Addendum to Rev 1 of E-218, Ampacity Verification of Cables within Raceways Wrapped W/App R Fire Protection Barrier

ML20211J441
Person / Time
Site:	River Bend
Issue date:	09/26/1997
From:	Easter L, Heacock E ENTERGY OPERATIONS, INC.
To:
Shared Package
ML20211J416	List: ML20211J432 ML20211J441 RBG-44230, Forwards Response to 970512 RAI Re Thermo-Lag Related Ampacity Derating Issues.Encl Also Contains Supporting Calculations,Rev 1 to G13.18.14.0-178 & Rev 1 to E-218
References
E-218, E-218-ADD-R01, E-218-ADD-R1, NUDOCS 9710080124
Download: ML20211J441 (188)
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ATTACHMENT D l ---

l Calculation E-218, Revision i "Ampacity Verification of Cables within Raceways Wrapped with Appendix R Fire Protection Barrier" t-P

M CALCULATION COVER PAGE C^'j,,NO. -

v ADDENDU51 I

R 1

"- = -

_ ENGINEERING DEPARTMENT ATTACHMENT NO.;(as reautred)

~

JBI NO

• ENTERGY RIVER BEND STATION pxot 3 op 34 l

TITLE: Ampacity Venfication of Cables Within Raceways Wrapped wth SUPERSEDES: E 218 Rev 0 Appendix R Fire Protection Bamer E-218 Add A, Add B, Add C, Add D SUPPLEMENTS: NA CALCULATIO%,' STATUS:

O APPROVED OPENDING OCANCELED SYSTEM NO.: Various htARK NO,: Various CLASSIFICATION: O SAFETY RELATED NON-SAFETY RELATED: O QAPA O NON-QAPA PURPOSE / SCOPE / OBJECTIVE:

See Pages 5 and 6 CONCLUSIONS:

1 See page 28 SOFTWARE USED FOR CALCULATION: OYES O NO SDDF#! 6229.400-704-002A Manufacturer: General Physics Name PDMS. Plant Data Manacement Svitem Version / Release No, 10 80 00 CONFIRMATIONS REQUIRED: 0 YES E NO CONFIRMATION COh1PLETE: 0 YES O NO 9 N/A KEYWORDS: Cable Ampacity. Derating Factors, Fire Wrap, Thermolag E OT.

9.bv ib W - D b L t. %

it v 9 /29197 REUIEW & 4fPROV45

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MMM I

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• uhferaPang/Am P'

(' C "'" '

e (Printed Name C, or SN) g Design Venfication Reviewer (Printed Name, KCN, or SSN)

NO C-15 Pnnted Na, KCN, or SSN)

AA/S l

? OSO hhbh

1. GSU CALCULATION NUMBER:

CALCULATION TITLE PAGE g.218,nev.1

-c = _*

ENGINEERING DEPARTMENT h qay PAGE la O" !?L CALCULATION TITLE: Ampacity Verification of Cables Within

3. SUPERSEDES:

E 218. Rev. O

~

coways Wrapped with Appendix R Fire Protection Barrier SUPPLEMENTS:

i a

4. OBJE IVE OF CALCULATION: To determine the protected ampacity of power cables in raceways enclosed by The

-Lag fire barrier systems, i

5. CALCULATION METH

/ ASSUMPTIONS: See Sections 3 a'nd 4.

f i

6. SOURCES OF DM NEQUATIONS (REFERENCE See Section 5.

d 4

7. CONCLUSIONS: See Section 6.

8. REASON FOR REVISION (IF APPLICABLE):

(1) New methodology is used for cables in random lay tray.

(2) PDMS is used to perform all ampacity calculations.

i r

9. RELATED DOCUMENTS:

10. Q CLASS

1. G13.18.14.0-178

/ 1 NUCLEAR SAFETY RELATED 1

2. ER 96 0537 2

3. ER 96 0537 CN01 3

QAPA? Y N X

11. PREPARES:

12. CHECKER / REVIEWER:

13. INDEPENDENT REVIEWER:

f2

,$W7 hkhtM Nf-91

_ SIGNATURE DATE h kWfio 5-n-97 SIGNATURE DATE SIGNATURE l DATE 14.

DATA REQUIRING CONFlRMATION:

15. APPROVED:

rion 240.201 A. Rev.2ftdO lasuanc i

Closeout of MR 91-F DATA CONFIRMED SY:

KCN DATE SIGNATURE KCN DATE l

l l

CALC.N. - REE ADDENDUM CALCULATION E-218 REV.1

~ ENGINEERING DEPARTMENT ATTACHMENT NO.: (as teauired)

JBI NO -

ENTERGY RIVER BEND STATION Pact 2 Or (CALCULATION TITLE)(Optional)

TABLE OF CONTENTS SECTION DESCRIPTION PAGE NO.

N/A REVISION HISTORY 3

N/A APPLICABLE DOCUMENTS 4

1.

OBJECTIVE 5

2 SCOPE 6

1 ASSUMPTIONS 7

4 METHODOLOGY 7

5 REFERENCES 26 6.

CONCLUSIONS 28 N/A CAL CULATION CHECKLIST N/A DESIGN VERIFICATION REPORT ATTACllMENTS Attachment i Senice Code H Cables 3 pages Senice Code K Cables 11 pages Senice Code L Cables 5 pages Senice Code C Cables 95 pages Record of Telephone Conversation 2 pages Walkdown Data - Various 6 pages Walkdown Data - ITK512N 1page CableslCMSNRC507, ICMSNRC508, 5 pages ICMSNRC509 and ICMSNRC510 analysis Walkdow Data for cables ICMSNRC507, Ipage iCMSNRC508. ICMSNRC509 and ICMSNRC510

CALC.N. REV. ADDENDUM CALCULATION E-218 REV. I

~ ENGINEERING DEPARTMENT ATTACiinENT No.: (as requiree>

JBINO-ENTERGY I'WER BEND STATION i:AoE 3 or (CALCULATION TITLE )(Optional)

REVISION tilSTORY Redsion No.

Paragraph Description of Change No.

Rev i Complete Revision

CALCULATION M NO. - REV. ADDENDUM E 218 REY.I ENGINEERING DEPARTMENT ATTACriMENT NO.: <as tequired)

' hERGY RIVER BEND STATION

"ircE4 E

or (CALCULATION TITLE)(Optional)

APPLICABLE DOCUMENTS L APPLICABLE CODES, STANDARDS, & REFERENCES (NON RBS):

See sections 5.2 and 5.3 (Pages 26 and 27) 1 IL RBS

REFERENCES:

See section 5.1 (Page 26)

IIL AFFECTED DOCUMENTS:

DOC. NO.

REV.

DOCUMENT TITLE AFFECT CIIANGE NO.

(Superseded. Revised, Initiated, etc.)

DOC.

ER96-0537 0

PDMS Equipment Load ID issue N/A and Equipment Load Data Update ER96 0537 CN01 0

PDMS Equipment Load ID issue N/A and Equipment Load Data Update ER96-0537 CN02 0

PDMS Equipment Load ID Issue N/A and Equipment Load Data Update C

55 Evaluation of Cable issue N/A Jacket / Insulation damage due to Thermolag Fire Wrap

CALCULATION WORK SHEET cAtc. NR - REV. ADDENDUS1 E 218 Rey,1 ENGINEERING DEPARTMENT JBI NO -

ENTERGY RIVER BEND STATION pict 3 og

1. OBJECTIVE-The objective of this calculation is to ptovide the methodology, acceptance criteria and results verification for the C 'culation of ampacity of cables in raceways wrapped with Thermo-Lag (T L) 330-1. The ampacity calculation for each cable is performed by the Plant Data Management System (PDMS, References 51.7 and 5.1.8) using data identified in this calculation and in other referenced documents.

A number of major ditTerences in Thermo-Lag wrap status occurred between this E-218 revision and Revision 0 and its addenda. These major differences are shown in the following table (Reference 5.1.4):

Table 1 Wrap Status Major Differences Raceway Revision 0 Revision 1 ICC0030D l-hour wrap No wrap ICC0030D1 No wrap 1-hour wrap ICC0040A 1-hour wrap No wTap ICC019BB2 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> wrap No wrap ICC059RB 3-hour wrap Raceway doesn't exist ICC070BC No wTap 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> wTap ICC070BD No wTap 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> wTap ICCl27NE 3-hour wrap No wrap ICC160RAI No wrap 3-hour wTap ICC600NA6 1-hour wTap No wrap ICC600RC2 3-hour wrap No wrap ICC843BB No wTap 1-hour wTap ICK200R 3-hour wrap Raceway doesn't exist ICK501BCl,2,3 3-hour wrap No wTap ICK801BAl 3-hour wrap No wrap ICK920NU 3-hour wrap No wrap ICK921NA 3-hour wrap No wrap ITC204R No wrap l-hour wrap ITC205R No wrap l-hour wrap ITK203R No wrar 1-hour wrap ITK512N 3-hour wrap No wrap 1

CALCULATION WORK SHEET Calf. Na RES ADDENDW E-218 Rev.1 ENGINEERING DEPARTMENT JBI NO -

ENTERGY RIVER BEND STATION pict 6 07

2. SCOPE

~

Except as noted below, all cables, Class IE and non lE, that are contained within a T L 330-1 wrapped raceway are included in the scope of the PDhtS ampacity calculation.

1. Instrumentation Cables - RBS instrumentation cables (those with Senice Code =

X from Reference 5.1.9) operate at 50 Volts or less, generally transmitting low leve, under 1 Amp, information (Reference 5.1.10, pg. 2). Industry standard proces instrumt.ntatia operating current is 20 milliamps (Reference 5.3.5, Sections 3.2 and 3.3 l). It is standard industry practice to exclude instrumentation cables from ampacity consideration. Based on this, Senice Code = X cables are i

automatically excluded from ampacity calculation by PDhtS.

2.

700 Series and 900 Series Control Cables - A review of PDhtS (Reference 5.1.8) was conducted to determine if Senice Code = C cables should be included in the wrapped raceway ampacity calculation. The results of the review indicated that l

ampacity calculations by PDhiS shall be performed for all Senice Code = C cables l

except 700 and 900 series cables. These cables are automatically excluded from ampacity calculation by PDhtS.

700 series cables are used exclusively for alarm circuits. 900 series cables are used j

exclusively for computer circuits (i.e. digital or analog inputs and outputs). Both l

the alarm and computer circuits are powered from electronic isolator cards which t

are capable of delivering only a very low level current in the milliamp range.

Alarm circuits operate at 125 VDC; computer circuits operate at 48 VDC (Reference 5.1.13).

3.

Intermittent Duty Cables - PDhiS contains a load data field that defines the load equipment as continuous duty, C, or intermittent, I. The C/I field entry in PDhtS is documented in ER 96-0537 (Reference 5.1.2). Cables for intermittent loads are excluded from ampacity calculation by PDhtS.

All wrapped raceway configurations are included in the scope of the ampacity calculation by PDhfS. The different configurations are described in Reference 5.1.1 and the ampacity derating factors for each configuration are provided in Section 4.2.5 for cables in tray and Section 4.3.4 for cables in conduit.

1

CALCULATION WORK SHEET CALC. NO.. REV. ADDENDUM E 218 Re5 ENGINEERING DEPARTMENT

- 1 I

JBI NO -

ENTERGY RIVER BEND STATION-p3ct, op

3. ASSUMPTIONS 3i For conservatism, if the as built conduit routing configuration is unknown, a Conduit Grouping Correction Factor, CGDF, of 0.86 (the value for the number of horizontal versus vertical configuration of conduits equal to 6/1) is assumed.

32 Ampacity values for single conductor cable types NGR-15,16 and 30 in Table 4-1 are for triplexed cables. Triplexing of single conductor cables for 3 phase circuits reflects typical RBS cable installation in tray or conduit (Reference 5.1.5, pg. 7).

