MG 28-M 2 10/29/84 N Y 3.3 Y E 71 I

RECIRC MG 2B-M 2 4/9/88 N Y 4.4 Y E 71 RHR 2A 2 4/28/79 Y Y 1.9 Y E 50 ES141-1 RHR 2A 2 10/9/80 Y Y Y E 71 ES141-l NU PI Page 11 9/22/88 i

SUMMARY

OF TVA BFN 8KV Hi-POT TEST REPORTS .

~

MOTOR '

. DATE CSSC! BRIDGE PI DCHP DATA CABLE REMARKS RHR2/ 2 9/16/82 Y Y 3.8 Y E 71 ES141-1 ~

RHR 2A _ 2 4/16/86 Y Y 4.2 Y E 71 ES141-I RHR 2A 2 6/28/87 Y Y 2.7 Y E 71 ES141-1 '

RHR 2A 2 2/11/88 Y Y E 71 ES141-1 CABISONLY RHR2B 2 5/3/79 Y Y 7.0 Y E 50 ES2641-il  !

! RHA 2B 2 9/16/80 Y Y 3.8 Y E 71 ES2641-il l RHR2B 2 9/11/82 Y Y 3.8 Y E 71 ES2641-Il RHR2B 2 3/10/85 Y Y 5.4 Y E 71 ES2641-il RHR 2B 2 5/14/87 Y Y 3.2 Y E 71 ES2641-il RHR 2B 2 2/13/88 Y Y 6.1 Y E 71 ES141-1 -

i RHR 2C 2 4/29/79 Y Y 8.2 Y E 50 ES189-1 RHR 2C 2 10/9/30 Y Y 5.5 Y E 71 ES189-1 RHR 2C 2 9/17/82 Y Y 4.3 Y E 71 ES189-1

] RHR2C 2 3/8/85 Y Y 6.5 Y E 71 ES189-1 j RHR 2C 2 5/7/86 Y Y 4.2 Y E 71 ES189-1 l RHR 2C 2 6/30/87 Y Y 2.6 Y E 71 ES189-1 l 4

RHR 2C 2 1/27/88 Y Y E 71 ES2641-il HIPOTCABLESONLY RHR 2C 2 2/24/88 Y Y 7.0 Y E 71 ES189-1 i RHR2D 2 5/2/79 Y Y 4.0 Y E 50 ES2689-Il RHR2D 2 9/18/80 Y Y 5.4 Y E 71 ES2689-il i i RHR2D 2 9/10/82 Y Y 4.0 Y E 71 ES2689-Il

) RHR2D 2 10/6/84 Y Y 5.3 Y E 71 ES2689-il RHR 2D 2 12/19/85 Y Y 5.7 Y E 71 ES2689il RHR2D 2 3/24/86 Y Y 6.5 Y E 71 ES2689-Il

BIOTHRM HTC A 3 11/30/80 N Y 4.3 Y E 71 PP150 j BIOTHRM HTC A 3 11/21/81 N Y 3.9 Y E 71 PP150 1 BIOTHRM HTC A 3 6/25/87 Y Y 2.6 Y E 71 ES2689-Il BIOTHRM HTC B 3 12/1/80 N Y 4.6 Y E 71 PP155 l ll BIOTHRM HTC B 3 5/16/84 N Y 4.1 Y E 71 PP150 i B!OTHRM HTC B 3 6/17/84 N Y 2.7 Y E 71 PP155 j BIOTHRM LTC A 3 8/22/79 N NR 2.8 Y E 50

) BIOTHRM LTC A 3 11/30/80 N Y 4.6 Y E 71 i BIOTHRM LTC B 3 12/4/80 N Y 3.5 Y E 71 j BIOTHRM LTC B 3 11/22/81 N Y 4.7 Y E 71 BIOTHRM LTC B 3 6/15/84 N Y 2.7 Y E 71

, Page 12 9/22/88 I

i_.____.____. _ . . _ _ . _ _ _ . . _ _ _ _ _ , _ _ _ _ _ _ ._ _ _ . _ _ _ _ _. _ _ _ __ . . _ _ . . _ _

SUlOAARY OF TVA BFN 8KV Hi-POT TEST REPORTS -

~

i MOTOR UNITI DATE CSSC! BRIDGE PI DCHPl DATA CABLE REMARKS

_ BIOTHRM t KC B 3 6/15/84 N Y 1.0 Y E 71 CCW3A 3 12/14/80 N Y 2.3 Y E 71 CCW3A 3 11/20/81 N Y 1.1 N E 71 MOTOR FAILED @8kV CCW3A 3 5/5/84 N N 2.5 Y E 71 CCW3A 3 6/20/86 N Y 2.5 Y E 71 CCW3A 3 9/29/86 N Y 1.2 Y E 71 CCW3B 3 12/13/80 N Y 3.3 Y E 71 CCW3B 3 5/5/84 N N 1.6 Y E 71 CCW3B 3 5/5/84 N N 1.6 Y E 71 CCW3B 3 6/23/8C N Y 1.7 Y E 71 CCW3C 3 12/14/80 N Y 6.0 Y E 71 CCW3C 3 6/24/86 N Y 2.7 Y E 71 COND3A 3 11/27/80 N Y 2.0 Y E 71 COND3A 3 11/7/81 N Y 1.7 Y E 71 COND3A 3 1/17/84 N Y 3.0 Y E 71 COND3B 3 12/4/80 N Y 3.6 N E 71 MTR FALD@ 7kV COND3B 3 11/8/81 N Y 4.0 Y E 71 COND3B 3 1/17/84 N Y 3.0 Y E 71 l COND3B 3 1/18/84 N Y 3.7 Y E 71 cot 03C 3 11/30/80 N Y 3.5 Y E 71 COrO3C 3 11/4/81 N Y 2.5 Y . 71 COrO3C 3 1/18/84 N Y 3.2 Y E 71 COtOBOOST3A 3 11/27/80 N Y 3.2 Y E 71 COrOBOOST3A 3 11/7/81 N Y 4.0 Y E 71 j COrOBOOST3A 3 1/11/84 N Y 4.2 Y E 71 COrOBOOST3A 3 1/17/84 N Y 3.5 Y E 71 j CONDBOOST3B 3 12/3/80 N Y 3.9 Y E 71 CONDBOOST3Ei 3 11/5/81 N Y 2.1 Y E 71 CONDBOOST3B 3 1/11/84 N Y 4.3 Y E 71 CONDBOOST3B 3 12/31/86 N Y 4.1 Y E 71

! CONDEOOST3B 3 11/10/87 N Y 3.6 Y E 71 COPOBOOST3C 3 11/30/80 N Y 3.6 Y E 71 l COtOBOOST3C 3 11/5/81 N Y 3.6 Y E 71 CONDBOOST3C 3 1/11/84 N Y 3.0 Y E 71 I

CORESPRAY3A 3 12/17/80- Y Y 4.0 Y E 71 3ES1540 i

d Page 13 9/22/88

SUlWIMARY OF TVA BFN 8KV Hi-POT TEST REPORTS ,-

MOTOR UNIT DATE CSSC BRIDGE P I DCHP DATA CABLE REMARKS ~

CORESPRAY3A 3 5/2/84 Y Y 3.3 Y E 71 3ES1540 CORESPRAY3A 3 1/13/87 N Y 3.3 Y E 71 .

CORE SPRAY 38 3 11/26/80 Y Y 3.2 Y E 71 3ES4040 CORESPRAY38 3 5/2/84 Y Y 2.8 Y E 71 3ES4040 CORE SPRAY 38 3 6/18/85 Y Y 2.2 Y E 71 3ES1540 .

CORESPRAY30 3 12/17/80 Y Y 4.2 Y E 71 3ES1550 CORESPRAY3C 3 5/2/84 Y Y 3.5 Y E 71 3ES1550 CORESPRAY3C 3 6/11/85 Y Y 2.1 Y E 71 3ES4040 CORESPRAY3D 3 11/26/80 Y Y 3.8 Y E 71 3ES4050 CORE SPRAY 3D 3 5/3/84 Y Y 3.3 Y E 71 3ES4050 l CORESPRAY3D 3 6/18/85 Y Y 2.1 Y E 71 3ES1550 CRD3A 3 12/5/80 Y Y 1.9 Y E 71 L CM 3A 3 1/16/84 Y Y Y E 71 CRD3A 3 6/11/85 Y Y 2.4 Y E 71 3ES4050 CRD3B 3 11/28/80 Y Y 4.0 Y E 71 CRD3B 3 5/11/87 Y Y 2.6 Y E 71 RCW3A 3 12/13/80 N Y 2.6 Y E 71 RCW3A 3 11/11/81 N Y 1.3 Y E 71 l RCW3A 3 1/20/84 N Y 1.8 Y E 71 RCW3A 3 4/29/87 Y Y 2.6 Y E 71 RCW3B 3 12/12/80 N Y 4.0 Y E 71 RCW 3B 3 11/10/81 N Y 3.1 Y E 71 RCW3C 3 12/1/80 N Y 4.6 Y E 71 RCW3C 3 11/19/81 N Y 2.7 Y E 71 RCW3C 3 5/4/84 N Y 2.9 Y E 71 RCW3D 3 12/11/80 N Y 3.0 Y E 71 RCW3D 3 5/4/84 N Y 3.3 Y E 71 RCW3E 3 11/6/81 N Y 3.3 Y E 71 RECIRC3A 3 11/25/80 N Y 3.1 Y E 71 RECIRC3A 3 12/7/83 N Y 5.0 Y E 71 RECIRC3A 3 5/12/87 N Y 2.4 Y E 71 REClRC3B 3 11/28/80 N N 4.2 Y E 71 RECIRC3B 3 11/17/81 N Y 3.8 Y E 71 RECIRC3B 3 6/6/87 N Y 4.8 Y E 71 i RECIRC MG 3A-? 3 8/9/82 N N 3.2 Y E 71 Page 14 9/22/88

_. m _ _ _ _ _. . _. _

SUlO!ARY OF TVA BFN 8KV HI-POT TEST REPORTS -

MOTOR IU NIT DATE ':SSC! BRIDGE PI DCHP DATA CABLE l REMARKS

~

RECIRC MG 3AG 3 11/25/80 N Y 4.6 Y E 71

, RECIRC MG 3AG 3 1/9/84 N Y 4.5 Y E 71 RECIRC MG 3A-M 3 11/25/80 N' Y 6.4 Y E 71 RECIRC MG 3A-M 3 11/3/81 N Y 3.3 Y E 71 RECIRC MG 3A-M 3 12/1/81 N Y 4.2 Y E 71 RECIRC MG 3A-M 3 1/9/84 N Y 5.3 Y E 71 RECIRC MG 38-G 3 11/25/80 N Y 5.6 Y E 71 RECIRC MG 38-G 3 12/1/81 N Y 5.0 Y E 71 4

RECIRC MG 38-G 3 1/9/84 N Y 4.6 Y E 71

~; RECIRC MG 3B-M 3 11/25/80 N Y 5.7 Y E 71 RECIRC MG 38-M 3 1/9/84 N Y 5.6 Y E 71 RHR 3A 3 12/19/80 Y Y 6.1 Y E 71 3ES1560-1 RHR 3A 3 4/18/84 Y Y 7.0 Y E 71 3ES1560-1

RHR 3B 3 11/26/80 Y Y 7.7 Y E 71 3ES4060-II i RHR 3B 3 1/10/84 Y Y 6.2 Y E 71 3ES4060-Il l RHR 3B 3 5/24/65 Y Y 4.7 Y E 71 3ES1560-1

] RHR3C 3 12/18/80 Y Y 5.8 Y E 71 3ES1570-1 RHR3C 3 7/14/81 Y N 2.2 Y E 71 3ES1570-1 MOTOR REPLACED RHR 3C 3 10/31/81 Y Y 3.1 Y E 71 3ES1570-1

RHR3C 3 4/18/84 Y Y 1.5 Y E 71 3ES1570-1 I

RHR 3C 3 6/5/85 Y Y 3.0 Y E 71 3ES4060-II RHR3D 3 7/14/80 Y Y 3.0 Y E 71 3ES4070-Il RHR3D 3 11/14/80 Y Y 6.2 Y E 71 3ES4070-Il RHR3D 3 11/26/80 Y Y 7.5 Y E 71 3ES4070-Il RHR3D 3 1/10/84 Y Y 6.2 Y E 71 3ES4070-I!

RHR3D 3 5/24/85 Y Y 2.9 Y E 71 3ES1570-1

?  ? 4/29/79 N Y 5.4 Y E 50 1 ,

i 4

1 Page 15 9/22/88

. ATTACliMENT E IVA BFN Cable Acceptance Test Records Sumary l

1 \

1 l

l l

l l

C194

I e l l

ATTACHMENT E LEGEND Abbreviations: AFI - After AUX - Auxiliary CT - Cooling Tower DMGE - Damage kV - Kilovolt MIN - Minute NO - Number PH - Phase ,

PRO - Procedure '

RCW - Raw Cooling Water REP - Repair RPLCD - Replaced f SRVC . In-service

. Data Codes: CABLE NO - Cable number from test record.

DATE - Date test was performed.

DOCUMENT - Test record document number.

PRO - Referenced procedure on test record or documentation to which test record is attached.  ;

Blank indicate:i no procedure referenced.

2 kV - Test voltage as recorded 1 MIN - Microampere reading at one (1) minute. '

5 MIN - Microampere reading at five (5) minutes. '

15 Min - Microampere reading at fifteen (15) minutes.

For microampere readings "A", "B", and "C" suffie s indicate that readings were taken for each phase. A simple n e rical entry indicates all phases were tied together for test. A~~

"T" suffix indicates the cable was tied to another cable for the test.

e 4

l i F 4 i 1

l C194

]

• 4 I f

. i f

[

i m-r,,, - - . - , , , , - . . - , - --,m

.,y..,,,y,--y--,,--,y-,,.--.--.,,,v-,...v.-. y-,.-m--,.,-:,.y~.,e_.. _._~_%-y .wy., ,----

- t i TVA BFN CABLE ACCEPTANCE TEST RECORDS SU!OLARY -

CABLE NO DATE DOCUMENT PRO kV 1 MIM 5 MIN 15 MIN REMARKS ,

1PP1000 12/22/78 TGR-78017-D1 [ 7 25.0 9T 8T 7T RPLCD-STRESS BASKET DMGE

1PP1001 12/22/78 TGR-78017-D1 B17 25.0 9T 8T 7T RPLCD-STRESS BASKET DMGE 1 1PP1002 12/22/78 T G R-78017-D 1 B17 25.0 9T 8T 7T RPLCD-STRESS BASKET DMGE I IPP1003 11/17/78 TGR-78017-D1 817 25.0 12T 12T 11T j 1PP1004 11/17/78 T G R-78017__- D 1 B17 25.0 12T 12T 11T 1PP1005 11/17/78 TG R-78017-D 1 B17 25.0 12T 12T IIT 1PP1006 12/3/78 TGR-78017-D1 817 17.6 20T IST 12T 1 ppt 007 12/3/78 TGR-78017-D1 B17 17.6 20T IST 12T 1PP1008 12/3/78 TGR-78017-D1 B17 17.6 20T IST 12T 1PP105 10/21/71 BJH26-D1 B14 17.6 3 ONE MINU"ETESTONLY 1PP1050 12/22/78 TGR-78017-D1 817 25.0 12T 10T 9T RPLCD-STRESS BASKET DMGE 1PP1051 12/22/78 TGR-78017-D1 B17 25.0 12T 10T 9T RPLCD-STRESS BASKET DMGE 1PP1052 12/22/78 TGR-78017-D1 B17 25.0 12T 10T 9T RPLCD-STRESS BASKET DMGE i

IPP1053 12/21/78 TGR-78017-D1 B17 25.0 4T 4T 3T 1PP1054 12/21/78 TGR-78017-D1 B17 25.0 4T 4T 3T 1PP1055 12/21/78 TGR-78017-D1 B17 25.0 4T 4T 3T 1PP1056 12/21/78 TGR-78017-01 B17 17.6 4T 4T 4T I

'1PP1057 12/21/78 TGR-78017-D1 817 17.6 4T 4T 4T 1PP1058 12/21/78 TGR-78017-D1 817 17.6 4T 4T 4T 1PP110 7/17/71 BJ H 17-D2 B14 17.6 1A382C ONEMINUIETESTONLY j 1PP1125 6/17/79 TNM-79-6 B17 17.6 3 2 2 1PP1127 6/17/79 TNM-79-6 B17 17.6 3 3 3 1PP1129 6/17/79 TNM-79-6 B17 17.6 2 2 2 1PP115 7/17/71 BJ H 17- D2 B14 17.6 4A682C ONEMINUTETESTONLY 1PP115 9/14/72 BJH47-D1 B14 25.0 2A4B4C DID NOT RF. CORD BY MINUTE 1PP125 10/7/71 BJH26-D1 B14 17.6 3 ONEMINdTETEST ONLY

, 1PP140 10/7/71 BJH26-D1 814 17.6 0.2 ONE MINUTETESTONLY

=

1PP155 10/7/71 BJH26-D1 814 17.6 2 ONE MINUTETESTONLY 1PP170 5/15/71 BJH 17-D2 B14 17.6 18 ONE MINUTETESTONLY 1PP181 5/15/71 BJH17-D2 B14 17.6 10 ONEMINUTETESTONLY 1PP192 5/15/71 BJ H 17-D2 814 17.6 18 DID NOT RECORD BY MINUTE 1PP203 5/15/71 BJH17-D2 B14 17.6 1 ONEMINUTETESTONLY

, 1PP213 5/15/71 BJ H 17-D2 B14 17.6 1 ONEMINUTETEST ONLY l 1PP223 5/15/71 BJ H 17-D2 B14 17 6 18 DID NOT RECORD BY MINUTE

{ IPP235 4/9/71 BJH52-D1 814 17.6 1A181C ONE MINUTETESTONLY

Page 1 9/12/88 l

4

l .  ;

TVA BFN CABLE ACCEPTANCE TEST RECORDS SUNNARY -

i i

CABLE NO DATE DOCUMENT PRO kVI 1 MIN 5 MIN 15 MIN REMARKS ,

IPP265 _ 4/24/71 BJ H 17-D1 B14 17.6' 1A181C OE belUTETESTOM_Y IPP275 5/28/71 B R A61 D 1 814 17.6 A DD NOTPICORD BY MNUTE l 1PP285 3/28/72 BJH43-D1 B14 25.0 2 DID NOTRECORD BY MINUTE

1PP285 1/2/76 GAB-39 B17 25.0 10 10 8 i

} *PP400 7/1/71 BJ H 17-D2 B14 17.6 10A12B10CT OEMINUTETESTOM Y IPP401 7/1/71 BJH17-D2 B14 17.6 10A12B10CT OEnW4UTETESTOM.Y 1PP402 7/1/71 BJH17-D2 B14 17.6 10A12B10CT OEMNUTETESTONLY 1PP404 4/7/72 BJH33.D1 814 25.0 8T DIDNOTRECORD BY MINUTE l 1PP405 11/17/71 BJH26-D1 R 814 17.6 18T DID NOTRECORD BY MINUIE

! 1PP406 11/17/71 BJH26-D1 R B14 17.6 18T DID NOT RECORD BY MlNUTE I IPP406 4/7/72 BJH33-D1 B14 25.0 8T DID NOT RECORD BY MINUTE l 1PP407 11/17/71 BJH26-01 R B14 17.6 18T DDNOTRECORD BY MNUTE

{ 1PP408 11/17/71 BJH26-D1 R B14 17.6 18T DIDNOTRECORD BYMINUTE

1PP409 11/17/71 BJH26-D1 R B14 17.6 18T DIDNOTRECORD BY MINUTE i 1

1PP410 11/17/71 BJH26-D1 R B14 17.6 18T DONOT RECORD BY MINUTE

! 1PP415 11/17/71 BJH26-D1 R B14 17.6 1T DIDNOT RECORD BY MNUTE

! 1PP415 11/20/78 TGR-78017-D1 817 17.6 4T 3T 3T I 1PP415 12/22/78 TGR-78017-D1 817 25.0 9T 8T 7T

$ 1PP421 11/17/71 BJH26-D1 R B14 17.6 1T DIDNOTRECORDBY MINUTE

! 1PP421 11/20/78 TG R-78017-D 1 B17 17.6 4T 3T 3T 1PP457 7/31/71 B R A61 D 1 B14 17.6 2A2B2C DD NOTRECORD BY MINUTE I j 1PP493 2/17/72 BJ H31-D1 B14 17.6 4 OEn#1UTETESTOM_Y j 1PP500 7/31/71 B R A61 D 1 B14 17.6 2A2B2C DIO NOTRECORD BYMINUTE

} IPPS25 7/1/71 BJ H 17-D2 B14 17.6 18A12818CT OEnmaffETESTOM.Y i 1PPS26 7/1/71 BJH17-D2 B14 17.6 18A12B18CT OEnWAJTETESTOM_Y 1PPS27 7/1/71 BJH17-D2 B14 17.6 18A12B18CT OERNdUTETESTOM_Y l 1PPS30 11/17/71 BJH26-D1 R B14 17.6 60T DIDNOT RECORDBY MNUTE

) IPPS31 11/17/71 BJH26-01 R B14 17.6 60T DDNOT RECORDBYMNUTE j 1PP532 11/17/71 BJH26-D1 R B14 17.6 60T DID NOT RECORD BY MNUTE

] 1PPS33 11/17/71 BJH26-D1 R B14 17.6 60T DIDNOTRECORD BY MNUTE 1PPS34 11/17/71 BJH26-D1 R B14 17.6 60T DIDNOTRECORD BY MNUTE T 1PPS35 11/17/71 BJH26-D1 R G14 17.6 60T DIDNOTRECORD BY n#1UTE

• 1PP540 11/17/71 BJH26-D1 R B14 17.6 1T DIDNOTRECORDBY MNUTE 1PP540 12/22/78 TG R-78017-D 1 B17 25.0i 12T 10T 9T IPP546 11/17/71 BJH26-D1 R B14 17.6! 1T DIDNOTRECORD BY MINUTE Page 2 9/12/88 s

,*,v- -

y-----rr-wi--y--- w -r- -

w- m -' - - - - - - -* ____ - _ _ . _ _ -

O TVA BFN CABLE ACCEPTANCE TEST RECORDS SUPAAARY -

l CABLE NO I DATE DOCUMENT PROIkV 1 MIN 5 MIN 15 MIN REMARKS ~ '

1PP85 7/31/71 B R A61 D 1 814 17.6 4A6B4CT DID NOT RECORD BY MINUTE 1PP86 7/31/71 B R A61 D 1 814 17.6 4A684CT DID NOT RECORD BY MINUTE 1PP87 7/31/71 B R A61 D 1 814 17.6 4A684CT DID NOT RECORD BY MINUTE 1PP96 5/28/71 B R A61 D 1 814 17.6 2 DID NOT RECORD dY MINUTE 2PP1000 5/25/78 BR A227-78-D1 B17 25.0 10T 7T 6T 2PP1001 '5/25/78 BRA 227-78-D1 B17 25.0 SOT 7T ET 2_PP1002 5/25/78 BRA 227-78-D1 B17 25.0 10T 7T 6T 2PP1003 5/19/78 B R A227-78-D 1 B17 25.0 3T 2T 2T 2PP1004 5119/78 BRA 227-78-D1 B17 25.0 3T 2T 2T 2PP1005 B17 25.0 5/19/78 B R A227-78-D 1 3T 2T 2T 2PP1006 5/25/78 B R A227-78-D 1 017 25.0 20T 16T 12T 2PP1007 5/25/78 BRA 227-78-D1 B17 25.0 20T 16T 12T 2PP1008 5/25/78 BRA 227-78-D1 B17'25.0 20T 16T 12T 2PP105 6/10/72 BJH43-D1 B14 25.0 4 D!DNOT RECORD BY MINUTE 2PP1050 5/25/78 BRA 227-78-D1 817 25.C 20T 18T 17T 2PP1051 5/25/78 B R A227-78-D 1 817 25.0 20T 18T 17T 2PP1052 5/25/78 B R A227-78-D 1 B17 25.0 20T 18T 17T 2PP1053 5/20/78 BR A227-78-D1 B17 25.0 4T 4T 4T 2PP1054 5/20/78 BR A227-78-D1 B17 25.0 4T 4T 4T 2PP1055 5/20/78 B R A227-78-D 1 817 25.0 4T 4T 4T 4 2PP1056 5/26/78 B R A227-78-D 1 817 25.0 28T 2GT 17T

) '

2PP1057 5/26/78 B R A227-78-D 1 817 25.0 28T 20T 17T 2PP1058 5/26/78 B R A227-78-D 1 B17 25.0 28T 20T 17T 2PP1:0 10/21/71 BJH26-D1 814 17.6 2 ONEMINUTETESTONLY 2PP1125 6/15/79 TNM-79-6 B17 17.6 5 5 5

2PP1127 6/16/79 TNM-79-6 B17 17.6 3 3 3 j 2PP1129 6/17/79 TNM-79-6 B17 17.6 3 3 2

, 2PP115 10/21/71 BJH26-D1 B14 17.6 2 ONEMINUTETESTONLY

) 2PP125 4/29/72 BJH43-D1 B14 25.0 1 DID NOTRECORD BY MINUTE q 2PP140 4/29/72 BJH43-D1 814 25.0 1 DID NOT RECORD BY MINUTE j 2PP155 4/29/72 BJH43-DI 914 25.0 1 D:DNOTRECORD BYMINUTE

'2PP170 4/29/72 BJH43-D1 514 25.0 2 DtD NOTRECORD BY MINUTE 2PP181 11/9/72 BJH58-D1 B14 25.0 1 DIDNOT RECORD BY MINUTE 2PP192 4/29/72 BJH43-Di 814 25.0 2 DID NOTRECORD BY MINUTE 2PP203 6/10/72 BJH43-D1 !B14 25.0 1 DID NOT RECORD BY MINUTE Page 3 9/12/88

O TVA BFN CABLE ACCEPTANCE TEST RECORDS SUP&1ARY ,

CABLE NO DATE DOCUMENT PRO kV 1 MIN 5 MIN 15 MIN REMARKS 2PP213 6/10/72 BJH43-D1 B14 25.0 1 DlD NOT RECORD BY MINUTE 2PP223 6/10/72 BJH43-DI B14 25.0 1 DID NOT RECORD BY MlNUTE 2PP235 4/29/72 BJH43-D1 514 25.0 2 DID NOT RECORD BY MINUTE

2PP245 11/9/72 BJH58-D1 B14 25.0 1 DID NOT RECORD BV MINUTE j 2PP255 4/29/72 BJH43-Di B14 25.0 2 DID NOT RECORD BY MINUTE I 2PP400 6/20/72 BJH43-DI B14 25.0 20T DID NOT RECORD BY MINUTE j '2PP401 6/20/72 BJH43-DI B14 25.0 20T DIDNOT RECORDBYMINUTE