4. METIlODOLOGY In general, the ampacity of cable in raceway is calculated by multiplying the nominal cable ampacity, I., by each of the applicable (based on..cafiguration and environment) ampacity correction factors. I.o. is sne ampacity based on the construction of the cable (i e. conductor size, insulation type and temperature rating, diameter, etc.) as given in applicable standards such as IPCEA or STC. In PDMS, calculated cable ampacity is called Derated Cable Ampacity, DCA.

For cables in raceway enclosed or wrapped by a fire barrier, ampacity is called protected ampacity, I nama. Protected ampacity equals I times all applicable correction factors p

such as conductor and ambient temperature, conduit grouping, number of conductors in conduit, tray covers, etc. go.d the fire barrier ampacity correction factor, ACF (taken from References 5.1.1 and 5.2.2). In PDMS, ACF is called the Wrap Status Derating Factor, WSDF. The applicable ACF is dependent upon the type of T-L / raceway configuration in PDMS. The basis for the T-L / raceway configuration is Reference 5.1.4.

Tables 4-1 and 4-2 provide the nominal cable ampacity for various SkV and 600V cable types used at RBS. Table 4 2 also provides the conductor AC resistance which is used for calculation of ampacity of cables in Service Code K or C tray only. The tables were developed by review of PDMS data (Reference 5.1.8) and they include all cable types contained within T-L raceways (except for 700 and 900 series "C" cables). The nominal ampacity and resistance data for each cable type in Table 4-1 and 4-2 is in PDMS and can be viewed as follows:

Screen - Reference Selects, DT = CT, CT Details (3)

Pnnted - Ad Hoc Reports, SEL00021, RPT00013 Table 4-1 provides the nominal ampacity, I

, for cables installed in tray or conduit with Service Code H (i.e. SkV power). All values are from Reference 5.3.4, rubber insulated, 8kV cable ampacities in air (i.e. tray) and conduit for 40*C ambient and 90*C conductor temperature. Values for NOR-15,16 and 30 are for triplexed cables per assumption 3.2.

fAlf, N, REV. ADDEND MI j

CALCULATION WORK SHEET E 218 Rev.1 ENGINEERING DEPARTMENT 1

JBI NO

• ENTERGY RIVER BEND STATION p3ct, or Table 4-1 Nominal Ampacity, l.o.

Power Cable in Senice Code II (SkV) Tray and Conduit Cable Cable Size, Ampacity Ampacity Mark Construction, in Tray in Conduit Number Material (Amps)

(Amps)

NGR-11 4/0 3/C Cu 321 280 NGR-12 4/0 Tri Cu 342 287 NGR 13 350 Tri Cu 467 387 NGR-14 500 3/C Cu 536 458 NGR-15 5001/C Cu 578 473 NGR-16 7501/C Cu 728 579 NGR-30 10001/C Cu 847 657 Table 4-2 provides the nominal ampacity, I om, and conductor AC resistance, R.., for cables installed in tray with Service Code L (i e. 600V power) and for cables installed in conduit with Service Code C, K or L (i.e. 600V power and control). Notes and references are as follows:

Cables in Trav with Service Code C or K - The nominal ampacity for these cables is not obtained from Table 4-2. Instead, nominal ampacity is computed from cable heat generation in accordance with Stolpe's method defined in Section 4.2.3 using Table 4-2 cable R.. values. The Stolpe-computed nominal ampacity is not permitted to exceed 80% of the Table 4-2 value per Equation 4.2.3d.

Nominal Amoacity - General - All values, except those shaded, are from Reference 5.3.4, mbber insulated, ikV cable ampacities in air (i e. tray) and conduit for 40 C ambient and 90*C conductor temperature. Shaded values are from Reference 5.3.2, Table 310-16 with ambient temperature corrected to 40*C from 30 C (CADF = 0.91 from Table 310-16). Values for NGP-42,50 and 99 are for triplexed cables since Reference 5.3.4 values are not available for single conductor cable in conduit and triplexing reDects typical installation in tray or conduit (Reference 5.1.3, pg. 20A).

Nominal Amoacity - Not 3 Conductors - The values for jacketed cables with 2 conductors or with more than 3 conductors are derived as follows:

it8 AWG in Tray - Values are derived from the equation in Reference 5.3.3, Section 2.5 using PDNIS cable diameters (Reference 5.1.8).

I

i CALCULATION WORK SHEET CAM, NO,. REV, ADDENDUM E 218 Rev,1 ENGINEERING DEPARTMENT

~~

JBI NO +

MTHGY RIVER BEND STATION p3ct, oy

1. ,10. #12. #14. #16 AWG in Tray - Values for 2 conductor cables are the

~.

same as those for 3-conductor cables. Listed values for cables with more than 3 conductors have been modified based on Table 4.3.2 which is applicable not only for more than 3 conductors in conduit but also for more than 3 conductors in ajacketed cable. For example, a 5 conductor #14 AWG cable has a tray nominal ampacity of 18 Amps which is 0.8 (from Table 4.3.2) times 23 Amps, the nominal ampacity of a 3 conductor #14 AWG cable. This method agrees with Reference 5.3.2, Article 318-11 for multiconductor cable in tray. Note that the nominal ampacity for cables in Senice Code C and K tray is actually calculated using Stolpe's method dermed in Section 4.2.3. The Stolpe computed nominal ampacity is not permitted to exceed 80% of the Table 4-2 value per Equation 4.2.3d.

1. 8. #10 #12. #14. #16 AWG in Conduit - Values for 2-conductor cables and for cables with more than 3 conductors are the same as those for 3-conductor cables. Refer to the discussion in Section 4.3.2 for more than 3 conductors in a conduit.

Resistangs - All values, except for #14 and #16 AWG, are for 600V cable in tray from Reference 5.1.11 (the reference does not include cables smaller than #12 AWG). The #14 and #16 AWG values are from Reference 5.3.2, Chapter 9, Table 8, corrected to 90*C from 75'C. Copper conductor values are for coated conductors since they are higher than uncoated values and values for 2-conductor cables are the 3-conductor values since they are higher than single-conductor values (i.e. more conservative for ampacity calculations). Values for NGP-42, 50 and 99 are for triplexed cables.

CALCULATION WORK SHEET caw. No.e nov. AnotNnus E-21R Rev.I ENGINEERING DEPARTMENT JBI NO '

ENTERGY RIVER BEND STATION

,xat io o, Table 4-2 Nominal Ampacity, I..

& AC Resistance, R.,

Cable in Service Code C K or L (600V) Tray and Conduit Cable Cable Size, Ampacity Ampacity R.,

Stark Construction, in Tray in Conduit (Ohms per Number Sinterial (Amps 3 (Amps) 1000 ft)

NGP 72

1. 16 4/C Cu 13.0 16.4 5.5463 NGP 75

1. 16 I8/C Cu 8.2 16.4 5.5463 NGP 01

1. 14 2/C Cu 23 23 3.4179 NGP-02

1. 14 3/C Cu 23 23 3.4179 NGP-03

1. 14 5/C Cu 18 23 3.4179 NGP-04

1. 1< 7/C Cu 16 23 3.4179 NGP-06

1. 1412/C Cu 11.5 23 3.4179 NGP-10

1. 12 2/C Cu 27 27 2.2154 NGP-11

1. 12 2/C Cu 27 27 2 2154 NGP-12

1. 12 3/C Cu 27 27 2.2154 NGP 58

1. 12 3/C Cu 27 27 2.2154 NGP-13

1. 12 5/C Cu 22 27 2.2154 NGP-36

1. 12 5/C Cu 22 27 2.2154 NGP-14

1. 12 7/C Cu 19 27 2.2154 NGP-15

1. 12 9/C Cu 19 27 2.2154 NGP-16

1. 1212/C Cu 13.5 27 2.2154 NGP-22

1. 10 2/C Cu 36 36 1.3911 NGP-57

1. 10 3/C Cu 36 36 1.3911 NGP-24

1. 10 4/C Cu 29 36 1.3911 NGP-26

1. 10 7/C Cu 25.5 36 1.3911 NGP-27

1. 1012/C Cu 18 36 1.3911 NGP-28

1. 8 2/C Cu 64 50 0.8750 NGP-56

1. 8 3/C Cu 59 50 0.8750 NGP-30

1. 8 4/C Cu 52 50 0.8750 NGP-32

1. 8 7/C Cu 49 50 0.8750 NGP-33

1. 812/C Cu 48 50 0.8750 NGP-55

1. 6 Tri Cu 89 75 0.5505 NGP 54

1. 4 Tri Cu I17 97 0.3463 NGP-53

1. 2 Tri Cu 158 130 0.2178 NGP-52 2/0 Tri Al 193 159 0.1721 NGP-99 4/01/C Cu 335 278 0.0682 NGP-49 250 Tri Cu 374 317 0.0584 NGP-51 250 Tri Al 292 249 0.0918 NGP-59 350 Tri Al 364 303 0.0657

CALCULATION WORK SHEET CALC. NO. REV. ADDENDUM E 218 Rev.1 ENGINEERING DEPARTMENT JBINO*

ENTERGY RIVER BEND STATION pact ii og Table 4 2 Nominal Ampacity, I., & AC Resistance, R.

Cable in Service Code C, K or L (600V) Tray and Conduit Cable Cable S!ze, Ampacity Ampacity Ru 5tark Construction, in Tray in Conduit (Ohms per Number Staterial (Amps)

(Amps) 1000 ft)

NGP 50 5001/C Al 458 381 0.0461 NGP-42 7501/C Cu 747 598 0.0211 Subsequent sections defme data for nominal ampacity, ampacity correction factors, equations for calculations, and ampacity acceptance criteria as follows:

Sectiori 4.1 - ampacity correction factors applicable to cables in tray or conduit.

Section 4 2 - ampacity correction factors applicable to cables in tray only.

Section 4 3 - ampacity correction factors applicable to cables in conduit only.

Section.4 - ampacity correction factors applicable to cables injunction boxes and e

miscellsneous equipment. Data for miscellaneous equipment is provided for information only. Onlyjunction box data is used by PDhtS.

Section 4 5 equations for computation of protected ampacity and maximum cable load current.

Section 4.6 - ampacity acceptance criteria.

4.1 Conductor and Ambient Temperature Correction Factor (CADF)

The nominal cable ampacities provided in Tables 4-1 and 4-2 and those calculated in Section 4.2.3 are for cable with a 90*C insulation rating in an ambient temperature of 40*C. However, certain areas and associated fire zones within the plant (containment, main steam line areas, etc.) may have higher ambient temperatures. The maximum normal ambient temperature in a particular plant area is documented in Reference 5.1.6 and cross-referenced to fire zone in ER 96 0521 (Reference 5.1.4). Ambient temperature data for each fire zone can be viewed in PDhtS as follows:

Screen - Detail Selects, CT = FZ, Wrap / Temp Data Printed - Ad-Hoc Reports, SEL000ll If the maximum normal ambient temperature is above 40*C, or if the insulation temperature rating of a cable is not 90*C, an ampacity correction factor shall be applied.

The correction factor, CADF, is calculated by Equation 5 of Reference 5.3.4,Section II.B as follows and the effects of the terms DELTA TD' and DELTA TD are negligible:

3

CALCULATION WORK SHEET cal C. NO. - REV, ADDENDUM E 218 Rev. I ENGINEERING DEPARTMENT i

asiso.

EMERGY RIVER BEND STATION orce i2 or Ti-T.'

• 234.5 + Ta CADF (for Copper)

=

Ta-T.

234.5 + Ti CADF(for Aluminum)

T/- T.'

• 2281 + T,

=

T< - T.

228.l + Ti where:

T,'

new conductor temperature ( C)

=

T/

new ambient temperature (*C)

=

T, conductor temperature for which ampacity table was derived (*C)

=

T, ambient temperature for which ampacity table was derived ( C)

=

Since all of the scheduled cables at RBS were purchased with 90'C insulation temperature rating in a 40*C ambient (Reference 5.1.10. pg. 8), Equation 5a cf Reference 5.3.4 may be used. Equation Sa reduces to the following and CADF becomes:

'~ '

~'

CADF =

=.

l Ta-T.

V 50 l

l The calculation of CADF is performed by PDMS. The calculated value can be viewed as follows:

Screen - Detail Selects, CT = CA, DR Analysis Printed - Ad Hoc Reports, SEL00021, RPT00013 4.2 Nominal Ampacity and Ampacity Correction Factors for Cables in Tray 4.2.1 Nominal Ampacity - Cables With Maintained Spacing This section applies to RBS cables installed in tray with Service Code H or L only.

Table 4 1 provides the nominal ampacity, I

, for cables installed in tray with Service Code H (i e. SkV power tray) and Table 4-2 provides the nominal ampacity, I

, for cables installed in tray with Senice Code L (i.e. 600V power tray).

4.2,2 Multiple Cables in Tray with Maintained Spacing Correction Factor (MCDF)

MCDF is a multiplying factor applied to cable ampacity when there are two or more cables in a tray and cables are installed with spacing of from 1/4 to I cable diameter (Reference 5.3.4,Section II.D). Multiple cables installed in tray with Service Code H or L, where cables are insta!!ed one layer deep only, shall be derated using the correction factor shown in the table below (References 5.1.9, pg. 4-9, 4-10; 5.1.10, pg.10,11; 5.3.4,Section II.D).

CALCULATION WORK SHEET CAM. NR. RE AMNDW E 218 Rev.1 ENGINEERING DEPARTMENT

~~~~~

JBI NO

ENTERGY RIVER BEND STATION

,,Act n or Table 4.2.2 Multiple Cables in Tray Correction Factor Cables in Senice Code II or L Tray Number of Cables llorizontally MCDF 1

1.00 2

0.93 3

0.87 4

0.84 5

0.83 6 or More 0.82 The determination of MCDF is performed by PDMS for cables in tray with maintained spacing. The applicable value can be viewed as follows:

Screen - Detail Selects, CT = CA, DR Analysis Ennted - Detail Selects, CT = CA, DR Analysis, fl0 4.2.3 Nominal Ampacity-Cables Without Maintained Spacing This section applies to RBS cables installed in tray with Service Code K or C only.

Based on Reference 5 3.1, Stolpe's analytical model for heat transfer from a tightly packed cable tray, cable ampacity is determined on the basis of uniform heat generation over the cross section of the tray. The allowable heat intensity, Q, per unit area (watts /fVin )is a 2

function of the total heat generated by the cables in the tray and the cable mass width and depth as shown in Equation 7 of Reference 5.3.1, pg. 964. Cable mass depth is easily converted to percent fill which is the ratio of the cable cross sectional area (i.e. the sum of the cross-sectional areas of all cables in a tray) to the useful cross-sectional area of the tray (Reference 5.3.1, pg. 964). Tray percent fill is based on all cables in the tray, power and control, and no credit is taken for load diversity.

Figure 4 of Reference 5.3.1 shows the Q versus percent fill curves for cables with 60*C.

75'C and 90*C insulation ratings in 3 inch deep tray, all operating in a 40 C ambient. The curves indicate that as tray percent fill (i e. depth of cables in the tray) increases for a given cable temperature, allowable heat intensity is reduced. Using a straight-line approximation, the equation for any one of the Figure 4 curves can be written as:

log (Q) = m

• log (% Fill) + log (b) log (Q) = log (% Fill)" + log (b)

8_._,

ENGINEERING DEPARTMENT CALCULATION WORK SHEET CALC. NO. - REV. ADDENDtW E.218 Rev, t astNo-MTERGY RIVER BEND STATION uct n o,

~

log (Q) = log [(% Fill)"

• b)]

Therefore, the general equation for allowable heat intensity is:

Q = b * (% Fill)"

where:

% Fill is in percent not a decimal value Using any two points on one of the curves from Figure 4 of Reference 5.3.1, the constants m and b can be found. Since RBS cables are rated 90*C and the Service Code K tray fill design maximum is 40% and the Service Code C tray fill design maximum is 50%

(References 5.1.9, pg. 4-8,4 9 and 5.1.10, pg. 9,10), points at 10% and 40% on the 90*C cune are chosen.

for % Fill = 10, Q = 24 watts /Wina for % Fill = 40, Q = 4.7 watts / Win' The two simultaneous equations to solve for m and b are:

24 = b

• 10*

and 4.7 = b

• 40*

Multiplying the second equation by 24 + 4.7 = 5.1064 yields:

24 = 5.1064

• b

• 40" Since the lett side of both equations are now equal, the simultaneous equations can be solved:

b

• 10" = 5.1064

• b

• 40*

10* = 5.1064

• 40" Taking the log of both sides of the equation:

m

• log (10) = log (5.1064) + (m

• log (40))

m = 0.70811 + 1.60206m

-0.60206m = 0.70811 m = -1.176

A__,

ENGINEERING DEPARTMENT CALCULATION WORK SHEET CAM NO. - RE% ADDENDW E 218 Rev, t iency RIVER BEND STATION JBI NO

• s pict i3 o, Substitutln' g m = -1.176 into the equation 24 = b

• 10'"-

24 = b

• 10 "'

24 = 0.06668b b = 359 92 E 360 The equation for allowable heat intensity Q for a tightly packed tray containing 90"C cables in a 40 C ambient becomes:

Q = 360 * (% Fill)"' watts /fVin ilq. 4.2.3a t

This equation is suitable only for cables in tray with a usable (i.e. inside) depth of 3 inches 1

(Reference 5.3.1, pg 964). Based on a review of PDMS data (Reference 5.1.8), all RBS tray types have 3 inch inside depth except tray type DJL 01, which does not comprise any T-L wrapped trays (Reference 51.4).

The % Fill value calcultted by PDMS is based on the % Fill Limit for the particular tray Senice Code (e g. if % Fill Limit = 40% and the % Fill = 40% based on tray and cable dimensions, then the PDMS result is 100%). Therefore:

% Fill = %Filleosis * % Fill Limit /100 If tray depth is not equal to 3 inches, the above equation must be modified with a h / 3 factor to become:

I"

% Fill =

s 3*100

/

For Senice Code K tray, % Fill Limit = 40% and for Service Code C, % Fill Limit = 50%

(References 5.1.9, pg. 4-8,4 9 and 5.1.10, pg. 9,10). Therefore, for Senice Code K and C tray, Equation 4.2.3a becomes:

K Tray Q = 360 * (%Fillenus

• 0.4)"' watts /fVin Eq. 4.2.3b-K z

C Tray Q = 360 * (%Filleaus

• 0.5)"' watts /fVin Eq. 4.2.3 b-C 2

Once Q is calculated for the tray, the nominal cable ampacity, Im for each cable ir. the tray is then computed from Reference 5.3.1, Equation 9 as:

i CALCULATION WORK SHEET CAM. NO. - ME% ADDENDW E 218 Rey, t ENGINEERING DEPARTMENT i

"~

JB1 NO '

ENTERGY RIVER BEND STATION pxot is o,

~

D Grr

" 3 nR where:

n = number of conductors in cable 2

Q = heat generated per unit area of the tray (watts /R/in )

D=

cable diameter (inches)

R=

a c. resistance of conductor at 90'C (Ohms /R)

This equation can be modified to account for R values which are typically published in Ohms /1000 feet and then simplified to combine constants as follows:

D 1000*Q';r.

7~

2 nRa O

I. = 28.02

• D

• Eq. 4.2.3c nRa where:

Ru a.c. resistance of conductor at 90*C (Ohms /1000 R)

=

Values for cable diameter, D, are already contained in PDMS (Reference 5.1.8) and values for R are provided in Table 4-2.

If the calculated I,. for any cable is greater than 80% of the cable ampacity in open air (i e. tray), I,,,, then I,o,, must be adjusted as follows (Reference 5.3.3, Section 2.2).

I,,, ampacities are the ampacity in tray values shown in Table 4-2.

I,o,, = I,,,

• 0. 8 Eq. 4 2.3d 4.2.4 Tray Cover Correction Factor (TCDF)

The ampacity of cables in tray continuously covered with solid unventilated covers for more than 6 feet shall be corrected by the TCDF shown below (References 5.3.1, pg. 969 and 5.3.2, Articles 318-11 and 318-13):

TCDF = 0.95 4.2.5 Ampacity Derating Factor (ADF) and hpacity Corremon Factor (ACF or WSDF)

The following table provides the ADF and ACF values for cables in fire wrapped tray.

The table provides the fire barrier configuration cross reference between the PDMS Wrap Status (WS) and the Reference 5.1.1 analyzed configuration.

e_,

ENGINEERING DEPARTMENT CALCULATION WORK SHEET CALC. NO. REV. ADDENDOM E-218 Rev.1 JBI NO +

sNTanov RIVER BEND STATION p3ct i, op Table 4.2.5 T-L 330-1 Derating and Correction Factors Cables in Tray Tray Barrier Ref. 5.1.1 PDMS ACF Connguration / Rating Conng.

WS Notes ADF WSDF Standard Single / l hour Table 5.1 STD 1

0.32 0.68 (TR) [1]

Standard 2 Stack / l hour Table 5.1 n/a 2

0.38 0.62 Power and Control Standard Single / 3-hour Table 5.2 STD 0.44 0.56 (TR)[3]

Unique / l-hour Table 5 3 UNIQUE 1 0.32 0.68 PT 1. Tunnel"F" UI l-hour (TR) [1]

Unique / l-hour Table 5.3 UNIQUE-2 0.32 0.68 PT-1, Tunnel "G" U21-hour (TR) [1]

Unique / 3-hour Table 5.3 UNIQUE 3 0.35 0.65 C-16, Trays ITL0128 and U3b 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> (TR) (3]

ITC0488 Unique / l-hour Table 5.3 UNIQUE-3 3

0.32 0.68 C-16, Trays ITL0128 and U3b l-hour (TR)[1]

ITC048B Unique / 3-hour Table 5.3 UNIQUE-6 0.32 0.68 C-16, Trays ITK001B &

U3a 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> (TR)[3]

2B and ITC0478 Unique / l-hour Table 5.3 UNIQUE-6 4

0.32 0.68 C-16, Trays ITK001B &

U3a 1-hour (TR)(1) 2B and ITC047B Notes:

1. This configuration was analyzed in Reference 5.1.1 by similarity to the 1-hour tray ADF value from TU (Reference 5.2.1).

2.

This configuration does not currently exist at RBS. Values are provided for future reference if needed.

3. This is the revised value (i.e. the upgrade value) for the UNIQUE-3 (TR) [3]

enclosure after implementation of MR 91-0075.

This is the revised value (i.e. the upgrade value) for the UNIQUE-6 (TR) [3]

4.

enclosure after implementation of MR 91-0075.

The WSDF values are contained in PDMS. They are the values used by PDMS to compute cable ampacity and they can be viewed as follows:

CALCULATION WORK SHEET cat.c. No.. REV. ADDENDUM E 218 Rev,1 j

ENGINEERING DEPARTMENT JBI NO '

~~~~

ENTERGY RIVER BEND STATION Pact is or Stttta - Reference Selects, DT = WS Printed - Reference Selects, DT = WS, mark all, f7 4.3 Nominal Ampacity and Ampacity Correction Factors for Cables in Conduit 4.3.1 Nominal Ampacity Table 4 1 provides the nominal ampacity, I.,,, for cables installed in conduit with Service Code H (i e. SkV power) Table 4-2 provides the nominal ampacity, I, for cables installed in conduit with Service Code K, L or C (i.e. 600V power or control).

4.3.2 alultiple Conductor Correction Factor (SICDF)

Where the number of current-carrying conductors in a conduit exceeds three, ampacity shall be corrected by the MCDF shown in the table below (Reference 5.3.2, Article 310-15, Note 8(a) of Notes to Ampacity Tables of 0 to 2000 Volts).