.! 2PP402 6/20/72 BJH43-DI B14 25.0 20T DID NOT RECORD BY MINUTE I

2PP405 5/30/73 B R A106-73-D 1 814 25.0 1ST DID NOT RECORD BY MINUTE 2PP406 5/30/73 B R A 106-73-D 1 B14 25.0 IST DID NOT RECORD BY MINUTE 2PP407 5/30/73 B R A106-73-D 1 814 25.0 IST DID NOT RECORD BY MINUTE 2PP408 5/30/73 B R A 106-73-D 1 B14 25.0 IST DID NOT RECORD BY MINUTE 2PP409 5/30/73 B R A 106-73-D 1 B14 25.0 15T _ DID NOT RECORD BYMINUTE 2PP410 5/30/73 B R A106-73-D 1 814 25.0 IST DIDNOT RECORD BY MINUTE

! 2PP415 5/30/73 B R A106-73-D 1 814 25.0 5 DID NOT RECORD BY MINUTE 2PP421 5/30/73 B R A106-73-D 1 B14 25.0 15 DID NOT RECORD BY MINUTE I

2PP525 E/10/72 BJH43-Di 814 25.0 6T DID NOT RECORD BY MINUTE 2PPS26 6/10/72 BJH43-Di B14 25.0 6T DID NOT RECORD BY MINUIE 2PPS27 6/10/72 BJH43-DI B14 25.0 6T DID NOT RECORD BY MINUTE 2PP530 5/30/73 BRA 106-73-D1 814 25.0 82T DID NOTRECORD BY MINUTE 2PPS31 5/30/73_ .B R A106-73-D 1 B14 25." 82T DID NOT RECORDBY MINUTE 2PPS32 5/30/73 BRA 106-73-D1 B14 25.0 82T DID NOT RECORD BY MINUTE 2PPS33 5/30/73 BRA 106-73-D1 814 25.0 82T DID NOT RECORD BY MINUTE 2PP534 5/30/73 B R A106-73-D 1 B14 25.0 82T DID NOT RECORD BY MINUTE JPP535 5/C0/73 B R A106-73-D 1 814 25.0 82T DID NOT RECORDBY MINUTE l 2PP540 5/30/73 B R A 106-73-D 1 B14 25.0 1 DID NOT RECORD BY MINUTE j 2PP540 2/6/86 SHM-181 25.0 0.25 0 0 j 2PP546 5/30/73 B R A106-73-D 1 B14 25.0 82 DID NOT RECORD BY MINUTE 4

2_PP8F 11/15/71 BJH26-D1 B1M 17.6 10T ONEMINUTETESTONLY l 2PP86 11/15/71 BJH26-D1 B14 17.6 10T ONE MINUTETESTONLY A

2PP87 11/15/71 BJ H2f,-D1 B14 17.6 10T ONEMINUTETESTONLY j 2PP95 11/13/81 BJH26-D1 B14 17.6 6T ONE MINUTETESTONLY 2PP96 11/13/81 BJH26-D1 B14 17.6 6T ONEMNUTETESTONLY 2PP97 11/13/81 BJH26-D1 B14 17.6 6T ONEMINUTETESTONLY 2PP97 1/16/86 SHM-176 18.7 1A8B4C OA782C FIVE MIN ONLY i

i i Page 4 9/12/88 i

-- --- - - -. -. =_ - . _ _ _ _ _ _ _ _ _ - - _ _ _ - - _ _ _

e TVA BFN CABLE ACCEPTANCE TEST RECORDS SUh2AARY ,'

CABLE NO DATE DOCUMENT PRD kV 1 MIN 5 MIN 15 MIN REMARKS .

i 2PP97 1/19/86 SHM-178 18.7 12 10 8 3ES1540-1 10/14/74 TGR-74003-D1 817 25.0 8 8 8 f 3ES1550-1 10/14/74 TGR-74003-D2 B17 25.0 18 22 29 3ES1560-1 10/19/74 TG R-74003-D 1 B17 25.0 1 1 1 3ES1560-1 2/25/76 B R A186-76-D 1 B17 25.0 2 1 1 3ES1560-1 2/25/76 TGR-76005-D1 B17 25.0 2 1 1 DOUBLE DOCUMENTATION 3ES1570-1 10/29/74 TGR-74003-D2 B17 25.0 2 2 2 3ES1570-I 2/25/76 B R A 186-76-D 1 B17 25.0 10 5 9 l 3ES1570-1 2/25/76 TGR-76005-D1 B17 25.0 10 5 9 DOLELE DOCUMENTATION 3ES1570-1 7/9/81 ALH-118 17.6 11.5A13B14C 11.5A12814C 12A12B14C 3ES158G 9/15/75 B R A 164-75-D 1 B17 25.0 1 1 1 4

3ES1590 S/7/77 TGR-77006-D1 817 25.0 2 2 2 3ES1590-1 8/4/77 LWB-332-D1 817 25.0 30 34 29 3ES1600-1 A 2/11/75 BR A150-75-D1 B17 25.0 4T ST 7T 3ES1601-1 A 2/11/75 B R A150-75-D 1 B17 25.0 4T ST 7T 3ES1602-1 A 2/11/75 B R A150-75-D 1 B17 25.0 4T ST 7T 3ES1604-1 A 2/11/75 BRA 150 75-D1 817 25.0 4T ST 7T 3ES1640-IB 2/12/75 B R A 150-75-D 1 B17 25.0 12T 12T 13T 3ES1641-IB 2/12/75 B R A150-75-D 1 817 25.0 12T 12T 13T l 3ES1642-IN 2/13/75 B R A150-75-D 1 817 25.0 12T 12T 13T I 3ES1644-IN 2/12/75 B R A150-75-D 1 817 25.0 12T 12T 13T 3ES1950-Il 10/2/75 GAB-34 B17 25.0 12 12 11 3ES4040-II 11/6/74 TGR-74003-D3 B17 25.0 1 1 1 j 3ES4050-Il 11/6/74 TGR-74003-D4 B17 25.0 1 1 1 3ES4060-Il TGR-74003-D3 B17 25.0 10/19/74 4 3 8 j 3ES4060-Il 2/18 /7 f, TGR-76005-D1 B17 25.0 3 3 3 J 3ES4070-II 10/14/74 TGR-74003-D4 B17 25.0 3 4 3 3ES4070-Il 2/17/76 TGR-76005-D1 817 25.0 4 3 3 i 3cS4080-Il 12/12/74 BRA 150-75-D2 B17 25.0 1 1 1 3ES4080-Il 6/30/77 TGR-77007-D1 M13 25.0 5 4 4 3ES4090-Il 12/12/74 B R A150-75-D 817 25.0 3 3 3

) 3ES4090-Il 8/22/77 TGR-77009-D1 B17 25.0 12 12 12 A PH SPUCE REWORKED 3ES4100-Il 2/13/75 B R A150-75-D 1 817 25.0 16T 12T 11T 4

3ES4101-Il 2/13/75 BRA 150-75-D1 B17 25.0 16T 12T 11T

3ES4101-IIC_ 2/6/8 6 SHM-181 25.0 0.25 0.25 0 i

Page5 9/12/88 i i

I

, o TVA BFN CABLE ACCEPTANCETEST RECORDS SUNEAARY -

CABLE NO DATE DOCUMENT . PRO kV 1 MIN 5 MIN 15 MIN REMARKS 3ES4102-Il 2/13/75 B R A150-75-D1 817 25.0 16T 12T ,

IIT

~

3ES4104-il 2/13/75 B R A150-75-D 1 B17 25.0 16T 12T 11T 3ES4140-IID 2/14/75 B R A150-75-D 1 B17 25.0 30T 28T 26T 3ES4141-IID 2'14/75 B R A150-75-D 1 B17 25.0 30T 28T 26T -

3ES4142-IID 2/14/75 B R A150-75-D 1 817 25.0 30T 28T 26T 3ES4144-ilD 2/14/75 B R A150-75-D 1 B17 25.0 30T 28T 26T 3PP1000 '10/15/78 TNM-78-2 B17 25.0 2 2 2 3PP1001 10/15/78 TNM-78-2 817 25.0 2 2 2 3PP1002 10/15/78 TNM-78-2 B17 25.0 3 3 3 3PP1003 9/27/78 TNM-78-2 B17 25.0 2T IT IT 3PP1004 9/27/78 TNM-78-2 B17 25.0 2T IT IT 3PP1005 9/27/78 TNM-78-2 B17 25.0 2T IT IT 3PP1006 10/15/78 TNM-78-2 B17 17.6 4 4 4 3PP1007 10/15/78 TNM-78-2 B17 17.6 6 6 6 3PP1008 10/15/78 TNM-78-2 817 17.6 2 2 2 3PP1025 7/28/81 CEB-18 25.0 7.5ASB9C 8.5A4.5B9C 8.5A4.5B8.5C 3PP105 3/25/74 B R A129-74-D 1 B14 25.0 1A181C DID NOT RECORD BY MINUTE 3PP1050 10/15/78 TNM-78-2 817 25.0 5 8 8 3PP1051 10/14/78 TNM-78-2 817 17.6 1 1 1 3PP1052 10/15/78 TNM-78-2 B17 25.0 7 6 5 3PP1953 9/27/78 TNM-78-2 B17 25.0 1T IT IT 3PP1054 9/27/78 TNM-78-2 B17 25.0 1T IT IT 3PP1055 9/27/78 TNM-78-2 E!7 25.0 1T IT IT 3PP1056 10/14/78 TNM-78-2 B17 17.6 1 1 1 3PP1057 10/14/78 TNM-78-2 B17 17.6 1 1 1 3PP1058 10/14/78 TNM-78-2 817 17.6 1 1 1 3PP110 3/27/74 B R A129-74-D 1 B14 25.0 1 DID NOT RECORD BY MINUTE 3PP1140 6/16/79 TNM-79-6 817 17.6 2 2 2 3PP1142 6/17/79 TNM-79-6 B17 17.6 4 4 3 3PP1144 6/17/79 TNM-79-6 B17 17.6 4 3 3 3PP115 3/27/74 B R A129-74-D 1 B14 25.0 4 DID NOT RECORD BY MINUTE 3PP125 4/23/74 BJH99-D1 B14 25.0 2 2 1 3PP140 9/14/72 BJH58-D1 B14 25.0 5 DID NOT RECORD BY M NdfE 3PP140 4/23/74 BJH99-D1 B14 25.0 4 4 5 3PP155 4/23/74 BJH99-D1 814 25.0 20 2 2 Page 6 9/12/88 mi-.- - - -- - , m

TVA BFN CABLE ACCEPTANCE TEST RECORDS SUANARY -

CABLE NO '

DATE DOCUMENT PRO kV 1 MIN 5 MIN 15 MIN REMARKS 3PP170 4/23/74 BJH99-D1 B14 25.0 1 1 1 3PP181 3/27/74 3 R A 129-74-D 1 B14 25.0 1 DID NOTRECORD BYHINUTE 3PP192 3/26r74 B R A 129 D 1 B14 25.0 8 DID NOT RECORD BY MINUTE 3PP203 3/26/74 B R A129-74-D 1 814 25.0 1 DID NOT RECORD BY MINUTE 3PP213 *3/27/74 B R A129-74-D 1 B14 25.0 _

1 DID NOT RECORD BY MINUTE SPP:'23 3/26/74 t3 R A129-74-D 1 B14 25.0 ,

1 DlDNOT RECCRD BY MINUTE 3PP235 3/26/74 BR A129-74-D 1 B14 25.0 _

1 DID NOT RECORDBY MINUTE 3PP245 3/27/74 B R A129-74-D 1 B14 25.0 2 DID NOT RECORD BY MINUTE 3PP255 3/26/74 BRA 129 74-D1 B14 25.0 6 DIDNOT RECORD BY M!NUTE 3PP265 10/19/74 TGR-74003-D3 B17 25.0 3 3 3 3FP275 10/29/74 TGR-74003-DS. B 17 25.0 1 1 1 3PP285 10/14/74 TGR-74003-D11 B 17 25.0 5 5 5 3PP353 3/6/75 B R A 150-75-D2 B17 25.0 2T IT IT 3PP354 3/6/75 B R A150 D: B'7 25.0 2T IT IT 3PP400 10/16/73 BJ H97-D1 814 25.0 6T DID NOT RECORD BY MINUTE 3PP401 10/16/73 BJ H97-D1 B14 25.0 6T DID NOT RECORDBY MINUTE 3PP402 10/16/73 BJ H 97-D 1 814 25.0 6T DID NOT RECORDBY MINUTE 3PP405 12/12/74 B R A142-74-D 1 B17 25.0 10T 9T 9T 3PP406 12/12/74 B R A142-74-D 1 B17 25.0 10T 9T 9T 3PP407 .

12/12/74 B R A 142-74-D 1 B17 25.0 10T 9T 9T 3PP41E '

12/12/74 BRA 142-74 D1 B17 25.0 10T 9T ST 3PP421 12/12/74 B R A142-74-D 1 B17 25.0 10T 9T 9T 3PP459 10/25/74 TG R-74003-D 1 817 25.0 36T 21T 18T 3PP460 10/25/74 T G R-74003-D 1 B17 25.0 36T 21T 18T 3PP471 10/25/74 TGR-74003-D3 B17 25.0 1T IT IT 3PP472 10/25/74 TGR-74003-D3 B17 25.0 1T IT 1T 3PPS25 10/16/73 BJ H97-D1 B14 25.0 24T DID NOT RECORD BY MINUTE 3PP526 10/16/73 BJ H97-D1 B14 25.0 24T DID NOT RECORD BY MINUTE 3PPS27 10/16/73 BJH97-D1 B14 25.0 24T DID NOT RECORD BY MINUTE _

3PP530 11/25/74 BR A142-74-D 1 B17 25.0 6T 4T 4T 3PPS31 11/25/74 B R A142-74-D 1 B17 25.0 GT 4T 4T 3PPS32 11/25/74 B R A142-74-D 1 B)7 25.0 6T 4T 4T 3PP546 11/25/74 BRA 142-74-D1 B17 25.0 6T 4T 4T 3PP680-IE 2/11/75 BRA 150-75-C1 B17 25.0 4T ST 7T 3PP681 -lE 2/11/75 BR A150-75-D t B17 25.0 4T ST 7T Page 7 9/12/88

I O

TVA BFN CABLE ACCEPTANCETEST RECORDS SUP %AARY ,

CABLE NO i DATE DOCUMENT fPRO kV 1 MIN 5 MIN 15 MIN REMARKS .

3PP683-!E 2/12/75 BRA 15u-75-91 B;7 25.0. 12T 12T 13T 3PP684-IE 2/12/75 B R A150-75-D 1 817 25.Os 12T 12T 13T 3PP686 2/13/75 B R A150-75-D 1 B17 25.0. 16T 12T IIT 3PP687 2/13/75 B R A 150-75-D 1 B17 25.0; 16T 12T 11T 3PP689-lE 2/14/75 BRA 150-75-D1 G17 25.0 3 30T 28T 26T 3PP690-lE 2/14/75 BRA 150-75-D1 817 25.0 30T 28T 26T 3PP692 10/31/74 TGR-74003-D1 817 25.0 4T 4T 4T 3PP693 10/31/74 TGR-74003-D1 B17 25.0 4T 4T 4T 3PP694 10/31/74 TGR-74003.D1 B17 25.0 4T 4T 4T 3PP696 11/1/74 TGR-74003-D1 817 25.0 1T IT IT JPP697 11/1/74 TG R-74003-D 1 B17 25.0 1T IT 1T 3PP698 11/1/74 TGR-74003-D1 817 25.0 1T IT IT 3PP700 11/6/74 TGR-74003-D3 817 25.0 4T 4T 4T 3PP701 11/6/74 TGR-74003-D3 B17 25.0 4T 4T 4T 3PP702 11/6/74 TGR-74003-D3 B17 25.0 4T 4T 4T 3PP704 10/29/74 TGR-74003-D3 817 25.0 6T 6T 6T 3PP705 10/29/74 TGR-74003-D3 B17 25.0 GT 6T 6T 3PP706 10/29/74 TGR-74003-D3 B17 25.0 6T 6T 6T 3PP732 2/27/75 BRA 150-75-D B17 25.0 1 0.5 0.5 1 3 PP733I 1/29/76 B R A174-76-D 1 B17 25.0 1 1 1 3PP734 3/19/75 T3R-75012-01 B17 25.0 8 8 3 3PP90C 10/19/74 TG R-74003-D 1 B17 25.0 .11T .12T .13T 3PP901 10/19/74 TGR-74003-D1 817 25.0 _.1 1 T .12T .13T 3PP902 10/19/74 TGR-74003-D1 B17 25.0_ .

.11T .12T .13T 3PP910 10/19174 T G R-74003-D 1 B17 25.0 1T 1T IT 3PP911 10/19/74 TC R-74003-D 1 B17 25.0 11 1T IT ,

3PP912 10/19/74 TGR-74003-D1 B17 25.0 1T IT 1T ~

3PP920 10/25/74 T G R-74003-D3 B17 25.0 4T 3T 2T 3PP921 10/25/74 TG R-7400.3-D3 B17 25.0 4T 3T 2T 3PP922 10/25/74 TGR-74003-D3 B17 25.0 4T 3T 2T 3PP930 10/25/74 TGR-74003-D3 817 25.0 9T 9T 9T 3PP931 10/25/74 TGR-74003-D3 B17 25.0 9T 9T 9T 3PP932 10/25/74 TGR-74003-D3 B17 25.0 9T 9T 9T ES1-I 4/24/71 BJ H 17-D 1 B14 17.6 1A181C ONEMINUTETFSTONLY ES100-! 4/24/71 BJ H 17-D1 314 17.6 1A182C ONE MINUTETESTONLY Page 8 9/12/88 l

TVA BFN CABLE ACCEPTANCE TEST RECORDS SUANARY ,"

CABLE ND DATE IDOCUMENT UPRO kV 1 P11N j 5 MIN 15 MIN REMARKS .

ES100-1 4/4/73 BJ H 77-D 1 B14 25.0 1 DIDIX)T RECORD BY MINUTE ES100-1 10/2/75 GAB-34 B17 25.0 3 2 2 l ES100-1 8/4/77 LV/B-332-D 1 817 25.C 5 2 2 l

ES113-I 4/24/71 BJH17-D1 814 17.6 1AtB1C ONE MINUTETESTONLY

] .ES113-1 4/4/73 BJH77-D1 B14 25.0 1 DIDNOT RECORD BY MINUTE ES125-I 4/24/71 BJH17-D1 B14 17.6 1A481C ONEMINUTETESTONLY j ES13-1 2/7/76 BPA174-76-D1 817 25.0 3 3 3 ES13-1 6/15/72 BJH43-D1 B14 25.0 3 DID NOT RECORD BY f?NUTE i ES 141 -1 6/16/72 BJH43-D1 814 25.0 3 DIDNOT RECORDBY MINUTE

,E_ S141 -1 1/11/76 B R A 174-76-D 1 817 25.0 3 3 2 ES173 8/22/72 BJ H47- D 1 814 25.0 3 DID NOT RECORD BY MWUTE ES173-1 '4/24/71 BJ H 17-D1 814 17.6 1A1B1C ONEMiNUTETESTONLY ES1875-IA 4/3/72 BJH34-D1 B14 25.0 16T DID NOT RECOT BY MINUTE i ES1876-I A 4/3/72 BJH34-D1 814 25.0 16T DID NOT RECORD BY MlNUTE f ES1877-IA 4/3/72 BJ H34-D1 B14 25.0 16T DID NOT RECORD BY MINUTE ES1879-IA 5/4/72 BJH34-D1 B14 25.0 1 DID NCT RECORD BY MINUTE ES189 6/15/72 BJH43-D1 B14 25.0 2 DiGNOT RECORD BY MINUTE ES189 8/22/72 BJH47-D1 B14 25.0 3 DID NOT RECORD BY MINUTE ES189 12/27/75 TGR-76001-D1 817 25.0 5 3 3 j ES1900-IB 4/3/72 BJH34-D1 B14 25.0 GT DID NOT RECORD BY MINUTE ES1901-IB 4/3/72 BJH34-D1 B14 25.0 6T DID NOT RECORD BY MINUTE ES1902-IB 4/3/72 BJH34-D1 B14 25.0 GT DID NOTRECORD BY MINUTE j .ES1904-1B 5/4/72 BJH34-D1 B14 25.0 1 DID NOT HECORD BY M.NUTE 1

ES2501-il 4/28/71 BJ H 17-D 1 B14 17.6 1 ONE MINUTETESTONLY l 'ES2501-il 2/26/76 GAB-58 B17 25.0 2 2 2

ES2513-il 6/15/72 BJH43-D1 814 25.0 2 DID NOT RECORD BY M!r1UTE ES2538-Il 4/24/71 BJH17-D1 B14 17.6 1A1B1C ONEMINUTETESTONLY ES2538-II 12/14/75 TGR-76001-D1 B17 25.0 4 4 4 ES2550-Il 6/16/72 BJH43-D1 814 25.0 2 DID NOT RECORD BY MINUTE ES2575 6/30/77 TGR-77007-D1 M13 25.0 6 6 6

ES2575-Il 1/31/72 BJ H31 -D1 B14 17.6 2 ONEMINUTETESTONLY

{ .ES2588-Il 1/31/72 BJH31-D1 B14 17.6 1 ONEMINUTETESTONLY ES2600-II 1/31/72 BJH?1-D1 B14 17.6 4 ONE MINUTETES'ONLY ES2600-Il 8/19/77 TG R-7 /009-D 1 B17 25.0 7 7 7 j ES2613-Il 1/31/72 BJH31-D1 B14 17.6 2  ! O_NE MINUTETESTONLY 1

j Page 9 9/12/88 i

2

l TVA BFN CABLE AXEPTANCE TEST RECORDS SUlWAARY .'

CABLE NO DATE DOCUMENT PRO kVi 1 MIN 5 MIN 15 MIN REMARKS -

E_S2625 2/6/76 B R A 174-76-D 1 817 25.0 2 2 2 ES2625-II 11/17/71 BJH26-D1 B14 17.6 1 ONEMINUTETESTONLY ES2641-il 6/15/72 BJH43-D1 B14 25.0 4 DID NOT RECORD BY MINUTE ES2673-il 4/24/71 BJ H 17-D 1 B14 17.6 1A181C ONE MINUTETESTONLY ES2673-Il 2/12/76 B R A 174-76-D 1 817 25.0 2 1 1 ES2689-il 6/20/72 BJH43-D1 814 25.0 3 DID NOTRECORD BY MINUTE I

.ES38-8 . 4_/24/71 BJH 17-D1 814 17.6 8A181C ONE MINUTETESTONLY ES4375-I:0 4/3/72 BJH34-D1 B14 25.0 6T DID NOTRECORD BY MINUTE ES4376-IIC 4/3/72 BJH34-D1 B14 25.0 GT DID NOT RECORD BY MINUTE l ES4377-IIC 4/3/72 BJH34-D1 814 25.0 6T DID NOTRECORD BYMINUTE I ES4379-IIC 5/4/72 BJH34-D1 B14 25.0 1 DID NOTRECORD BY MINUTE ES4400-IID 4/3/72 BJH34-D1 B14 25.0- IT DID NOT RECORD BY MINUTE ES4401-IID 4/3/72 BJH34-D1 814 .35.0 1T DID NOT RECORDBYMINUTE ES4402-IID 4/3/72 BJH34-D1 814 25.0 1T DIDNOT RECORD BY MINUTE ES4404-IID 5/4/72 BJH34-D1 B14 25.0 1 DIDNOTRECORDBYMINUTE ES50-I 6/15/72 BJH43-D1 B14 25.0 2 DID NOT RECORD BY MINUTE ESSO-I 2/7/76 B R A 174-76-D 1 817 25.0 3 2 3 ES75-I 4/24/71 BJ H 17-D 1 814 17.6 1A2BIC ONEMINUTETESTONLY ES75-1 2/1/72 BJ H31-D1 B14 17.6 1 ONEMINUTETESTONLY ES75-1 3/29/73 BJ H77-D1 814 25.0 1 DID NOTRECORD BY MINUTE ES75-1 9/15/75 B R A 164-75-D 1 B17 25.0 2 1 1 ES75-8 6/7/77 TGR-77006-D1 817 25.0 5 4 4 ES88-1 4/24/71 BJH17-D1 B14 17.6 1A1B2C ONE MINUfETESTONLY ES88-1 3/29/73 BJ H 77-D1 B14 25.0 4 DID NOTRECORD BY MINUTE MC6205 6/29/76 B R A186-76-D 1 B17 25.0 38T 24T 20T MC6206 6/29/76 BRA 186-76-D1 B17 25.0 38T 24T 20T PP1023 11/20/75 B R A 169-76-D 1 B17 25.0 3 2 2 PP110 5/21/75 TG R-75012-D 1 817 25.0 20 20 19 PP1100 5/11/76 TGR-76009-D1 817 25.0 9 5 4 AUX RCW A FEED PP1100 5/11/76 TGR-76009-D1 817 25.0 9 7 7 AUX RCW B FEED PP1150 2/23/75 BRA 150-75-D2 B17 25.0 SST 10T 10T PP1150 7/17/78 TGR-78007-D1 B17 18.7 1A8Bl6C 1A6B12C 1A4B10C AFT RPR- SRVC FAILURE (CT)

PP1151 2/23/75 BPT150-75-D2 B17 25.0 55T 10T 10T PP1151 7/19/78 TGR-78007-D1 B17 18.7 2A2383C 2A1983C 2A14B3C AFT RPR- SRVC FAILURE (CT)

PP1152 2/23/75 B R A150-75-D2 B17 25.0 SST 10T 10T Page 10 S/12/88

TVA BFN CABLE ACCEPTANCE TEST RECORDS SUhMARY

[

I l CABLE NO DATE DOCUMENT PRO kV 1 MIN 5 MIN 15 MIN REMARKS ,

PP1153 2/23/75 B R A150 D2 817 26.0 SST 10T 10T PP1154 2/23/75 B R A150-75-D2 B17 25.0 ST ST ST

PP1154 8/22/77 TG R-77010-D 1 B17 25.0 29 21 20 B PHSTRESSCONEDAMAGED I PP1154 8/22/77 TGR-77010-D1 B17 25.0 2 2 2 AFTER REPAIR PP1155 2/23/75 B R A 150-75-D2 B17 25.0 ST ST ST PP1159 2/23/75 B R A150-75-D2 B17 25.0 GT 6T 6T -

1 PP1160 2/23/75 B R A150-75-D2 B17 25.0 6T 6T 6T PP1161 4/7/75 TGR-75012-D1 B17 25.0 24T ST 4T PP1162 4/7/75 TGR-75012-D1 817 25.0 24T ST 4T PP1164 4/7/75 TG R-75012-D 1 817 25.0 24T ST 4T PP1165 4/7/75 TGR-75012-D1 B17 25.0 24T ST 4T