Table 4.3.2 Stultiple Conductor Correction Factor 5 tore Than 3 Conductors in Conduit or Store Than 3 Conductors in a Jacketed Cable aaa Number of Current Carrying h!CDF Conductors a

aa 1-3 1.00 4-6 0.80 7-9 0.70 10 - 20 0.50 21 - 30 0.45 31-40 0.40 More than 40 0.35 Reference 5.3.2, Vticle 310-15, Notes 10 and 11 of Notes to Ampacity Tables of 0 to 2000 Volts may be used to deternune which conductors may be excluded as current-carrying.

These factors include no diversity in the conductor loading, which is conservative.

Reference 5.3.2, Article 310-15, Note 8(a)(FPN) of Notes to Ampacity Tables of 0 to 2000 Volts, provides direction to correction factors for a 50% diversity in conductor loading. These factors may be used if no more than 50% of the conductors in the conduit are energized.

CALCULATION WORK SHEET cal.C. NO.. REV, ADDENDUht E-2tB Rev,t ENGINEERING DEPARTMENT JBINO*

misnov RIVER BEND STATION pict i, o,

"* The hiCDF factor is also applicable for more than 3 conductors in ajacketed cable in tray. The factor is already incorporated in the Table 4 2 nominal ampacity values as discussed in Section 4.

PDhtS handles the htCDF derating by counting the total number of conductors in the conduit and applying the appropriate factor from Table 4.3.2. Cable types with more than 3 conductors are noj derated twice when they are routed in a conduit with other cables.

For example, if a conduit has 10, 5-conductor, #14 AWG cables, each cable is nol derated to 18 Amps (0.8 times 23 Amps, the nominal ampacity of a 3-conductor #14 AWG cable) and then derated again by 0.35 to account for the total number of conductors in the conduit (more than 40). Instead, PDhtS simply applies the 0.35 factor since it counts the total number of conductors in the conduit. Therefore for this example, the derated ampacity is 23 x 0.35 = 8 Amps, ag123 x 0.8 x 0.35 = 6 Amps. This method agrees with Reference 5 3.2, Notes to Ampacity Tables of 0 to 2000 Volts, Article 310-15 for multiconductor cable in conduit.

The determination of h1CDF is performed by PDhtS for cables in conduit. The applicable value can be viewed as follows:

Screen - Detail Selects, CT = CA, DR Analysis Printed - Detail Selects, CT = CA, DR Analysis, fl0 QR Ad Hoc Reports, SEL00036 4.3.3 Conduit Grouping Correction Factor (CGDF)

Derating of cable ampacity is required if two or more conduits are routed together and the spacing between conduit surfaces is not greater than the conduit diameter and is not less than 1/4 of the conduit diameter. If the as-built routing configuration is known, CGDF shall be selected from the table below (Reference 5.3.4,Section II.E).

Table 4.3.3 Conduit Grouping Correction Factors Number of Conduits Number of Conduits Vertically Horizontally 1

2 3

4 5

6 1

1.00 0.94 0.91 0.88 0.87 0.86 2

0.92 0.87 0.84 0.81 0.80 0.79 3

0.85 0.81 0.78 0.76 0.75 0.74 4

0.82 0 78 0.74 0.73 0.72 0.72 5

0.80 0.76 0.72 0.71 0.70 0.70 6

0.79 0.75 0.71 0.70 0.69 0.68

CALCULATION WORK SHEET CA1.C. NO. REV ADDENDtN E 218 Rey,1 ENGINEERING DEPARTMENT JBI NO +

ENTERGY RIVER BEND STATION NAct 20 or If the asi5uilt conduit routing configuration is unknown, the conduit grouping correction l

factor, CGDF, as specified in assumption 3.1 shall be assumed as 0.86, the value for the number of horizontal / vertical conduits equal to 6/;.

The CGDF default value of 0.86 has been applied to all cables in conduit by PDMS. The value can be viewed as follows:

Screen - Detail Selects, CT = CA, DR Analysis Pnnted - Detail Selects, CT = CA, DR Analysir, fl0 QR Ad Hoc Reports, SEL00036 4.3.4 Ampacity Derating Factor (ADF) and Ampacity Correction Factor (ACF or WSDF)

The following table provides the ADF and ACF values for cables in fire wrapped conduit.

The table provides the fire barrier configuration cross reference between the PDMS Wrap Status (WS) and the Reference 5.1.1 analyzed configuration.

Some of the heating of cables in conduit is caused by induced current flow in the raceway which is caused by a non zero net or unbalanced current flow through the conductors enclosed by the conduit (References 5.21 and 5.2.2). This effect, called the Inductive Current Heating Effect (fHE), is apparent during ampacity testing of cables in fire wrapped conduit using the proposed IEEE P848 test procedure when a 3-conductor test specimen cable is energized from a single-phase source (Reference 5.2.1). From testing and analyses performed to date, HIE appears to produce conservative ampacity derating results, although the effect is difficult to quantify. Therefore, the NRC has imposed a T-L 330-1 ACF penalty to ensure conservatism (References 5.21). This penalty is included in the table ADF and ACF values.