PP1169 4/3/76 TGR-76009-D1 B17 25.0 2 2 Fall SPLICE FA! LED-REWORKED

, PP1169 4/3/76 TGR-76009-D1 B17 25.0 2 1 1 AFTER REPAIR PP1170 4/1/76 TGR-76009-D1 817 25.0 4 2 2

, PP1171 3/2/76 TGR-76009-D1 817 25.0 9T 4T 3T l PP1172 3/2/76 TG R-76009-D 1 817 25.9 9T 4T 3T j PP1173 2/3/76 B R A 174-76-D 1 B17 25.0 1T IT IT 1

PP1173 6/16/78 BRA 232-78 B17 25.0 5 4_ 3 AFT RPR-SRVC FAILURE (CT)

PP1174 2/3/76 BR A174-76-D1! B17 25.0 1T IT IT

PP1175 2/3/76 B R A174-76-D 1 B17 25.0 1T IT IT PP1176 2/3/76 B R A 174-76-D 1 B17 25.0 1T IT IT I

PP1177 8/6/75 B R A158-75-D 1 B17 25.0 13T ST ST I

PP1178 8/6/75 IB R A158-75-D 1 B17 25.0 13T ST ST PP1178 6/15/80 LWB-372 E58 18.7 6 5 5 PP1179 8/6/75 BRA 158-75-D1 B17 25.0 12T 3T 3T PP1179 6/15/80 LVVB-372 B17 18.7 3 3 3

PP1180 8/6/75 BRA 158-75-D1 817 25.0 12T 3T 3T PP1235 2/23/75 BRA 150-75-D2 817 25.0 35T 6T 6T PP1236 2/23/75 B R A150-75-D2 B17 25.0 35T 6T 6T J

PP1245 2/23/75 BRA 150-75-D2 B17 25.0 35T 6T 6T PP1246 2/23/75 B R A 150-75-D2 817 25.0 35T 6T 6T PP1254 2/23/75 BRA 150-75-DF B17 '25.0 26T 24T 24T j PP1255 2/23/75 BR A150-75-D2 B17 25.0 26T 24T 24T

PP1263 2/23/75 BR A 150-75-D2 B17 25.0 9.5T 8T 8T

) PP1264 2/23/75 B R A150-75-D2 B17 25.0 9.5T 8T 8T j

Page 11 9/12/88 l

I

TVA BFN CABLE ACCEPTANCE TEST RECORDS SUhMARY ,'

CABt.E NO DATE DOCUMENT PRO kV 1 MIN 5 MIN 15 MIN REMARKS .

PP1275 4/10/75 TGR-75012-D1 817 25.0 8T 31 2T PP1276 4/10/75 TGR-75012-D1 817 25.0 8T 3T' 2T PP1284 4/10/75 TGR-75012-D1 B17 25.0 8T 3T 2T PP1285 4/10/75 TGR-75012-D1 B17 25.0 8T 3T 2T PP1293 8/1/75 B R A158-75-D 1 B17 25.0 12T ST ST PP1294 8/1/75 B R A158-75-D 1 B17 25.0 12T ST ST PP1303 8/1/75 B R A158-75-D 1 817 25.0 12T ST ST PP1304 8/1/75 BRA 158-75-D1 B17 25.0 12T ST ST PP1312 10/31/75 TGR-76001-D1 B17 25.0 7T 6T ST PP1313 10/31/75 TGR-76001-D1 817 25.0 7T 6T ST PP1322 11/3/75 TGR-76001-D1 817 25.0 4 4 5 PP1322 11/3/75 TGR-76001-D1 817 25.0 3T 4T 8T PP1323 11/3/75 TGR-76001-D1 B17 25.0 4 4 4 PP1323 11/3/75 TGR-76001-D1 817 25.0 3T 4T 8T PP1331 4/22/76 TGR-76009-D1 B17 25.0 48T 30T 28T PP1332 4/22/76 TGR-76009-D1 817 25.0 48T 30T 28T PP1350 6/9/79 TG R-79001 -D 1 M13 25.0 9 8 7 PP1352 6/8/79 TGR-79001-01 M13 25.0 8 7 7 PP1354 6/9/79 TGR-79001-D1 M13 25.0 8 7 5 ~

PP1356 6/9/79 TGR-79001-D1 M13 25.0 4 4 3 PP1358 6/9/79 TGR-79001-D1 M13 25.0 25 18 15 PP1360 6/9/79 TGR-79001-D1 M13 25.0 13 13 11 PP1362 6/9/79 TGR-79001-D1 M13 25.0 18 18 16 PP1364 6/8/79 TGG-79001 -D 1 M13 25.0 7 7 7 PP1366 6/9/79 TGR-79001-D1 M13 25.0 24 16 11 PP1368 6/9/79 TGR-79001-D1 M13 25.0 22 22 21 PP1370 6/9/79 TGR-79001-D1 M13 25.0 10 8 7 PP1372 6/9/79 TGR-79001-D1 M13 25.0 6 6 5 PP1375 6/2/79 TGR-79001-D1 M13 25.0 4 3 3 PP1377 6/5/79 TGR-79001-D1 M13 25.0 8 8 8 PP1379 6/3/79 TGR-79001-D1 M13 25.0 5 3 3 PP1381 6/4/79 TGR-79001-D1 M13 25.0 12 12 12 PP1383 6/4/79 TGR-79001-D1 M13 25.0 16 15 15 PP1385 6/4/79 TGR-79001-D1 M13 25.0 18 18 18 PP1387 6/4/79 TGR-79001-D1 M13 25.0 8 8 7 Page 12 9/12/88

TVA BP.;f CABLE ACCEPTANCE TEST RECORDS SUhNARY -

l l CABLE NO DATE DOCUMENT PRO kV' 1 MIN 5 MIN 15 MIN REMARKS PP1389 6/4/79 TGR-7S001-D1 M13 25.0 15 14 13

! PP1391 6/3/79 TGR-79001-D1 M13 25.0 16 16 16 PP1393 6/4/79 TGR-79001-D1 M13 25.0 16 16 15

){ PP1395 6/3/79 TGR-790Cf-D1 M13 25.0 10 8 7

[ PP1397 6/5/79 TGR-79001-D1 M13 25.0 13 12 12 PP150 1/18/77 TGR-77003-D1 817 25.0 3 3 3 PP155 1/18/77 TGR-77003-D1 B17 25.0 1 1 1 PP1600 6/5/78 B R A228-78-D 1 817 25.0 220A260B330C 105A125B216C 90A98B180C TESTEDSIX CONDUCT $ PHASE PP1601 6/11/78 BR A228-78-D 1 B17 25.0 210A200B220C 100A115B125C 81A91896C TESTED SIX CONDUCTSPHASE PP1602 6/1/78 B R A228-78-D 1 B17 25.0 90A160B80C 74A120B54C 65A110844C TESTEDSIX CONDUCTSPHASE PP1607 5/20/86 18.7 14T ST ST 1 PP1608 5/20/86 18.7 IST 6T 6T PP1609 5/20/86 18.7 11T 6T ST PP1610 5/20/86 18.7 14T ST ST PP1611 5/20/86 18.7 IST 6T 6T PP1612 5/20/86 18.7 11T 6T ST PP1616 5/20/86 18.7 14T ST ST PP1617 5/20/86 18.7 14T ST ST PP1618 5/20/86 18.7 IST 6T 6T PP1619 5/20/86 18.7 IST 6T 6T PP1620 5/20/86 18.7 11T 6T ST PP1621 5/20/86 18.7 11T 6T ST i PP1634 5/20/86 18.7 14T ST ST PP1635 5/20/86 18.7 IST 6T 6T i PP1636 5/20/86 18.7 11T 6T ST PP17 12/11/73 BJH79-D1 B14 25.0 1 DID NOT RECORD BY MINUTE PP18 12/11/73 BJH79-D1 B14 25.0 1 DIDNOT RECORD BY MINUTE PP18 3/30/76 TGR-76009-D1 B17 25.0 7 5 5 NEW CARI E ADDED BYSPUCE PP275 7/18/72 BJH43-Di B14 25.0 9 DID NOT RECORD BYMINUTE i -PP33 3/23/72 BJH43-D1 B14 25.0 2 DIDNOTRECORD BY MINUTE PP33 2/16/86 MRA637512GTB 18.7 OA4BOC OA4BOC OA480C

PP34 3/23/72 BJH43-D1 B14 25.0 2 DID NOTRECORD BY MlNUTE 1 PF36 10/29/70 BJH52-D1 814 17.6 6A4B6C ONE MINUTETESTONLY j PP37 9/14/71 B R A61 D 1 814 17.6 1 DID NOT RECORD BYMINUTE 1 PP39 3/31!711BJH52-D1 814 17.6 1A181C ONEMINUTETESTONLY j Page 13 9/12/88 I

4

_m ~ _ _ __ . - - - _ , , ~, m - --

,, ,,r. y -_ ,,_

TVA BFN CABLE ACCEPTANCE TEST RECORDS SUWAARY -

CABLE NO I DATE IDOCUMENT PRO kV 1 MIN 5 MIN 15 MIN REMARKS "

PP40 9/14/71 B R A61 D 1 B14 17.6 1 DIDNOT RECORD BY MNUTE PP42 4/9/71 BJH52-D1 814 17.6 1A281C ONE MINUTETESTONLY PP425 7/2/71 BJ H 17-D1 B14 17.6 10A482CT ONEMINUTETESTONLY PP426 7/2/71 BJ H17-D 1 814 17.6 10A4B2CT ONEMNUTETESTONLY PP427 7/2/71 BJH17-D1 814 17.6 10A4B2CT ONEMINUTETESTONLY PP429 7/2/71 BJ H 17-D1 B14 17.6 2A688CT ONEMINUTETESTONLY PP429-lE 12/24/75 TGR-76001-D1 B17 25.0 10T 10T 10T PP43 9/14/71 B R A61 D 1 B14 17.6 0.1 DID NOT RECORD BY MINUTE PP430 7/2/71 BJ H 17-D1 B14 17.6 2A688CT ONEMNUTETESTONLY PP430-lE 12/24/75 TGR-76001-D1 B17 25.0 10T 10T 10T PP431 7/2/71 B,* H 17-D 1 B14 17.6 2A6B8CT ONE MINUTETESTONLY P P431 -IE 12/24/75 TGR-76001-D1 B17 25.0 10T 10T 10T PP433 7/2/71 BJH 17-D1 B14 17.6 6A482CT ONE Mh4UTETESTONLY PP434 7/2/71 BJ H 17-D1 B14 17.6 6A482CT ONE MINUTETEST ONLY PP435 7/2/71 BJ H 17- D1 B14 17.6 6A4B2CT ONEMINUTETESTONLY PP438 7/2/71 BJH17-D1 814 17.6 2A284CT ONE MINUTETESTONLY PP439 7/2/71 BJ H17-D1 B14 17.6 2A284CT ONE MINUTETESTONLY PP440 7/2/71 BJ H 17- D 1 B14 17.6 2A2B4CT ONE M!NUTETESTONLY PP442 7/2/71 BJH 17-D1 B14 17.6 3ASB10CT ONEMINUTETESTONLY PP443 7/2/71 BJ H 17-D 1 814 17.6 3A5810CT ONEMINUTETESTONLY PP444 7/2/71 BJ H 17-D 1 814 17.6 3ASB10CT ONEMNUTETESTONLY PP446 4/29/71 BJH17-D1 B14 17.6 .5A.58.5CT ONE MINUTETESTONLY PP447 4/29/71 BJH 17-D1 B14 17.6 .5A.58.5CT ONE MINUTETESTONLY PP448 4/29/71 BJ H 17-D1 814 17.6 .5A.58.5CT ONE MINUTETESTONLY PP45 3/29/71 BJH52-D1 B14 17.6 5A483C ONEMINUTETESTONLY PP450 3/1/72 BJH29-D1 814 17.6 6T ONEMINUTETESTONLY PP451 3/1/72 BJH29.D1 'B14 17.6 6T ONE MINUTETESTONLY PP453 3/1/72 BJH29-D1 814 17.6 6T ONE MINUTETESTONLY PP453-IE 1/26/76 BRA 174-76-D1 B17 25.0 2T 2T 2T PP454 3/1/72 BJH29-D1 B14 17.6 6T ONEMINUTETESTONLY PP454-lE 1/26/76 B R A174-76-D 1 817 25.0 2T 2T 2T PP456 3/1/72 BJH29-D1 B14 17.6 4T ONEMINUTETESTONLY PP457 3/1/72 BJH29-D1 B14 17.6 4T ONE MINUTETESTONLY PP459 3/1/72 BJH29-D1 B14 17.6 2T ONE MINUTETESTONLY PP459-I A 1/15/76 B R A174-76-D 1 817 25.0 3T 2T 2T Page 14 9/12/88 W -- , - - - - - -- -_ -a - m - - --e - --+ m- ~ _n " -- -_

~

TVA BFN CABI E ACCEPTANCE TEST RECORDS SUPA.iARY CABLE NO DATE DOCUMENT  : PRO kV 1 MIN 5 MIN 15 MIN REMARKS ,

PP46 4/9/71 BJH52-D1 814 17.6 1A181C ONE MINUTETESTONLY PP460 3/1/72 BJH29-D1 814 17.6 2T ONEMINUTETESTONLY PP460-I A 1/15/76 B R A174-76-D 1 B17 25.0 3T 2T 2T PP462 3/1/72 BJH29-D1 814 17.6 4T ONE MINUTETESTONLY PP462-lE 1/6/76 B R A168-76-D 1 B17 25.0 2T 2T 2T PP463 3/1/72 BJH29-D1 B14 17.6 4T ONEMiNUTETESTONLY PP463-lE 1/6/76 B R A168-76-D 1 B17 25.0 2T 2T 2T PP465 3/1/72 BJH29-D1 B14 17.6 4T ONEMINUTETESTONLY PP465 1/25/73 BJH69-D1 814 25.0 2 DID NOTRtECORD BY MINUTE PP465 10/25/74 TGR-74003-D2 B17 25.0 10T 9T 8T PP465 2/16/76 B R A174-76-D 1 B17 25.0 3T 2T 2T PP466 3/1/72 BJH29-D1 B14 17.6 4T ONE MINUTETESTONLY PP466 1/25/73 BJH69-D1 B14 25.0 2 DID NOT RECORD BY MINUTE PP466 10/25/74 TG R-74003-D2 B17 25.0 10T 9T 8T PP466 2/16/76 B R A174-76-D 1 B17 25.0 3T 2T 2T PP468 3/1/72 BJH29-D1 814 17.6 18T ONE MINUTETESTONLY I PP469 3/1/72 BJH29-D1 B14 17.6 18T ONEMINUTETESTONLY PP47 7/18/72 BJH43-D1 B14 25.0 1 DIDNOT RECORD BY MINUTE PP471 3/1/72 BJH29-D1 B14 17.6 18T ONEMINUTETESTONLY PP472 L/1/72 BJH29-D1 B14 17.6 18T ONE MINUTETESTONLY PP475 10/16/75 TGR-76001-D1 B17 25.0 8T 3T 2T PP476 10/16/75 TGR-76001-D1 B17 25.0 8T 3T 2T ppa 77 10/16/75 TG R-76001 -D 1 B17 25.0 8T 3T 2T PP478 10/16/75 TG R-76001 -D 1 B17 25.0 10T 3T 2T PP479 10/16/75 TGR-76001-D1 817 25.0 10T 3T 2T l PP48G 10/16/75 TGR-76001-D1 817 25.0 10T 3T 2T PP481 10/17/75 TGR-76001-i'1 B17 25.0 28T 8T 4T l PP482 10/17/75 TGR-76001-D1 817 25.0 28T 8T 4T PP483 10/17/75 TGR-76001-D1 817 25.0 28T 8T 4T PP484 10/17/75 TGR-76001-D1 B17 25.0 IST 8T 8T PP486 10/17/75 TGR-76001-D1 B17 25.0 IST 8T 8T PP493-Il 2/6/76 B R A174-76-D 1 817 25.0 2 1 1 PP495 7/31/71 B R A61 D 1 814 17.6 1A181C DIDNOTRECORD BY MINUTE PP495-1 2/9/76 B R A174-76-D 1 B17 25.0 1 1 1 PP497 2/9/76 GAB-49 B17 25.0 2 1 1 Page 15 9/12/88

TVA BFN CABLE ACCEPTANCE TEST RECORDS SLWBAARY ,'

CABLE NO DATE DOCUMENT PRO kV 1 MIN 5 MIN 15 MIN REMARKS .

PP50 7/18/72 BJH43-D1 B14 25.0 4 DID NOT RECORD BY MINUTE PPS25 7/31/71 B R A61 D 1 B14 17.6 2 DID NOT RECORD BY MINUTE i PP55 9!7/71 B R A61 D 1 B14 17.6 1 DID NOT RECORD BY MINUTE l PP550 11/2/71 BJH26-D1 814 17.6 6 ONEMINUTETESTONLY l PP550 9/5/72 BJ H47-D 1 B14 25.0 8 DID NOT RECORD BY MlNUTE j PP550 11/21/72 BJH58-D1 814 25.0 4 DIDNOT RECORD BY MINUTE PP60 9/7/71 B R A61 D 1 B14 17.6 2 DID NOT RECORD BY MINUTE PP625 4/24/71 BJ H 17-D1 B14 17.6 1A181C ONE MINUTETESTONLY PP629 4/29/71 BJH17-D1 814 17.6 2 ONE MINUTETESTONLY PP629-II 2/29/76 GAB-59 B17 25.0 16 15 15 PP633 4/24/71 BJ H 17-D 1 B14 17.6 1A181C ONEMINUTETESTONLY PP633 47/21/88 DNS-88-008 18.7 2 1 1 PPS33-lE 8/22/72 BJH47-D1 814 25.0 6 DID NOT RECORD BY MINUTE PP633-lE 'S/6/75 B R A152-75-D 1 B17 25.0 3 3 3 PP633-lE 1/3/76 TGR-76001-D1 817 25.0 2 2 2 PP634 7/31/71 B R A61 D 1 814 17.6 2A2B2C DID NOT RECORD BY MINUTE j PP637 7/31/71 B R A61 D 1 B14 17.6 1A181C DID NOT RECORD BY MINUTE i PP637 3/25/88 DNS-88-002 18.7 1 1 FIVE MIN ONLY PP641 9/29/72 B R A77-72-D 1 B14 26.0 4 DID NOTRECORDBY MINUTE PP642 9/29/72 B R A77-72-D1 B14 26.0 2 DID NOT RECORD BY MINUTE PP643 9/29/72 B R A77-72-D 1 B14 26.0 4 DID NOT RECORD BY MINUTE PP65 12/22/70 BJH10-D1 B14 17.6 SPUCES FAILED-REWORKED j .PP65 1/31/71 BJH10-D1 B14 17.6 40A34C38CT 25A28B30CT f

PP66 12/22/70 BJH10-D1 B14 17.6 SPUCES FAILED-REWORKED l PP66 1/31/71 BJH10-D1 B14 17.6. 40A34C38CT 25A28830CT

! PP75 9/5/75 TGR-75020-D1 B17 25.0 4 4 3 i PP75 4/24/80 LWB-371 B17 18.7 4 2 2

, PP83 9/5/75 TGR-75020-D1 817 25.0 7 5 6 l .PP91 9/4/75 TGR-75020-D1 B17 25.0 18 15 15 i PP91 5/21/80 LWB-371 B17 18.7 17 12 10 '

PP99 9/5/75 TGR-75020-D1 B17 25.0 43 27 15 j

T-PP629 5/18/75 TGR-75012-D1 817 25.0 3 1 1 l 1/19/86 SHM-179 18.7 13 11 10 NOCAERENOONTESTRECORD l

i Page 16 9/12/88 i

1

, i ATTACIPfENT F BMi Unit 2 Class IE, 4kV Walkdown Data i

l I

l C194 I

ATTACIIMENT F This attachment contains walkdown data for the fo13cwin3 Unit 2, Class 1E 4kV circuits:

ES13-I ES50-I ES75-I ES88-I ES100-I ,

ES113-I I ES141-I ES189-I ES2513-I ES2550-I ES2588-1 ES2641-I ES2575-1 ES2689-I t

I i

i i

C194

i M Interoffice Correspondence DATE September 10,199fLE REF.

To J Simmons OFFICE LOCATION Ebasco Elec.

FRou B Ufer OFFICE LOCATION Ebasco Elec.

SUSJECT CABLE ISSUES EVALUATION Attached are the advance evaluations for the fourteen cabica you requested.

nis evaluation consisted of 1) detemining the cables are in conpliance with the bend radius criteria of Design Standards DS-E12.1.5/E12.1.13 as specified by Ccr.eral Construction Spc.cification C-38 and 2) detemining thez requirement for vertical support as required by Design Guide DC-E13.1.1 and construction specification C33.

His information vill be contained in the final report with the ren.ining cables evaluated being prepared for transuittal to IVA, Attachnent: Cable Evaluation (Copies) 1.'alkdown Packages (Copies)

Bb' s b 0 91

BE'ID RADIUS ANALYSIS Cable Bend Radius

!! umber Vertital

_( 12 X OD) Support (Pass / Fail) (Pass / Fail)

ES13-I Fail Fail ES50-1 Fall Fail ES75-I Fall Pass ES88-I Fail Pass ES100-I Fail Pass ES113-I Fail .

Pass ES141-I Fail i ES189-I Fail l Fail Fail ES2513-I Fail ES2550-II Fail Fail Fail i

ES2575-I Fail I EL2588-II Fail l Fail Pass ES26Al-I' Pasa til ES2689-II Fail 1

F

).

.l ATTACHMENT G 4

Supporting Calculations / Basis For Applicability To Cable Issues ,

a I!

j -

t t

1 i

4 1 ,

l i

r t

b l

i

-l 1

1 l

i C194 i

I f

_ - - _ - . _ _ __. . _ _ - - - , _ . . . - _ . . - . - , . . - - . _ _ _ . ,. . , _ . . . - . . - - . . . ~ . . _ .

4

T .: . . . 1. . . " ~. .' . 17. .:.*." -

'C.'....'.

TVA' 10697 (ONE 446) DNE CALCULATIONS QA RECORD SIDEWALL PRESSURE e JAM RATIO ~ ~"" erupey2 PREPARING ORGANIZATION KEY NOUNS (Consult RIMS DESCRIPTORS LIST)

GED / BFNP CASLE PULL > CONDUIT FIL L 8R ANCH/ PROJECT lOENTIFIF R$ e t e calculations are assued preparers must ensure that the orginal IRO) RIMS eccession an u r nws' uni nms acension =n%r E.D-G Z499-860544 a

B22 '880923 140 APPLICABLE DE$1GN DOCUMENT ($)

R_

N/A n_

SAR SEgTIONtSi UNIQ $ YS T E M($)

Hlh Hlh R-Revision 0 R1 H2 R3 Saf ety4 elated ?

a e Not Appl # cable)

Yes @ No O ECN No. (or -

" " " 7 [t d % y. n i, THis CALCULATl0N 19 159uED Cunwf) , TO SUPIURT EXISTING CABLE /

n e,,, i n a CONDUlT IMSTALLATION AT A

Approved N"$W M*H bFN 9IMILIAPs TO THAT

/

$ m a. DISCUSSED IN THE SGlN

'N 7/ y /'o g TECHMICAL EVALUATION ust sii pion added j by this revision.

REPOR.T (. 401 870312.023 3

]>

i j IJst all pages deleted

• g; by this revision,

}$l List all pages changed by this revision.

Abstract l ORIGINAL Tnese calculatsns contain an unverified assumption (s) that must be verified later. Yes O NoK FSA R COMPL1 ANC.E k Vh3[8f

,,9 GV / ^

(O TH1's CALCULATION PROVES THAg 11MdM ALLOWABLE Putt FORCE NOR HA%) MUM slDEWAg , U ULD HAVE BEEN E%CEEDEO DURING THE INST 'hTION NG CABLE GWM12S4 )

AND CoNDUlT (lNMl2.D)

(2) TMW CALCULA7100 PMVE9 TNA'T THE JAM RATIO POR TNE CABLE'G WALKED DOWN IS IN THE ACCEPTABLE RANGE.

(5) THlb CALCUUrTIOU DETERMINES JAM RATIO FOA FOME CABLES WERE THE INPUT DATA M NoT ADEGUATE FOR dA PURPOSEG , THl5 19 '

. 7, ACCEPTABLE AMD UlLL NOT BEBECAUGE USED. THESE THE VE7EAMINATION 19 Poi in)FOKHATICU 0NLs CABLES ARE PENorED # .

?

?2' O u.croldm aad store catewi ieons t. RIMS service center. CALCULATION LIBRAM O weroram ad meen c.icot.iens io: eos n s u,ero'a= *ad oeiirov. 0 sa:y

,,,,,7g,g- g,, 4 g gg [ -

cci eius,sL 26 c*

~

, L , ';, -,r g.,y e y.vg. t y - ~'

-n.. , . = ~ .

' Q ., { (. , .

J REVISION LOG l nii ,

SIDEWALL PRESSURE T JAM RATIO ED-G 2094-68059 4 Revision Date No. DESCRIPTION OF REVISION AP9f0ved J

as i

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d m .....i.~ .. .,,,

, . .- & _.7

Y ~

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. ~ ]. ,'gij['[gM2F 7M . ., ; = %

= .: . :.=.: - . : - - .-- . .-. .

1 SHEET LLt CFI7 I

CAI.CUl.ATION DESIGN VERIFICATION (INDEPENDENT REVIEW) FORM ED-02999 -86054+ R oo Calculation No. Revision Method of design verification (independent review) used (check method used):

1. Design Review V

2. Alternate Calculation _,,,;

3. Qualification Test .

Justification (explain below):

Method 1: In the design review met' ,d, justify the technical adequacy of the calculation s'nd explain how the adequacy was verified (calculation is similar to another, based on accepted handbook methods, appropriate sensitivity studies included for confidence, etc.).

Method 2: In the alternate calculation method, identify the pages where the alternate calculation has been included in the calculation package and explain why this method is adequate.

Method 3: In the qualification test method. identify the QA documented source (s) where testing adequately demonstrates the adequacy of this calculation and explain. *

% Palculaha, is behauwith, .ruleenmie Insad

. ~G prom >g On th> rise c't d winis in orte f~ ntnd swH1hnkal

~

, . I,, . / ~ ./ ./ _ _

.C'ctm hu tn h on t?) t9:Oris ns AramRfd bu DRcus t I

'lM5tn.1

( % l-fnia

/ , 9 1 i NRAW bFAi - 50 '75Y n tid nuon Hd hasdh&R>

/.  ! . ~ > _

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~

1. 1 2 H1bd O L 0c,htt ,k_ u n d en W N1 cfR u i li_ c is -"'

8,hMi,flt*n l._ nts__ [r-Ni 1 3//A

/ Design Verifier ' Dat6 -l (Independent Reviewer)

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T.