CALCULATION WORK SHEET CAM. NO. o REV. MDENDtM i

E 218 Rev.I ENGINEERING DEPARTMENT

~~~

EmRGY RIVER BEND STATION

_JyyNO*'i,Act 21 or Table 4.3.4 T-L 330-1 Derating and Correction Factors Cables in Conduit Conduit Barrier Ref. 5.1.1 PDMS ACF Connguration / Rating Conng.

WS Notes ADF WSDF Standard / l-hour Table 5.2 STD 0.21 0.79 (CO)[1]

Standard / 3-hour Table 5.2 STD 0 il 0.79 (CO)[3]

Unique / l-hour n/a STD&UNIQ 1 1 1 :.38 0.62 PT-1 / Tunnel "E" (CO) [1]

Unique / l-hour n/a STD&UNIQ-2 2

0.38 0.62 PT-1/ ICK200RB (CO) [1]

Unique / l-hour n/a UNIQUE-l&2 3

0.38 0.62 PT-1/ ICC270NH1 & NH7 (CO)[1]

Unique / l hour Table 5.3 UNIQUE-1 4

0.38 0.62 PT -1 / Tunnel "F" Ul 1-hour (CO) [1]

Unique / l-hour Table 5 3 UNIQUE-2 5

0.38 0.62 PT-1/ Tunnei"G" U21-hour (CO) [1]

Notes:

1. This configuration was not analyzed in Reference 5.1.1. The enclosure contains two conduits which contain control, :.! arm and power cables for two MOVs only.

Since the MOV power cables are energized intermittently, cable heat generation is very low. For conservatism, the ADF and ACF for the worst case 1-hour conduit wrap configuration was assigned (i.e. UNIQUE-2(CO) [1]).

2. For part ofits length this conduit is wrapped with standard conduit half rounds equivalent to STD(CO) [1]. For the remainder ofits length, tl.e conduit is within the UNIQUE-2(CO)(1) enclosure. The ADF for UNIQUE-2(CO)[1] was assigned since it is the higher ADF value.

3. These conduits run in both the Ul (Tunnel"F") and U2 (Tunnel"G") enclosures.

4 Reference 5.1.1 computed three ADF values for this configuration 21,38 and 32%. For conservatism and simplicity of application, the highest ADF is used.

5. Reference 5.1.1 computed two ADF values for this configuration - 38 and 32%

For conservatism and simplicity of application, the highest ADF is used.

A___. ENGINEERING DEPARTMENT CALCULATION WORK SHEET CAI C. NO. - REY. ADDENDUM E 218 Rev.I JBI NO -

ENTERGY RIVER BEND STATION PACE 22 or The WSDF values are contained in PDh1S. They are the values used by PDhtS to compute cable ampacity and they can be viewed as follows:

Screen - Reference Selects, DT = WS Printed - Reference Selects, DT = WS, mark all, f7 4.4 Junction Boxes and Miscellaneous Equipment ADF and ACF(WSDF)

The following table provides the ADF and ACF values for fire wrapped junction boxes. It also includes ADF and ACF s alues for equipment that has a valid Wrap Status in PDhtS.

None of these configurations were analyzed in Reference 5.1.1. PDhtS does not use any of there values for calculation of cable ampacity.

l The ADF values for wrapped junction boxes are determined by the ADF values of the

)

wrapped conduits that enter the junction box. This is because, on a per unit length basis, a wrapped conduit has a higher power to surface area ratio than ajunction box, i e. there is more heat generated per unit surface area of the conduit than thejunction box. Since the ADF value increases with increasing power to area ratio, the ADF value for the wrapped conduit is higher than that of the wrapped junction box.

The ADF and ACF values for equipment are provided only to complete the Derating Factor field in the PDNIS Wrap Status table and to eliminate PDNIS derating analysis problems which would appear if the derating factor (i.e. the ACF value) were left blank or zero. For this reason, all equipment ADF values are defmed as zero; therefore ACF = 1.0.

ADF and ACF values for equipment are not applicable and should not be used for analysis or evaluation of equipment performance or operating temperature. Instead, equipment rated current and temperature should be used.

A

e,,__

ENGINEERING DEPARTMENT CALCULATION WORK SIIEET C^#N

""^*N""

E 2tp Rey, t IErnoy RIVER llEND STATION

1. $ct 23 or l

Table 4.4 T-L 3301 Derating and Correction Factors Junction llores and Silscellaneous Equipment I

311scellaneous llarrier PDS1S ACF Configuration / Rating WS Notes ADF WSDF Misc. Equipment / l hour STD 0.00 1.00 (EQ)[1]

IIVAC Equipment / 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> STD 0.00 1.00 (EQ)[31 Standard J Box / l hout STD I

0.21 0.79 1*JB0274 & Others (JB)[1]

Standard J. Box / 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> STD 2

0 21 0.79 1*JB0024 & Others (JD)[3]

Unique J. Box / l hour UNIQUE 1 1

0.21 0.79 l*JB2072 (JB)[1]

Unique Eauipment / 3. hour UNIQUE 4 0.00 1.00 lJCB'RAK1 (EQ)[3]

Unique Equipment / l hour UNIQUE-5 0,00 1,00 iSWP'MOV055A & 511 A (EQ) [1]

Notes:

1. ADF and ACF values forjunction boxes wrapped with I hour T L are the same as the values for standaid 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> wrapped conduit (see STD(CO)[1]in Table 4.3.4).

2. ADF and ACF values forjunction boxes wrapped with 3. hour T L are the sa:ne as the values for standard 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> wrapped conduit (see STD(CO) [3] in Table 4.3.4),

The WSDF values are contained in PDMS. They can b'e viewed as follows:

Screen Reference Selects, DT = WS Printed Reference Selects, DT = WS, mark all, f7 4.5 Derated Cable Ampacity and 51asimum Load Current Equations The ampacity calculations are performed by PDMS using the equations in the following sections. Results can be viewed as follows:

SImn Detail Selects, CT = CA, DR Analysis Pnnted Detail Selects, CT = CA, DR Analysis, fl0 QB Ad Hoc Reports, SEL00036

l c4tr. 4. nm 4 mom CALCULATION WORK SIIEET E 218 Rev I i

ENGINEERING DEPARTMENT

~~

~JBI NO t EmRGY RIVER BEND STATION I' A G I' N O l' PDh1S caiculates cable ampacity in every wrapped raceway of the cable route. For the on screen DR Analysis results, the minimum calculated cable ampacity for the cable route is visible in the bottom right corner of the screen as MinDCA.

4.5.1 Protected Ampacity of Cable in Tray with Maintained Spacing The following equation applies to the computation of prot >cted ampacity of 5kV and 600V concentric stranded nabber or thiermoplastic insulated cable in tray where cables are installed with maintained spacing The equation applies i., cables in trays with Service Code li or L only. lo. is obtained from Tables 41 and 4 2.

I m.o., or DC s = lo.

• htCDF

• TCDF

• CADF

• WSDF n

4.5.2 Protected Ampacity of Cable in Tray without Maintained Spacing The following equation applies to the computation of protected ampacity of 600V concentric stranded rubber or thermoplastic insulated cable in tray where cables are installed without maintained spacing. The equation applies to cables in trays with Sewice Code K or C only. lo. is calculated using the equations from Section 4.2.3 and shall not exceed 80% of the tray ampacity of Table 4 2.

In<,,,a,a or DCA = 1..

• TCDF

• CADF

• WSDF 4.5.3 Protected Ampacity of Cable in Conduit The following equation applies to the computation of the protected ampacity of 5kV and 600V concentric stranded rubber or thermoplastic. insulated caole installed in exposed conduit. l is obtained from Tables 41 and 4 2.

Ir.n,4 or DCA = 1,.

• CGDF

• h!CDF

• CADF

• WSDF 4.5.4 Mstimum Load Current The maximum load current is calculated as follows:

Load = FLA

• LF The maximum load current is the full load current rating of a load, FLA. multiplied by a load factor, LF, or cable sizing factor which is determined by the overload requirements of the load being served. FLA is the current required to operate the equipment at specified or standard test conditions (Reference 5 3.6. rated current, machine or apparatus). FLA and LF in PDh1S are associated with an equipment number, not a cable number. FLA and LF in PDMS are documented in ER 96-0537 (Reference 5.1.2) and subsequent ER Change Notices.

l CALCULATION WORK SilEET

('^F 218

'* N S "E " ^ " D '""

Rev, I ENGINEERING DEPARTMENT J BI NO.t emnov RIVER llEND STATION p3ct y,

op

5. REFERENCES

' 5.1 Rher llend Station Documents 8 ll Gl3 l8 l4 0-l78. Rev I, Ampacity Deraung Factorsfor Hiermo Lag 3301 1

Enclostaer 1

5l2 ER 96 0537, Rev 0, pDAIS Eqtupment loadID and Equapment load Data I'pdate, ER Change Notice ERCN01 and ER Change Notice ERCN02 1

513 Calculation E 137. Res o through Addendum E,6001'('able Ni:my 514 ER 96 052l, Rev 1, pDAIN E3sentialRacenay Data Update 5l5 Calculation E.167 Rev 2 through Addendum B, SKl' power Cable Siring-Ampacity and Alnumum Length 5l6 2 l 5 l 50. Rev 4. RBS Environmental Design Criteria 517 6229 400104 002A. plant Data Atanagement System User Afanual 5\\8 PDMS, plant Data Afanagement System 510 24 l l00, May 26, l978, ('able Schedule haformation System As U. sed On River Bend Statunt - l'ntra l And 2 5 l l0 24 l 200, Rev 3, l.tectrical Design Crtteriafor insulated Il' ore and Cable As Used 00 Rover Hend Statuna, l'nus l And 2 5 \\ l\\

724 l 200 508 00l A, t 'ahle Impedancesfor Ytr(' Conductor limperature 5 l l2 Criterion 240 20l A, Rev 2 Entergy Operanons, Inc. River BendStanon,10CFR50, Appendix R Separanon Analysis 5 l l3 ESK 2V Rev 4, Instruction Drawmg. TspicalDigitallsolator Circuits 5 i l4 MR 9I 0075, Upgrade Appendtx R Thermo. Lag Enclosures 5.2 NRC Documents 52i Safety Evaluation Report, June 14,1995, Ampacip/ssuesRelatedto Dicrmo-Lag Fire Harriers, lixas l 'nhties Electric Company, Comanche Peak Steam Electric Station. Unit 2. Docket No. 50-I46 r,

8___. ENGINEERING DEPARTMENT CALCULATION WORK SHEET cal C. NO.. REV. ADDENDUM E 218 Rev, I JBtNO.

ENTERGY RIVER BEND STATION eAcE 29 or 522 NRC Letter, October 18,1994, Frorn Ronaldo Jenkins to Alex Marion of Nuclear Energy institute 5.3 Industry Standards & Papers 53.I IEEE Transaction Paper 70 TP 557.PWR, Ampacitiesfor Cables in Randomlyf/ led Trays, i Stolpe,1970 (Filed as SDDF 6240.201795 002A) 532 NFPA 70,1996, National Electrical Code 533 ICEA Standards Publication No. P 54 440 (Third Edition), QdA Star Ards Publication No WC51 1986, Ampacottes of Cables in Open-Top Cable Irars 53.4 IEEE/IPCEA Standard S.135/P 46-426, Third Printing 1984, Power Cable Ampacities: l'olume 1 - Copper Conductors and l'olume II-Aluminum Conductors 53$

ANStilSA S50. l l982, Compatibilin ofAnalog Signalsfor Electronic Industrial Process Instruments 536 AN5illE E6 Std. 100 1984, IEEE Standard Dictionary of Electrical and Electrante Terms

CALCULATION WORK SilEET #^ ' # " * * " "' ^ '"* N " "

r.218 Rev, t ENGINEERING DEPARTMENT ThERGY RIVER IIEND STATION Acr 2s or

6. CONCLUSIONS 6.1 Ampacity llesults 6.1.1 Ampacity Calculation Results General All cables met the ampacity acceptance criteria of Section 4.6. The majority of cable ampacities were deemed acceptable via Iteration #1. Those cable ampacities deemed acceptable via iteration #2 or #3 are listed in Table 6.1 for H, K and L voltage level cables and Table 6 2 for C voltage level cables Applicable notes are provided.