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. .; Gi:d5%

n.--n -~ ew= h fi'& ' . . Mi!'i T i'+'#f Y W W -

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SIDEWALL PRESSURE *? ~ JAM RATIO hD-a2994-82 544' SHEET ilii ParrAnzR 93F DATE 4-27.tr CHECKER f(( DATE 9 23.gp BF N - F9A Ps COMPLI AMC E .

Cl\ APTER 8. Oi- TiiE BFN FSAR WA6 REVIEWED FOR COMPLl AllC.E B ') lHB CALCULATION FOR CONDUlT / CA'BLE INS TA LL ATION. THIG CALCULATION COAlPLIE9 W)TH THE BFN - FSAR l

o e

4

)

, . .?

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, = fit i

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- _.. . . . . . . . .. 1 L l, L i \. IT ED a 2/199 -5TO54 +

4

v. nn 1-2 51y m o.n .

.. . ). 23. 8.8..

1 TABLE OF CONTENTS i

SHEET ]

l i

4. PURPOSE 1 l

9. ASSUMPTIONS f .

i 3. RE FE REUCE G $

i I

ti . DEOlGN INPUT .DA TA 2 L

t i 5. CALCU LATICN 9 3  !

i t

L CONCLU91 OMS I6

7. SU PPOR, TING ORAYR\Ce, 7  ;

I l

8 REVl610N Lod ([  !

. t i

9. CALCULATidN DE6l6M VEE 1FifATOU ((i. l l

i 10 . P;FN - FGAR COMPLI ANCE lt(t ..- I

' ..... i

11 . TABLE OF CONTENT.G M L LI. i.

P

, I 1

et

=

g .

(

9 e.

e , . . .

c . *k  ?

5

• ~

. ' r'd

~.

. *' n' , **f . * ',;((

• jd"

,. - 'NC .*, f .? .- g

.+ ;.ey-=w

x. . Fr =5%.te e. 15mg*+  ::- e s.r - '

-~ C *-,

l . ,,

,,,,_;_. : * *: . . :' * ::. 2 : '. .WW.r:1* Wh%

i

. .  : . 3

,' . I l'1 EO -G 2 999 -V705++

.~u s 9 M -gg w e .' S-23 88 A_ ?_UEPOSE TO DETERMINF. THE 7AM RATIO FOR THE WALKDOWN ,

CABLES AND C.ONDulT6, AND 9/DEWALL PR ESS URE O!" CABLE INM 12E6 / COAIDUlT /NM I263 J2. A99UMr10NS (.None . seE EXPLAMATION BELDW)

THE INFDAMATION FOR CABLEG WITh

• 19 UNVERIFIED.

l CABLE MARR LETTER NOT C<lVEM IM WALKDOWM PAcrA056, MARK LETTER TAKEN FFOH A9-JESIGM G48tE SCtfEDULF, .

THlb IS ACCEPTh6LE SINCE Ttt %E ARE USED FCR INFol~

4 NATION ONL9 AND DO NOT RE'0111RE GLA LEVEL DATA .

3. REFE RENGS 3.1 ELECTRICAL DESWN 97AMPARD D9 -E 12.l. lb R2 , l i

i CLASS IE CABLE ops AMD WBIGHTS ,,

3.1 ELECTRICAL DE5GM STAMDARD , DS- E I 5, l .4 RI . NAX/Nuff C4BLE DIAMETER FOR VARIOUS RIG 1D STEEL"

,h 3.3 ELECTRtCAL DEGICrN 5TAMDARD DS- E 15,1.7 R 2 ," DlNE#7loAl,4 d 3

[l

=

OF RIGlD AND PLEXlBLE METAL CONDulT BENDS." ,,,f

. .i.. =,,ra;. -

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..; ?Y ?:j b  ?'.*1 k^

I smet 2. or 17 ED -O 2 994 -22054-w comte iMil ... N P R

~

cue.i, W .,i 9 23-28

.;.q ..

. \. [? ,

3. 4 C.E N ERAL CONSTKUCTION SPECIFlCATION ' 6 - 38 , R 8. -

"lN9TALLING INSULATED CABLES RATED UP lTO I

15 000 V OLTG " , SRN G 38-26 .,

3. 5 TVA D WINCr5 45 C 800 SERIEG , " Col /DUIT w CABLE JCHE.DULE*

3. 6 a.T R BFN EEB 56 010 R2 ( (b 22 8,0 0728 001) ,

j ., .'

r .

i.  :

r

4 PE916N INPUT' PATA . .

4.1 CONDU)T NUMBER AND COUDUIT 972E  : .

W ALRDoW M - PACKAGE l

42. M AR.E LETTER ( RE F,

• 3.5 ) , AVERAGE CABLE OD

(. RET. " 3.1 ') CONDulT lU6/PE DIAME TER ( LEF. " 3.2)  ;

p i -

j ..  :

PEE TA6LG 5.I .;  ;

4.3 W D - 333

, T s b - E o 3 to c4et.c assucs ,

{

.  : i 4.4 W D - 3.3 41 WI-soab costE is14Ei ',

+

1 2 .

2 j ,e e . .

4. 5 WD-3341  ;

T5b -E63(, O # 8/.E /33us.s , ,'.

l

. . l ji J-

. Si .

l g 4. 6 WD-334i- y TS D - E b3(o cA8t.t issuss ; .

t

.. O L!j . . . . . .

'Y d

.~.=;${...deksrssg

. m - c. a -. .m h :q w g _ .- m  ;

satte '3' on l'7 ~

57)- g2193 - rgd 544

/ couputto_D) . oart 4{l3 -Ff cutento M(_ __ evr .9**SQ R 4: _ DESlGN INPWT DATA ( CONTIN 4E D )

4;,9 WD - 334 5, TSD -EO36 cpBLE ISSuss

4. 8 WD- 3 342 y TS D - E 036 OABLE 15 sus 5 4.1 WD - 3339 , TSD-E03b CABLE IS$UES

+.10 WD - 2346 j TSD -E036 CABLE /SSut5 i

+. l l WD - 3 34D, TSD - EO3G cngtt' Issues 4.12 WD-7064, T6D -ED% CABLE is suc s l

j

( 4.13 W D - 33 3(o 3 TSD -EO% CAELE /55vES 4.l4

WD- 3334, T3D -EDM CABLE issurs 4.15 W D - 3 3 39 , Tsb -E b3(, c4BLE IS$vES 1

l 4. l6 WD - 3337 Tsb - s o36, cAstr /ssucs i . . .

,t

! 5.0 C AL O UL A Tl otJ S

~

5.1 TAM RRTio 3

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4

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~ ..

g .

4 . . .. m . _ a r.: ~

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w

.. m g .. % ~ ? c ::~ g 2 2.,_~..,

.g g p. v - Q

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._ . _4.

,, .---- ... ..u, - 4 ,,

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@ -o z 99.9- U0544

^

( eo~ .1p . ,,,, .t n v v _

C"fe're _ s _.ean f

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s. CALCULA TION Cconfiswed )

3AM F ATl0 15 DETERMINED S t) RATID SETWEEN THE COMDUlT INSIDE DIAMETER C D) AhlO A CABLE Ol'ERALL DlA METER ( <f ) . ..

3AM RATIO = D -(REF. # 3.+)

cl i

I 2.q . I NM 12. 5 C I UAM RATIO > U= d = 3. 9 P ci i405 t

i THE TAM RATIO FCE. OTHER. CASLE S :  !

see rsete s.1 (uv 2.1, 2.2;u,)

A s 1i E '*s g _g ~

8

. j

- . . :: :1. :2, ,

' X l~ ? :T.&d.Q

^

h 4 .

l$1]&&, .;

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l

.. . .- ... . . . . - . . s m _5 or I7

,, -- ER_-G1999 5TQ544-

_ cemno_m eierf-11-st_

TABLE S . ,' cueneo2$ p om 9- Q-IG MAR % CABLE CONDUlT CONDUIT 3AM 3AM RATIO (

CABLE LET TER AgegDD .sl a.E RATIO Fall. IRE P 16 0{((it

L 36 + wDu .SM 2A - L 37 2. o7 3. <16 uo M935 ., wDD ,30+ 2 I,- M c 1910 2.07 6.81 No l

INI112 56 e W DF

. 405 l '4. A - l #M 1263 1.61 3.98 No i

l l L Iv?n\256 e wvF . A05 th - lHH 125'G l.05 2.59 NO 2 E ss f 7 2. 6-11 WVA 35 4 l'/I -z s9 27 31 r 1. 6 i 4 67 NO j

2 Y 4'2 , v166 .6 6 .

3A 1FL 37/6 3.07 5.0 / No ,

i t

2 V l200 < wGC-i .455 3A - 2 PL 3 709 3.07 6 7+ 'Nb i l

! 'A V 12. 00

• W4C l .456 l h A - 2 V 1200 1.61 3.54 no i

fV1219 e WCH l 0 712. 3A 2rt 3710 3.07 4.25 no j

l 2 2.V 12.1 8 4 wc}) I 0 722 lh A 2V1218 1.6 l 2.30 No 4

l 5 i e  ;

E 3t.s 2 50l < y)ch .l52 2 f A -3ES2SUD 2 41 lb .l2 5 NO

A

?

2

..- L ..

R ........f.2.. v, ,...Y. t ..M !n..

j

, :g rerq @;,e ,q ;..tvy.e-i_

,.i.n h.

i

-".*****---*.*~?.T..... ._.....-?--- ----

==--~~~~.---.-o---.y-~ ]

.. 1 ED -GT.qtltl -ffC $4-lt . 9HEET 6 Cr (1 l

_. u w .u - TU i sf -E J -N y.. . - , . . . . . . .. .. . Ni0l.E. N . I _

e..u c. r e 0

,,p.23 5 MAR % CABLE CONDulT CONDulT 7AM JAM RATIO cable LETTER AEOD .512.E RATIO FAILURE RAPUE om . D/@TIu. 2 80- 51 3PL S75 + W DG .472 3A - 3PL 3700 3 07 6 50 No 3PL 800

• WDF 405 i A 5Pl. 800 1 61 3.9P Ido SV 12.2 5 e WLC .496 3A -3Pt 3 700 3,07 6 .lCl do 1

'E5SO-I wtJB 950 34. Es 50 -I 3, o7 3.23 go E'.> SO .T WH6 .95b Ar-ES50-2 4 05 5.23 HD ESIS-I WNS . '/50 3A.69fM J ~3.07 3.23 ' t4 0 6 913 .T wno 950 4j; _ es a s -7 4 05 32.3 No

~~

E$ ll5 -T Qu6 950 5A - ES Il 5 -I 5.07 3.7.3 No 1

.. \

Es100-I wNo 950 3A -Es loo -I 3 07 3.23 'No l 3 E6 B B -T was 950 SA.ES M-7 3 07 3.23 14 0

?

? -

l 4

Es75-T wnB .950 3A-es 76 7 3.o7 s. z 3 NO .i.

I h

C

{

k ' ],

~ Mt/r. 73f

_;.:.-_:.rdi"f,22:it.1555Y$N"d h:  :. -

k-~ iY.5ks;~,CE5i'OM '

. . . -. . . . . . . - . . ~ . . . . . . . . . . . . . . -

. . . - - - - J. ..

' ' ' SHEET 7 OP 17 g o - ca 29 0 ~ 5T 0 544 i -

u~. no. u ,y q - n . n TA 6t.[ S.I '""" ?

i 9'13'89-l MARY, CABLE CONDulT 7AM CONDulT UAM R ATIO CABLE GTTER AgoD ,

.512. E ' o'('fUU, RATIO FAI1.gRE I i

l 1

E 5 2.6 75-3 WH6 .950 SA . E S 2 575-3 .3.07 3.23 MD i

. - . 1 E 6 141 -1 Wile-l I. 2 3 G 4A 5&l56-1 4 05 3 .'2 4 NO i

&S IS9 - T Win.-l ).13 6 4A ESI40 T 4 05 3. 2 G NO E 9 2 5l3 -I w n P, ,950 3A - E s 2 513-2  ;.o7 3.23 tJD  ;

i a

1 6.S 2 FI 3 .7I w h P., ,95 0 41-65 2513-2 4.03 3.2.3 NO O 264l- U WNE /.236 4A - E S 2 6 41-H el.03 3.'26 /JO i ES26R'i-U wnE I.236 AA -ES 2 G F1.E 4 05 3.z G ,gn 1.

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(

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59 25GO-D wris .9bD 3A -e s z S5011 5,07 3. z.3 No I ,

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I ES-l?SJT-U wns .'! 5 0 3A,I -es z5(Ff 3.07 323 No  !

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__. . . . . _ _ . _ . . . _ _ _ i __. ci, 6 o, 17  ;

i 6D. : Cl 7 9 94 - f6'A544

.-=.--*4.. .- ,.. w. . . - - . .

... - . . _ = comrio_nsy_earc Pt;-fr e ee.no ZW os,, 3M 8B i ,

5.2 91DEUALli PREbSURE CALCULATION .

5. 2 . \ THl! CADLES REGUllE 6/PEWALL PRESSURS ,

1 CA L CULA TION :

IllE CABLE 6 T/M T -

DO HDT SA TIbF Y APPENOIX F

i l

)

0F R E F.

• 3. 4 RE&Ul P.E SIDEk/A LL PES.5 UM -

i

{

4 i C/1LCULA TI LW , .SSE TA BLE 5. 2 . l I  ;

4 4

} l 1

TABLE 5. 2

. l 1 i l

j . .

j CdNDUIT NO. COND.Ltt#,. EQUIVALENT DEGREE ,

bl" SIZE BENDS Wu FULL TASS G-38. APPENDlx F l Fillt F0lN S polMTS s

r i

t

($1 - IN): l'165 2 3.04 r1 405' no l 1 ,

i l' 40 53 rr 17. ll ' 'JEC ..- l l

1 73 I -2 t 5 2731-11  !

j E.5 rr I 12.0* Ves [

l '

l -

2$,A - 36525 73 Q,75 n . 225' ty s .t ,

l l

l 1 73 A 3ftl'00 12.00 rr 11 4' 6 y es .

?

l 6 . i

)'

[

C 3A -2 t't 3715 Ao re romarion ]

i l

h.

~

__ . Z, :. . . . J' f j $

. . ,i_ .84:', 2 c.-$9" r .1.

l ur me.

SG

.,y.2;.:<.iii?sw,i2U '" 2.** l 4

2%  :

t

I or J ]

_ fatti 4

_.6.D. _CL2319- WC 54o copuvre O!' earc 9 - M t'Y l curcuse h este 9_. Q & B l

TA8LE 5.2 (conhuved) .

<0 11 1 0. C0W. LENG. EGulVALENT DE6 PEE W" BENDS WW PULL PAgg c.3p< , Arpgypix p i d' SI E.E

_ 11111 PolNTS P0 LMB bA -2PL $7/5 l40 IN(0111 A TI0f): .

l I

3A -2 ft 370G dcNbulT LENGTA AND ) r DEstts op ScNbs 20 T GivlH bh-2 PL 57/O IN WAnDoWN FAcuGE / ,

DA -2 rl 3 700 .

j

.M ta 50 -I 3

i;  ;

1 AA-esso-r .

. t 3A-Es13 t

.7  !

4 .

! 4.4 - c5 21 -I 1

t ,

j j

3A ESll3-I  :

i I

.* l

3 A - E s too -r I I I f 1

3b-Eb?O-1 l i 3b - E S 75 .T -

n 1

1 d

i i  !

5A - 692 5 75- U '

.- o q E 1 i y 2A - L 37  ; l

• }

V

! 'A - e s 2 5 ff n ,

'i.

I i

< . '1 ,

! R 2J,-pld /1/0 l .

'. c ..

/ a. 1.

aj 5:5 .rG% . i'.-

i .

.Q 45, * -* *y~ * * * ;L- >* .* g ?P

• re * ? #

• l I

d C~~**J UfM M E D lT M1.

a j

T.. .

. _ . _ wu e _LO_.. e ___ L7 El2..-A23.T']- $YLS4-4 _ . -

(

comno nt we 9-tHe e re eo @ u,, . h20 -g1

5. b SIDE WALL PRESSURE CALCULA TION FOR. INM I256 c ASLE / tolhi1263 C ONbtn~

DEstGN l^tPU TS:

C A BLE DIES 2 ~ I C. , # A- (Ref.

• s.s) i CASLE NA'/,. OD : ODnv = 0 42 (q.s s.ij t

CA BL E N!ElfrHT u, '

W = 0,18 Ik/g (a,[.'s.l)

CABLE BUNDLE WEIGliT . We = 3 , AI S 0. 3 6 Ihf, D/g j r 3 . 'l P (See t a ote er,s J

.( WElGHT CORRECT /CN lA' C70s  : We. = 1.0 C (tet* s.<)

i t

( -

Rs

~ We vK =. l.06 , 0.'5 = 0.32 (94'9.4) t h

j INNER R4Pluf 0F SE,'/D  : Rv .75 (R4

• 3.s) i i i j

c PO LL TEN 910N FOR ( Ref

• 3 4) . l

! 5,79 FT VERT) CAL RUN UFWARD .

l Tm =%L t r e.ioe. reason - l l = 0.36. .s 5.79 fl L.

I Li s 2.os lbs '

e' '

I

s. a .

l 3 3 .., .

t g I t

s n

, "I '

.y;_-4l.

o .

l' i 2 . ..irf: . T. * ' . dN?" ?

D .., - . ..- 2.2.:: '..%~ 555.Mi '

._...~.. ._ . . _ _ . $1. . ._.

"l 1

....----.--.-.-.._._......__.1

. m _11._ ., 17

_EO_.:0.1_t992MrQ5H

, - -- comno_M_ es,e _ <t- e t -s'y

(

e <e ee M d _ e.., hC 98  ;

j 90 * \lERT!fAL BEMD UPV)AP.D ,

i b - 90' = l. 57 ga h .,

T,uy =Le + WR. R g e#smh + (1.g')(1-e"cos6) l + h' . -

6

= 200eI. uni.s') + ( 0,3 6 ) (7.+s) r 2, o,32. e ")()40' m 4 l 1 + (6.32) * ,

t.n .

j (1 -+ (o.9)*)(1 - e > co.n>cos 90') l i

i ,

b @

3,41 + 2. +3. l.06 + l.o ll i i (. i- a  :

1 Tour =. e , + 7 ll>s .

1 i 4. 25 FT HORl Z,0N TA L R UM  :  !

r i'

1 j Tour = E. L % + Piuot. Tennor/  !

i  :. c,5 2 , 4 25 0 o. 5 6. $, + 8. 4 7 4

l

! Tooi  : 8, 96 lb -

l l .

A 5' HORIEOHTAL SEND.  :

l

~

Tcur  : In 6 *

- L ., Tm B.4cll:

l 0

i $

g

= 0. 9 6 2(..n> < c n> ) 4(* e 0.?9 u ( ,'

j a

g -. . ,. ._. .. ...

4

..~,.-. m.

g . . . . .  :- ..+3?ii.+ ka M,. =~'

~ .

= w ++-e:~~:.:m :x h %.w + a

~r-*" W T' f 'a."I;*; M D 5

- l 2. eF l'T

. 80-60 9'79- 770 5 % -

TD , MN '/-E) d C - . . _ _ . _ - _ . . . . _ _ _ . . . . _ . . _ Y. . _ . . .. 9._*_2. 3 95 i _

i our = l 1 54- Se t

. .2. 0 6 FT H C 712ctiTA !. R ut)  :

i L = 3 L '!) e + Peen, bar"

=. 0.32 , 2.02 " . c. 3G 4 4- 11.5+ Ur Te..; = 11. 7 8 li: l I

1

( 3 i

H' VERTICAL 39)L 11 P WA P. D :

4 i - t L e .3 -wR

i im =

n. s.ru b f ) (e.o-ccc.b) l i + v .~ .

f 11.7 s e'"""' c.m . 7. 4 5 2 939 c.m e' I

1t (O.32)1 L i

. 31. . . r , .

(4-(c.nf)(6 -

ces /o') e t

(

i I'1.47 -

.2.43 .

0.64 - f.46 ,

j = I4.47 t '2.04 -

I l J, i

R Tw= 21. S t lbs ' ~ . ..

f; %

i

.;1

. e;.

....n....

.-..t M.W W  :

l

• , I.'f 7 M'.*f 4 .

r f.-..

.. ..;7.'k.m n, '

l

., g -

.,.. a., i',, . . , . . . , ,-a.. .... - . - :__; . g-r

, %.v. ,,..a-o

.l

e. .: . . . . .. t.. . ..: .L:; p t.: , y:.n n ;; W ': % .T:' P S i ^155'~dt a; ' *:. $ f. >

M'Ik.3d'S.-Sh5%DJi'.1@N

';'i . *-1s%W Z n=g g mvt W L.,r y* t:.:. MUEfNiidP

,' ::2::sytMy

.y -.21. .#  :, +---* 3+t.1Jr

.... . mJ.J. , n. .:'.".n- :. '.;.t. .". r..

. . ..~.;.;. :; *:~rg.M. .

7 I

. is n 60 - 0 zW/- 89054 y f4 s-(f

( . - - . . . . . - . . ... . ..

TDth W)L'_. .

923*99 l

t

2. 6 7 F T VERTI CA L RUi) UPW/RD '.

! Tm = L%

• Prict l en:<ca l

\  :- 2.67 > 0.36 '%

+ 2I.5l l

. s- t .

lour = 32.7/ lo s 1 90* VERTICA L 3?.l! D l

i L = T,,,e e.n o v)

= 2 2. 4 7 6 + 0.36 7,45 2 (c.u) G Gin 90 *-

Ie(c.32)' ,

i f a6 (I -(0. 3 2 )'(l- 6 cor,90' l

...i

37.14 + 2. e , l . 0 6 + 0.40

- il . 9 0 lh t

\

4. 9 2. FT HORl201) TA L R U A/ . >

.N f f **

.. c x d b NL 4ZIt* mt 6 . . . . 0 W 1- ': bP ICE. H 4 /C,M --

y ,

. ym --- :

1: ._ ..

, . . . . . , , * ? '21* J ; .' 4 .v. , f."

ag .. -wa-:. .r./ er.s n

. . . _ .y,.,_.g _ .g , , , , . .

.- g . , . . . . . . . . -- 3 .,

4 .

,* . . :. :: . j e A .:.. .ac .m:.2nde..%.g. .m.._ .

wgg;-

e,nn t- ~-u---

3 g s&M <

n~

. p 3 1 Q. 2 ~ 5 rM.r v: yy3Q2 3 - - -.

< rc .5 **

- ., .vr.-sm.m

- pr.Mm ww7.s.

. - _. __ _ _-~ .- __

~

E P -G 2 9'99 - f'[c'O S'44 ru - 1-2 ; d[.  ;

C . _ _ _ _ . _ _ - - - _ . . _ _ . . . _ . . . _._ _ . _ . _ . . _ . .

9_.4_3_. 52 \

l i

Tw = c. 3 2 x 4. u. o , o. ? 6 $ -- al. n

= 4 2. 47 b; l

i l

4 90 VERT l CAL EEfD DDUf)WA RD I 1

) o <-

Imq = Iio 6 ~ e M z h W W - ( 1 - g ) ( e" c_ CMC')

I+S'y ,, ,

e 0 36 i

c. 4 2.4 7 e .n o.ro -- 7. .: 5 2 (c.!:) -

I + (c.!z?

l V C i m .-

l 5 o r. ci.r o

• l

. (4 - (0.m )3 e 1

2 . 4 3 '- O. 6 + - l . 4 f ,

I  : 70.I9 +

I 6 8./f b; .

x ,'

i, 3 3 3 FT V ER71C A L RU?) .DOWN WA RD

. o.

Lr .. -WL + pna fenew -

Li l

s. - 0.56  % > b. b6 (l + 6 6 .15 ~]

I a . ....+

.(

e

.T mr - . .G6.45 lb. .i mscrev rud~tswidv5e.,. .

u .:;i ? ;5. m 2 c 4 Y

~

i

~

.o

• y ,*Q ~ :- ' _ ***~= - p ,

. .s'.'.a_

g .'k',;. j.-r . s. .,  ;; ..;  ; g*yg. .. . .

~

N8d'I.' are%, M'F vl7fN3~23 v k:1 O-bG: $t.NT ONMkNb 'd

. .vew<

W .'-Vb' >

n '

- e % ,, s ^

.M i

t t * -',3 , . ~*;A ,

2di?Y !w'_ WWk _ _"~Sl'.-Ma'.t ^' %% tp'.'=2N . . .

f . - - . . .. _

__ _ _ _ __ _ - . __ _ - - - -. .#._y ..__,, m ____.,.._._,,,__-,m__,,,.-------,-e,.,y- --

l5 l 't

- 89 - 02 99 9 - VP0b~4 V Tu 7-2 A f t

( . . . . . . - - - - . . . - . -

. . - 9 .2. 3 ' 8...%?

I l

l lMNyd MU M A U.0'3 A B LE PU Lut/G FORCE F. , ;  ;

i Fn, = 0. 00 e - etnil - o8 l Ru = 0 00S >. 2. = + 1 7 'r C r 0. 0 l g,. .= 5.5 + . 2 7 Ilss 1

I

_M AXI M UM 6 /DE9 M1.1. PP.G MURE FOR INM 12 SC  :

( l

$WPn% = We T

2. 6 ..

I

!  : I.06 . 68.iS th5 I .2 s 0.63 3

I 1 l i

G W P -.,

4

= 57.33 JLc  ;

i

.a I

C/\ L C U t. Ait 0 0 yns tone

! futu26 '7~$C C A!L C ul' , TK M

p' ORS T* C A SC Dif LCTI 09J . \

l -

l l

4 f - - .

j 7' ,

,,_Jc ,

. eu niaJ I - . .

g ,~ .a-

~

n  :.:!Li

.a -t uLie.w. u a wwN.. .].

,l + . . .

, .. e

.i t y l s o .

. . f f b . g,g

,.+1 '

d ;th .

• • • e* O *\* s ** == p. L.' [.g11, ' m'{g w *j -%.* =2 _ - ** % ? .

i o

g

, M(' , ."W"3 4 p ;s-- -

....m = .,

2... 5.k* :: < .kT'.y,

._'h

=2p wC'q M :,gs.1e $' M M 'w.['22, r-a > + x-j:y.h:;__.

., = n.g.m. tmm,w . ,o l  %%E.O _*"*

%. m z,QJff f f&

i 1

saatt Ih or l7 so-a i9eo . Pr65r4 cowarto$eart _'7-77-W c,< ano 2 6 L w n .9 23 . n g 6 CONCLUSl0N9 :

6,1 EXPECTED PULL TEtBloN OF 6 B .15' /h> FOR 1

JNN125b bOES NOT EXCEED MAX 1 MUM ALLOWABLE j PULLIN(r FORCE

C 7. 11AYlMUM SIDEWALL PKE%URE 5 7.33 163 FOR 1

l l

I NM 12.5 6, DOES NOT EXCEED 1000 lbs. ALLM1ABLE l

FOR FDWER CABLE 9.

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