In some cases, cable ampacities were less thtn the load or circuit rated current, i c. DCA <

FLA. For these cases, cable segments enclosed by T L may have been subjected to temperatures higher than their rated insulation temperature. These cases are noted in Table 6 I with notation similar to: DCA = 0.97 FLA. Additional evaluation is required to determine the etrect ofincreased operating temperatures on the T L portion of these cables.

Note that results listed in Table 6.1 are for the As Built (AB) configuration unless otherwise noted as Engineering Partial (EP) or Engineering Released (ER).

M CALCULATION WORK SIIEET car.c NR-RE ADDDIHW t-215 Rev.1 M

ENGINEERING DEPARTMENT

~~M RIVER BEND STATION JBI NO;-

4cr 29 or Table 6.I II, K and L Cahics Cable No, Status FLA Load Raceway Itcrata # 1:

Iteratm #2:

Iterate #3 DCA Tenquature Effects Notes Load ID (Amp)

(Amp)

FA/FZ DCA w/T-L DCA w/o T-L licrata #2 Accept.

for iterate #I DCA (Amps)

(Amps)

DCA+FIA O'/N)

< FLA ICSilColi300 401.0 40l.0 ICH0030A 402.5 N/A N/A Y

N/A I

IE22*S00lGIC C-6/Z-I IIIVCBBK200 39.1 43.0 ICK920BB 41.5 N/A N/A Y

N/A 2

IllVC*CillB C-17/Z-1 IHVCBBK201 39.1 43.0 ICK920BB 41.5 N/A N/A Y

N/A 2

IHVC*C111B C-17/Z-1 1HVRNOK001 62.0 713 ICK9390A 773 N/A N/A Y

N/A 3

liiVR*UC5 All-7/Z-1 1IIVYNNK037 36.I 39.7 iCK600NAI 31.0 50 0 N/A Y

DCA = 0 86 FLA 4

lHVY-C1113 PT-l/Z-1 l

Il1VYNNK044 12.0 13.2 ICK600NMi 10.5 17 3 N/A Y

DCA = 0 88 FIA 5

il1VY-Ulil5 PT-l/Z-1 IIIVYNNK045 12.0 13.2 ICK600NMI 10.5 173 N/A Y

DCA = 0.88 FLA 5

IHVY-UH16 PT-l/Z-I IHVYNNK046 12.0 13.2 ICK600NMI 10.5 173 N/A Y

DCA = 0.88 FLA 5

IHVY-UHI7 PT-1/Z-I IHVYNNK047 12.0 13_2 ICK600NMi 10.5 173 N/A Y

DCA = 0 88 FLA 5

IHVY-Ulil8 IT-1/Z-I IHVCBBL200 87.0 108 8 ITLO12B 102.9 N/A N/A Y

N/A 6

IHVC*ACU1B C-16/Z-1 i

IHVCBBL20I 85.0 106 3 1TLD12B 102.9 N/A N/A Y

N/A 7

IIIVC*ACU2B C-16/Z-1 Il1VKBBL200 137.0 1713 ITLol2B 135.6 N/A N/A Y

N/A 8

IIIVK*CHLIB C-16/Z-I tilVKBBL201 137.0 1713 ITLOI2B 155 6 N/A N/A Y

N/A 8

lilVK'CilLIB C-IfdZ-I

M CALCULATION WORK SIIEET CAIE. NO.- REV. ADDENDUM E-218 Rev.1 M

ENGINEERING DEPARTMENT

~bY RIVER BEND STATION JBI NO;-

1

,ct 3o oy Tabic 6.I II. K and L Cahics Cable No Status FLA Imd Raceway Itaatton #1:

Iteratuxi #2 Iteratm #3:

DCA Temperature EITects Notes Load ID (Amp)

(Amp)

FA/FZ DCA w/T-L DCA w/o T-L ltersta #2 Accept fix Iterate #1 DCA 3

(Amps)

(Amps)

DCA + FLA (Y/N)

< FLA IliVKDBL200 137.0 171.3 ITLol2B 155 6 N/A N/A Y

N/A 8

lilVK'CIILID C-16/Z-I tilVKDBL201 137.0 171.3 ITL012B 155.6 N/A N/A Y

N/A 8

IIIVK*CIILID C-16/Z-I

CALCULATION WORK SIIEET fJR REY. ADDENDMt F 218 Rev,1 ENGINEERING DEPARTMENT 1

- JBI NO.t Emnoy RIVER llEND STATION p3ct y or Notes to Table 6.1 1

ICSilCOll300 This cable is the IE22*S00lGIC Division til EDG output. Load = 401

= FLA Also, from a walkdown performed 1/21/97 (see Attachment 6), conduit IC110030A is not run with 5 other conduits to define CGDF = 0.86; it is run with 3 other i

conduits to define CGDF = 0 88. Based on this, DCA = 402.5 > Load. DCA is I

acceptable.

2 lilVCBBK200,201 From a walkdown performed 1/21/97 (see Attachment 6), conduit ICK920BB has suflicient spacing from other conduits that the default CGDF = 0.86 is not applicable, no other conduits are within I conduit diameter, therefore as built CGDF

= 1.0 Therefore, as built DCA = 35.7 + 0.86 = 41.5 and DCA = 1.06 FLA. DCA is l

considered acceptable for this non motor load (transformer with primarily resistive load) since it allow s for a continuous 6% overvoltage.

3 tilVRNOK001 CR 95 0887 (installed, but not yet as built) changed motor to 50 HP with FLA = 62 and LF = 1.15. There are 5 other cables in ICK9390A (17 wires total) which imposes a htCDF = 0 5. Of the 5 cables,4 are 3 phase power for hiOVs IE22*F004, F015. F012 and F023 (intermittent load); the fifth is a control power cable for tilVR*UC5 heater The h10V wires are non-current carrying conductors since they

)

are rarely energized. Therefore, with 12 fewer current carrying conductors, actual

}

htCDF=08 Therefore, DCA = 77.3 > Load = 71.3, DCA is acceptable without T L removal.

4 tilVYNNK037 The actual ADF value computed for this conduit in Ref. 51.1 was less than 21% which is the ADF value used for standard 1-hour wrapped conduit per Table 434 Therefore using an ACF of 0 79, the computed DCA = 39.5 = 1.09 FLA = 0.99 Load. This is considered acceptable without T L removal.

5 liiVYNNK44,45,46,47 T L removalis recommended for ICK600Nh1L These cables should be evaluated for excessive aging.

6 IHVCBBL200 - For the existing T L raceway ITL012B enclosure, DCA = 1,18 FLA.

This is considered acceptable for this motor load since it allows for a continuous 10%

undervoltage condition coincident with a 8% overload condition. The T L enclosure is being modified per hfR 91-0075 and the new WSDF will be 0.68 versus the existing 0.65.

Therefore, DCA = 1.24 FLA.

7 IHVCBBL201 - For the existing T L raceway ITL012B enclosure, DCA = 1.21 FLA.

This is considered acceptable for this motor load since it allows for a continuous 10%

undervoltage condition coincident with a 11% overload condition. The T-L enclosure is being modified per h1R 910075 and the new WSDF will be 0.68 versus the existing 0.65 Therefore, DCA = 1.27 FLA.

8 IHVKBBL200, 201, lHVKDBL200,201 For the existing T L raceway ITL0128 enclosure, DCA = 1.14 FLA. This is considered acceptable for these motor loads since it allows for a continuous 10% undervoltage condition coincident with a 4% overload condition The T L enclosure is being modified per htR 910075 and the new WSDF will be 0.68 versus the existing 0.65. Therefore, DCA = 1.19 FLA.

M CALCULATION WORK SilEET CAIJ' N. - REV. ADDENDUM N

ENGINEERING DEPARTMENT boy RIVER BEND STATION Sct JUI NO -

u or Table 6.2 C Cables Cable No. Status FLA Load Raceway licratam # I Iteratum #2.

Iterstan #3 DCA Temperature EITects Note Load ID (Amp)

(Amp)

FA/FZ DCA ufi-L DCA w/o T-L lteratam #2 Accept for Iteratam #I DCA l

T-L WSDF (Ampsi (Amps)

DCA FI.A (Y/NI FLA ICMSNRC507 12.8 14.1 ITC500R 7i 13.7 N/A Y

DCA = 0 55 FLA I,5 RC-4/Z-4 iTC504R I30 23 2 N/A Y

N/A RC-3/Z-4 ICMSNRC50M 10 0 II O ITC500R 7I 13 7 N/A Y

DCA -071ILA 1.5 RC-4/Z-4 ICMSNRC509 10 0 11 0 ITC500R 7I 13 7 N/A Y

DCA=071FLA 1.5 RC-4/Z-4 ICMSNRC510 13 2 14 5 ITC500R 7I 13 7 N/A Y

DCA = 0 54 FLA I,5 RC-4/Z-4 ITC504R I30 23 2 N/A Y

DCA=09xFLA RC-3/Z-4 lilVKBBC514 10 4 11.4 ITC048B 11.4 N/A N/A Y

N/A 2

tilVK'CitLI B-C-16/Z-I PNLCl liiVKDBC507 10.4 11.4 ITC048B II 4 N/A N/A Y

N/A 2

IllVK'CilLID-C-16/Z-1 PNLCl IRMSNBC525 10.0 12.5 ITC04MB i 1.4 N/A N/A Y

N/A 3

IRMS*REYl3B C-16/Z-1 IRMSNRC502 22.0 27.5 ITC600R 24 0 N/A N/A Y

N/A 4

i RMS* RE5A-1 FB-1/Z-1 1TC60iR 25 6 N/A N/A Y

FB-1/Z-2 i

CALCULATION WORK SIIEET cat c. so. nov. 4nnesons

t. m net. i ENGINEERING DEPARTMENT Jill NO t m anov RIVER BEND STATION iAct n or Notes to Table 6.2 I

ICNISNRC507. 8. 9.10 All of these cables are 120VAC power to heat trace circuits for containment atmosphere sample.:nes The heat tracing is designed to maintain the lines at a temperature abos e 21TF (around 250"F) so that condensation will not form in the lines before or during accidents Since normal containment temperature is between 90"F and 120"F, it is estimated that the heat tracing is energized frequently (i e it cannot be considered intermittent).

2 lHVKBBC514, lHVKDBC507 For the existing T L raceway ITC0488 enclosure, cable DCA = 1.1 Fles This is considered acceptable for these loads.

l 3

IRh1SNBC525 DCA = 1.14 FLA and the load is partly motor load. This is considered acceptable for this load smce it allows for a continuous 10% under or overvoltage condition coincident with a 4% os erload condition The T L enclosure is being modified per N!R 910075 and the new WSDF will be 0 68 versus the existing 0.65. Therefore, DCA = 1 19 FLA 4

IRN!SNRC502 DCA = 109 FLA and i 16 FLA.espectively. This is considered acceptable for this load since it allows for a continuous 10% under or overvoltage I

condition coincident with a 0% or 6% overload condition. T-L may be removed from f

trays ITC600R and ITC60lR. although it is not considered necessary.

5 The factors in the Iteration #1. Iteration #2, iteration #3 and Temperature Effects for iteration ul columns reflect that the ambient temperature for the raceway in the specified zone is 32 2"C A modified CADF using 32 2'C is used to increase DCA by a factor of l075 See Attachment 8 for funher analysis 6.1.2 PD31S Ampacity Calculation Results - All Results of all ampacity calculations are shown in the following attachments, Service Code H cables Service Code K cables - Senice Code L cables Senice Code C cables The attachments show the derating factors associated with each cable ampacity computation They also show the computed ampacity margin in Amps, hi(Amps), as-N!( Amps) = DCA - LoadAmp Ampacity results and associated data may also be viewed in PDhtS as follows.

Individual cable Screen Detail Selects. CT = CA DR Analysis Printed Detail Selects, CT = CA. DR Analysis, fl0 e

CALCULATION WORK SIIEET C^t.c. NO. REV. ADDENDL41 ENGINEERING DEPARTMENT E 2 tli Res. I RIVER BEND STATION awrenov J B t NO"+

l'A GE 14 OF 34 Report of all wrapped cables

(

L' tinted Ad Hoe Reports. SEL00036 e.

6.2 Summary ofllecommendations 6.2.1 Thermo Lag Removal I

Remove T L from the following raceways in the specified Fire Zone / Are Safe Shutdown Analysis (Reference 51 12)these raceways a e

x Table 6.2.1 Racewmy Fire Zone ICK600NAl PT l/Z 1 1CK600Nhti PT.t/Z 1 ITC500R RC-4/Z 4 '__

ITC504R RC 3/Z 4

• T L has been removed from this raceway.

6.2.2 Cables Requiring Temperature EITects Evaluation The following cables from Tables 6.1 and 6 2 should be evaluated to dete temperature etrects on cable insulation since the cables may have been su routing is involved rather than the entire cable toute. currents g ec e toload es Table 6.2.2 Cable Number R icew my IHWNNK037 FAlFZ (CK600NAl (CK600Nh11 PT l/Z 1 IHWNNK044 IHWNNK045 PT l/7. l ICK600Nh11 IHWNNKN6 PT l/Z 1 (CK600Nh11

__ lHWNNK047 PT l/Z 1 iCK600Nh11 PT l/Z 1 CR 97 0455 has been written to address the temperature etrects on t a on-

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D.,e: ORuf,97 Plant Data mensemamt system (PDMS)

Pose:

3 Derated Cables (tmeer Rated) - Wrapped Rus (mt y lLDCD lLaq ltf.

lRacewayId fRDCD lWraptype lFitt lQ lWSOF lTCDF lCGDF lm(3F lDC2 fe(Amps)

Load Id Amptu CADF Cable: 1DesAmK004 DCD: at 95-0021 l 53.750 l1.250 l1TK525m lmt96-0020 lsto(TR) l34.572l 5.582 l 137.30 l1.000 l0.560 l1.000 l1.000 l1.000 l 76.Se6 l 23.1M 10RS-UC1A-st mR 96-0020 137 Cable: 1DRSCmK004 DCD: <stamKm 1DRS-uC1C-st at % 0020 53.750 1.250 ffE525m STD(TR) 131 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.m 6 23.1 %

Tots-UCIC-st MR % 0020 53.750 1.250 1TK525m me W 0020 STD(it) 131 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.806 23.1M Cable: 10RSCmK004 DCD: at 95-0021 10RS-tr1C-st ma W OO20 53.750 1.250 1TK525m sta(TR) 131 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.8e6 23.1%

1DRS-UCIC-st me W OO20 53.750 1.250 tiK525m MR N 0020 STD(TR) 131 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.3e6 23.1M Cable: 10RstmK004 DCD: un 95-0021 10Rs-UC1E-st MR W OO20 53.750 1.250 1TK525m STDtTR) 131 34.572l 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.8e6 23.1 %

34.572 l 10Rs-UC1E-st me W OO20 53.750 1.250 1TK525m un %-0020

<"ATR) (31 5.582-137.30 1.000 0.560 1.000 1.000 1.000 76.8e6 23.1M Cable: 1EGFC0K001 DCD: <stAmKm f iEGF*P1C mt @ 0020 6.000 1.250 1CK9090a1 STD(CD) (13 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.450 8.255 2.255

'1EGF*Pic MR W OO20 6.000 1.250 1CK909041 MR 88-0220-F STD(CD) til 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.450 8.255 2.255 Cable: 1EmeseK002 DCD: <sLAmK>

1FuB*Invols-l l 37.625 l1.250 l1".K002s l

lUntouE-6(it) (31 l20.514l10.312l154.40l1.000l0.680l1.000l1.000l1.000l104.992l67.MT Cable: 1FMRPmK006 D(2: <stamK>

1FmR-P09 9.500 1.250 1TK525m siD(TR) (31 34.572 5.582 59.76 1.000 0.560 1.000 1.000 1.000 33.467 23.967 1Fut-P09 9.500 1.250 1TK525m amt 96-0020 STD(TR) [31 34.572 5.582 59.76 1.000 0.566 1.000 1.000 1.000 33.467 23.96T ICabie: 1FmRPmK010 DCD: < STANK >

1FmR-P13 9.500 1.250 stK525m sTD(TR) 131 34.572 5.582 86.82 1.000 0.560 1.00G 1.000 1.000 48.621 39.121 1FmR P13 9.500 1.250 1TK525m at %-0020 STD(TR) 131 34.572 5.582 86.a2 1.000 0.560 1.000 1.000 1.000 48.621 39.121 Cable: 1FMRPmK012 DCD: <stamKm 1FMR-P11 9.500 1.250 1TK525m STD(it) (31 34.572 5.582 86.82 1.000 0.560 1.000 1.000 1.000 48.621 39.121 Itme-P11 9.500 1 250 1TK525m an % 0020 sto(IR) 131 34.572 5.582 86.82 1.000 0.560 1.000 1.000 1.000 48.621 39.121 Cable: 1swteeK002 DCD: <stAmKm 1mVC*Fm2B me 96-0020 50.000 1.250 1TK0023 taleUE-6(TR) 131 20.514 l 10.312 118.01 1.000 0.680 1.000 1.000 1.000 30.248 30.249 12.110 l 19.166 126.40 1.000 0.600 1.000 t.003 1.000 85.952 35.952 favC*fm2s MR 96-0020 50.000 1.250 tit 0018 umIQUE-6(TR3 131 Report No.: RP100026 3 et to -

19:06:05

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I 2iver send Station Entergy operations, ter.

PIant 5'ata seanagement Srstees (PDees}

Date: 09/29/97 Derated Cables (under Bated) - Wrapped aus only Page:.

7 l

lLDCD ltoacaney lLF laaceyId laDCD lvraptype lFitt lo lasupis gF lusDF lTCDF lCx;DF lnos (OCA lsetasys) toad 13 Cable: 1wvvaut046 DCD: <SLAut>

l l 13.200 l1.100 l1CK600sset l

luutouE-1(CD) 1mvv-Uw17 l

0.000 l J.000 l 50.00 l0.8% l0.620 l1.000 l0.860 l0.450 l 10.730 l -2.

(11 Cable: INvvenK04T DCD: <SLAnK>

l l13.200l1.100l1rmaamm='1l lUuteUE-1(CD) l 0.003l 0.000 l 50.00 l0.8% l0.620 l1.00C l0.860 l0.450 l 10.730 l -2.4 1mvv-uet18 (11 Cable: 1JoemmK002 DCD: <eLAssKm 1JES-Etta 42.375 1.250 1TK525m sinia) 131 3a.572 5.582 137,30 1.000 0.560 1.C30 1.t300 1.000 T6. m 34.511

{

1JAS-EL13 42.375 1.250 1TK525m set 96 0020 STD(ta) 131 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000

76. m 34.511 l

Cable: 1LAcamK011 DCD: <stamKm l

l33.110l1.100l1CK921mG l

lSTD(CD) l 0.000l 0.000 l 97.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 65.902 l 32.79 11AC-CLCS E31 Cable: 1LAenenK004 DCD: <8tamK>

l l19.800l1.100l1CK600n02 l luulGUE-2(CD)

[1]

l 0.000l 0.000 l 130.00 l0.8% l0.620 l1.000 l0.860 l1.000 l 61.998 l 42l TLAm-CLs1 Cabie: 1Pos K00i DCD: <.LAmK>

l l19.800l1.100l1TK0025 l

lUnlouE-6(TR) l 20.514 l 10.312 l 56.72 l1.000 l0.680 l1.000 l1.000 l1.000 l 38.571 l 18 1 POP-LTGa03

[3]

Cabte: 1stsamK002 DCD: *BLAmK>

I 1033-D003A-F 1.750 1.250 'tiK525m STD(TR) 131 34.572 5.582 15.67 1.000 0.560 1.000 1.000 1.000 8.773 T.023 1233-DOO3A-F 1.750 1.250 1TK525m set 96-0020 STD(TR) 131 34.572 5.582 15.C y.000 0.560 1.000 1.000 1.000 8.773 7.023 I

Cable: 1stsaussE004 DCD: <5LAmK*

[

1833-0003A-F 1.750 1.250 1TK525m STD(ta) 131 34.572 5.582 75.67 1.000 0.5e4 1.000 1.000 1.000 8.T73 T.GZ3 i

1833 0003A-F 1.F50 1.250 1TK525m set 96-0020 STDife) 131 34.572 5.582 15.67 1.000 0.560 1.000 1.000 : 1.000 8.773 T.023 Cable: 1RCSauK014 DCD: <8tAssE>

j i

te33-D003A-P 65.000 1.250 1TK525m sfD(fe) (3) 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.306 11.se6 1833-0003A-P 65.000 1.250 1TK525m set 96-0020 STD(Ts) 131 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 so.se6 11.se6 j

Cable: 1RCSamsK016 DCD: <SLAsIK>

1833-D003A-P 65.000 1.250 1TK525m STD(TR) (31 34.572 5.582 137.30 1.000 0.560 1.000 1.000 1.000 76.See 11.886 1233-D003A-P 65.000 1.250 1TK525m est 96 0020 STDtta) 131 34.572 5.582 137JO 1.000 0.560 1.000 1.000 1.000 76.8e6 11.se6 i

r Cable: 44DCAeK500 DCD: <sLaseK>

l Iu22*PNLPOT2l l15.000l1.250l1CK9405A l lsTD(CD) l 0.000l 0.000 l 97.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 65.902 l 50.902

[3]

i I

2eport me.: RPI00026 T of to -

19:06:05 i

<sionE >

Jiver Send Station Entergy Operations, Inc.

Plant Data W System (PDetS)

Date: 09/29/97 Derated Cat >tes (tmder Rated) - Wragped RWs only Page:

8 fLDCL lLoadhapltF fEacemar Id lRDCD toad IJ l0 lAngase fW50F lfCDF fCGDI fmCDF f0CA

(#(hops)

W aptype Fett CADF Cat >t e: 1aDCApet501 DCD: <StAmK*

1N22*PetP071 31.250 1.250 11K500s 0

STD(Te) [3]

12.540 18.395 93.60 1.000 0 ~,60 1.000 1.000 1.000 52.416 21.1%

lu22*PetPOT1 31.250 1.250 stK500m sur 96-0020 STD(in) 131 12.540 18.395 93.60 1.000 0 560 1.000 1.000 1.000 52.416 21.tu 1N22*PmLPOT1 31.250 1.250 1TKS02R STD(ta) 131 4.199 66.610 93.60 1.000 0.560 1.000 1.000 1.000 52.416 21.146 1N22*PmLPOT1 31.250 1.250 1T602a est 96 0020 STD(TE) 131 4.199 66.610 93.60 1.000 0.560 1.000 1.000 1.000 52.416 21.166 Cat >te: 1RPSeeK001 DCD: astAmK>

1ePS*NRC1081l l66.110l1.100l1TK002s l

lUmlouE-6(TR) l 20.514 l 10.312 l 233.60 l1.000 l0.680 l1.000 l1.000 l1.000 l158.848 131 Cable: 1crama=001 DCD: <sLAmK>

l l19.800l1.100l1CK920mm l lSTD(CO) 131 l

0.000l 0.000 l 97.00 l1.000 l0.790 lt.000 l0.860 l1.000 l 65.902 l 46.1 15CA-MD1081 i

Cable: 1SCAenK003 D(3: <8LAmK>

l l19.800l1.100l1CK921eme l lSTD(CO)

I 15CA-mD10s2 l 0.000l 0.000 l 97 40 l1.000 l0.790 l1.000 l0.860 l1.000 l 65.902 l 46.

(31 Cable: 1SCADmK011 DCD: <3 LANK >

15CA-PmL2D3 15.000 1.250 1TK525m Sto(TR) [3]

34.5 72 5.582 86.82 1.00 0.560 1.000 1.000 1.000 48.621 33.621 i

15CA-PmL2D3 15.000 1.250 1TK525m est 96 0020 Stotte) (31 34.572 5.582 86.32 1.000,0.560 1.000 1.000 1.000 48.621 33.621 I

Cable: 15CAFesE006 DCD: <SLANK>

}

ISC3-PWL2F2 15.000 1.250 1TK525m STD(TR) 131 34.572 5.582 86.82 1.000 t.560 1.000 1.000 1.000 48.621 33.621 l

15CA-PmL2F2 15.000 1.250 1TK525m est 96-0020 STD(in) 131 34.572 5.582 86.82 1.000 0.560 t.000 1.000 1.000 48.621 33.621 l

Cable: 15CNeeK500 DCD: <stamKm l

l 87.500 l1.250 l1CK920ec l l$TD(CD) [3]

l 0.000l 0.000'l303.00l1.000l0.790l1.000l0.860l1.000l205.858l118.358 ISOs*PmLOIS Cable: 1SCvamKOO4 DCD: <sLAmKm l

l19.800l1.100l1TK203R l

lSTD(TR) l41.341l 4.523 l 78.16 l0.C94 {0.680 l1.C00 l1.000 l1.000 l 47.537 l 27.73

{

15CV*N016A1 111 Cable: ISCveeK001 DCD: <stamK>

l l19.800l1.100l1TK002s l

luuleK-6(TR) 131 l 20.514 l 10.312 l 118.01 l1.000 l0.680 l1.000 l1.000 l1.000 l 80.248 l 60.449 ISCV*MD881 Cable: 15CveeK002 DCD: <stamK>

l l19.800l1.100l1TK0028 l

lum!0uE-6(ta)[3]

l 20.514 l 10.312 l 81.23 l1.000 {0.680 l1.000 l1.000 l1.000 l 55.236 l 35.4%

150V*MD1481 Cabte: ISLSamK002 DCD: <SLANK>

1C41-0002 15.000

' 1. 2"-

IiK525m STD(TR) 131 34.57' '

5.582 41.73 1.000 0.560 1.000 1.000 1.000 23.370 8.370 34.511l 1C41-0002 15.000 1.250 11K525m esa 96 0020 STD(TR) 131 5.582 41.73 1.000 0.560 : 1.000 1.000 1.000 23.370 8.370 4

Seport No.: RPIOOO26 8 of 10 -

19:06:05

<se0RE

• 2swer send Stateori Entergy operatsans. Inc.

Date: 0s/29/97 Plant Data Itanagement system (PDets)

Page:

9 Derated CatMes (Under mated) - Wrapped nWs mty lLOCD lLoadampltf faacewayId fad (D fWraptype lFatt l0 l4mpaw lCADF fWSDF lTCDF lCGDF lseCDE lDCA lte(Amps)

Load Id Cable: 1stsamK003 DCD: <SLANK>

1C61-D003 60.125 1.250 1TK525m sTD(TR) 131 34.572 5.582 137.30 1.000 0.560 1.0G3l1.000 1.000 76.3e6 14.761 1C41-D003 60.125 - 1.250 : 1TK525m nF 96-0020 STD(Ta) (33 34.572 5.582 137.30 1.000 0.560 1.000 1.403 1.000 76.306 16.761 Cable: 1SWPARK017 DCD: <tLAmKm lsen96-0020 l65.000l1.250l1TK203a l

lsTD(TR)(11 l41.341l 4.523 l 123.59 l0.894 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.172 ISWP*F01A Cable: 15 week 004 DCD: < BLANKS I

1SWP*P3s 26.250 1.250 1TK002s unteuE-6(Ta) 131 20.514 10.312 81.23 1.000 0.680 1.000 1.000 1.000 55.236 28.986 1SWP*P3s 26.250 1.250 1TK001s untouE-6(TE) [3]

12.110 19.166 93.60 1.000 0.680 1.000i 1.000 1.000 63.648 37.398

(

Cable: 1$WPCmK003 DCD: <tLAmK.

lsen %-0020 l65.000l1.250l1TK203a l

lsTD(TR) l41.341l 4.523 l 123.59 l0.894 l0.no l1.000 l1.000 l1.000 l 3.172 l 10.172 ISWP*F 1C

[1]

Cable: ISWPDeK002 DCD: <5LANED 1SWP*P3D 26.250 1.250 1Tr002s untouE-6(Ta) (31 20.514 10.312 81.23 1.000 0.680 1.000 1.000 1.000 55.236 28.906 ISWP*P30 26.250 1.250 11TKOO13 umlauE-6(Tal 131 12.110 19.166 93.60 1.000 0.680 1.000 1.000 1.000 63.648 37.398 Cable: 156fTaK001 DCD: <BLAmK>

l sat 96 0020 l65.000l1.250l1TK203a l

lsiD(TR) ta[

l41.341l 4.523 l 123.59 l0.894 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.172 1SWP*F01E Cable: 1SWPGRK001 DCD: <stAmK>

lsen960020 l65.000l1.250l1TK203a l

lsiD(Ta) l41.341l 4.523 l 123.59 l0.894 l0.680 lT.000 l1.000 l1.000 l 75.172 l 10.172 1SWP*F;1G (11 Cable: 1SWPJnK001 DCD: <SLAmKm lum96-0020 l65.000l1.250l1TK203R l

lSTD(Ta) l41.341l 4.523 l 123.59 l0.896 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.172 til ISWP*F01J Cable: ISWPtaK001 DCD: <SLAure l41.341l 4.523 l 123.59 l0.894 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.172 lma96-0020 l65.000l1.250l1TK203a l

lsTD(Ta)111 1SWP*F01L Cable: 1SWranK003 D(D: <stamK>

l41.341l 4.523 l 123.29 l0.894 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.172 lna9.,-0020 l65.000l1.250ltTK203a l

lSTD(TE)111 1SWP*F01m Cable: 15wenK001 DCD: *SLAmK*

l41.341l 4.523 l 123.59 l0.894 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.1T2 l65.000l$.250l1TK203a l

lsiD(TR)(11 1SWP*F 10 sen 96-0020 Cable: ISWPsaK001 DCD: <tLAssKm l41.341l 4.523 l 123.59 l0.804 l0.680 l1.000 l1.000 l1.000 l 75.172 l 10.172 lMa96-0020 l65.000l1.250l1TK203a l

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Date: 09/30/97 i

Plant Dzta Management System (PDMS)

Dertted Cables (under Rated) - Wrapped RWs Only Page:

1 y

lLDCD lLoadnap lLF l Raceway Id lRDCD lWraptype l Fill lQ AmpRm CADF WSDF Load Id ffCDf fCliDF fMCDF lDCAlm(Amps)

Cable: 1ADSARC601 DCD: < slaw >

1 ADS *RvF 0.625 1.250 1TC500R STD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *CVF 0.625 1.250 1tC500R me 96 0020 STD(ta) (3) 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 tic 502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 b000 1.000 9.391 8.766 1 ADS *RvF 0.625 1.250 1TC502R mR %-0020 SID(IR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSARC603 DCD: <8tenK>

1 ADS *RvF 0.625 1.250 1TC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 ! 6.013 1 ADS *RVF 0.625 1.250 1TC500R mR W OO20 STD(TR) 13]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS +RvF 0.625 1.250 tic 502R SID(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1 ADS *RvF 0.625 1.250l11C502R nt 96 0020 STD(IR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSARC605 DCD: < SLAW >

1 ADS *pvF 0.625 1.250 ITC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS'RVF 0.625 1.250 1TC500R mR %-0020 STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 1TC502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1 ADS *RVF 0.625 1.250 1TC502R nt 96 0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.u00 1.000 1.000 1 9.391 8.766 Cable: 1ADSSRC603 DCD: < SLAW >

1 ADS *CVF 0.625 1.250 1TC500R STD(TR) 13]

$4.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 l

1 ADS +RvF 0.625 1.250 1TC500R mR W OO20 STD(TR) [3]

$4.029 3.302 11.85 1.000 0.560 ' 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 1TC502R STD(TR) [3]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391

8. 766 1 ADS *RvF 0.622 1.250 1TC502R set 96 0020 STD(IR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSSRC605 DCD: < SLAW >

i 1 ADS *RvF 0.625 1.250 tic 500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 l 6.013 1 ADS *RvF 0.625 1.250 1TC500R MR 96 0020 STD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013

[

1 ADS *RvF 0.625 1.250 1TC502R STD(TR) Cs 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1 ADS *RvF 0.625 1.250 1TC502R MR 96 0020 STD(TR) 13]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSBRC607 DCD: <BLAw>

1 ADS *RvF 0.625 1.250 1TC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RVF 0.625 1.250 tic 500R MR 96-0020 j STD(TR) 13]

54.029 3.302 11.85

• 000 0.560 1.000 1.000 1.000 6.638 6.013 j

Report Co.: RPT00026 1 of 94 -

07:25:11 1

<MORE>

f L

..m.

m Rivtr Send Station

~ Entergy Operations, Inc.

Plant Data Management System (PDMS)

Date: 09/30/97 t

Dertted Cables (under Rated) - Wrapped RWs Only Page:

2 lLDCD lLoadmap lLF lRacewayId lRDCD lWraptype lfitt lQ fAWu lCADF fWSDF l1CDF lCGDF fmCDf lDCA Load Id st(5)

Cable: 1ADSSRC607 DCD: <8LAK>

1 ADS *RVF

'O.625 1.250 tic 502R STD(1R) 13) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.72 1 ADS *Rvf 0.625 1.250 1TC502R sqa 96 0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.7%

t Cable: 1ADSCRC601 DCD: < SL AssE >

r 1 ADS'RVF 0.625 1.250 1TC500R SID(TR) 131 54.029 3.302 11.85l1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RVF 0.625 1.250 1TC500R mR 96 0020 STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS +RVF 0.625 1.250 1TC502R STo(TR) 131 29.950 6.608 16.77 1.000 0.560 1.0G' 1.000 1.000 9.391 8.766 1 ADS?RVF 0.625 1.250 tic 502R mR 96 0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000, 1.000 9.391 -

8.766 i

i Cable: 1ADSCRC603 DCD: <SLAseK>

p 1 ADS *RVF 0.625 1.250 '4TC500R STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 14DS*RVF 0.625 1.250 tic 500R MR 96-0020' STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RVF 0.625 1.250 liC502R STD(TR) (3) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.72

)

1 ADS *RVF 0.625 1.250 1TC5022 mR %-0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560l1.000 1.000 1.000 9.391 8.766 Cable: 1ADSCRC605 DCD: <8LAsen r

1 ADS'RVF 0.625 1.250 1TC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *IVF 0.625 1.250 liC500R MR %-0020 STD(IR) 131 54.029 3.302 11.85 1.000 0.560 1.0CJ 1.000 1.000 6.638 6.013 1 ADS *RVF 0.625 1.250 1TC502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1ADST.VF 0.625 1.250 1TC502R nt 96-0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSDRC603 DCD: <stAseK>

I 1 ADS *RVF 0.625 1.250 tic 500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 IIC500R MR 96-0020 STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 1TC502R STD(TR) 13]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1 ADS *RVF 0.625 1.250 1TC502R NR 96 0020 STD(it) [3]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSDRC605 DCD: <8LAacD 1 ADS *RVF 0.625 1.250 1TC500R SiD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 i

1 ADS *RVF 0.625 1.250 IIC500R MR 96-0020 STD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *CVF 0.625 1.250 tic 502R STD(TR) [3]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 t

1 ADS *RVF 0.625 1.250 1TC502R MR 96-0020 STD(TR) (3) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Report flo.: RPf00026 2 of 94 -

07:25:11

<MORE>

i

. -~

l l

liiwr Send Station Entergy Operations, Inc.

Date: 09/30/97 Plant fata Management System (PDMS)

Dertted Cables (under Rated) - Wrapped RWs Only

.Page:

3 lLDCD lLoadhap lLF l Raceway Id lRDCD fWraptype lFitt lQ l Ampaw lCADF lWSDF lTCDF fCGDF Load id lDCA lse( Amp.-)

siCDF l

Cable: 1ADSERC601 DCD:

8tAuK>

l 1 ADS *RvF 0.625 1.250 1TC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 1tC500R sut 96 0020 SID(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 ffC502R STD(IR) 131 29.950 6.608 16.T7 1.000 0.560 1.000 1.000 1.000 9.391 8.7%

l 1 ADS *Rvf 0.625 1.250 1TC502R set % 0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000l 1.000 9.391 8.766 i

Cable: 1ADSERC603 DCD: <8u JKn 1 ADS *RvF 0.625 1.250 1TC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *'RvF 0.625 1.250 tic 500R aut %-0020 STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013

[

1 ADS *RvF 0.625 1.250 tic 502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 t

1 ADS *RvF 0.625 1.250 11C502R sut W OO20 STD(IR) (31 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSFRC601 DCD: < St.AlsK >

1 ADS *RVF 0.625 1.250 tic 500R STD(TR) 131 54.029 3.302

'11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 1 ADS *RVF 0.625 1.250 1TC500R set 96 0020 STDifR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *Rvf 0.625 1.250 1TC502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 f

14DS*RVF 0.625 1.250 17C502R sut 96 0020 STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1ADSFRC603 DCD: <RLANK>

1 ADS *RVF 0.625 1.250 tic 500R STD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 tic 500R set W OO20 STD(IR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RVF 0.625 1.250 tic 502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1 ADS *RvF 0.625 1.250 liC502R sut 96 0020 STD(TR) [3]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 l

Cable: 1ADSCRC601 DCf: <8tAsst>

1 ADS *RvF 0.625 1.250 1TC500R STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 1 ADS *RvF 0.625 1.250 1TC500R set %-0020 STD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 6.013 t

1 ADS +RvF 0.625 1.250 1TC502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 1 ADS *RVF 0.625 1.250 1TC502R sut W OO20 STD(TR) (3) 29.950l 6.603 16.77 1.000 0.560 1.000 1.000 1.000 9.391 8.766 Cable: 1CCPARC011 DCD: <SLAasK) l 3Afu 3.000 1.000 1tC500R SID(TR) [3]

54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFu 3.000 1.000 1TC500R out %-0020 STD(IR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 y

Report no.: RP100026 3 of 94 -

07:25:11 t

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A a

A A

A a

A A

a A

A A

A a

A a

C C

a A

A A

e iRPD L

C 3

3 C

3 C

3 C

3 3

3 C

3 3

C 3

3 3

3 C

3 C

1 1

C 3

3 3

R I

l

. ~...

l l

River serd Station,

hvergyoperations,Inc.

'I Date: 09/30/97 j

Plant Esta Management System (PDMS)

Page:

5 Dercted Cables (Under Rated) - Wramed RWs only lLDCD lLoadeeplLF lRacewayId lRDCD lWraptype l Fill l0 lAnptw lCADF lWSDF lTCDF lC0DF lseCDF l3CA lM(Amps) toad Id Cable: ICMSARC522 DCD: <fttAmK>

lMR%-0020 13.736 l 16.526 l 17.60 l1.000 l0.560 1.000l1.000l9.856 3AFU 3.000 1.000 IIC503R STD(TR) [31 1.000 6.856 Cable: 1CMSARC523 DCD: <SLANK>

3AFU 3.000 1.000 1TC500R STD(IR) 131 54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 2.309 3AFU 3.000 1.000 1TC500m MR w o020 STD(IR) 131 54.029 3.302 9.48 1.000 0.560 1.000 1.000 1'.000 5.310 2.309 3AFU 3.000 1.000 1TC503R STD(TR) 131 13.736

.16.526 10.80 1.000 0.56C 1.000 1.000 1.000 6.048 3.048 3AFU 3.000 1.000 1TC503R MR 96 0020 STD(IR) 13]

13.736 16.526 10.80 1.000 0.560 1.000 1.000 1.000 6.048 3.048 Cable: ICMSARC534 DCD: <8LAmK>

5.465 l 2.465 3AFU 3.000 1.000 1TC502R STD(TR) 131 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 3AFU 3.000 1.600 1TC502R MR %-0020 STD(TR) 133 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.465 3AFU 3.000 1.000 1TC503R Sto(TR) 13]

13.736 16.526 14.40 1.000 0.560 1.000 1.000 1.000 8.064 5.064 3AFU 3.000 1.000 1TC503R MR @ 0020 STD(TR) [31 13.736 16.526 14.*O 1.000 0.560 1.000 1.000 1.000 8.064 5.064 Cable: 1CMSARC537 DCD: <SLANK>

3AFU 3.000 1.000 1TC500R STD(IR) 131 54.029 3.302 9.05 1.000 0.563 1.000 1.000 1.000 5.069 2.069 3AFU 3.000 1.000 1TC500R MR %-0020 STD(IR) 13]

54.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 2.069 3AFU 3.000 1.000 tic 502R STD(IR) 131 29.950 6.608 12.81 1.000 0.560 1.000 1.000 1.000 7.171 4.1 71 12.81l1.000 0.560 1.000 1.000 1.000 7.171 4.1 71 3 sFU 3.000 1.000 1TC502R MR 96 0020 SID(TR) 13]

29.950 6.608 Cable: ICMSARC538 DCD: <SLANK>

3AFU 3.000 1.000 1tC500R STD(TR) 13]

54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 2.309 3AFU 3.000 1.000 1TC500R MR %-0020 STD(TR) [3]

54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 2.309 3AFU 3.000 1.000 1TC502R STD(TR) (3) 29.950 6.608 10.80 1.000 0.560 1.000 1.000 1.000 6.048 3.048 3AFU 3.000 1.000 ifC502R MR %-0020 STD(IR) 13]

29.950 6.608 10.80 1.000l0.560 1.000 1.000 1.000 6.048 3.048 Cable: 1LitSARC540 DCD: <SLANE>

lSTD(TR) 131 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.465 3AFU 3.000 1.000 liC502R 3AFU 3.000 1.000 1TC502R MR 96-0020 STD(TR) (3) 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.465 3AFU 3.000 1.000 1TC503R STD(TR) (3) 13.736 16.526 14.40 1.000 0.560 1.000 1.000 1.000 8.064 5.064 3AFU 3.000 1.000 1TC503R MR 96 0020 gSto(TR) 131 13.736 16.526 14.40 1.000 0.560 1.000 1.000 1.000 8.064 5.064 Report to.: RPT00026 5 of 9/ -

0Tf25:11

<MORE>

m -

Rivar Send Stction Entergy Operations, Inc.

Ptant Data Management System (PDMS)

Date: 09/30/97 02ftted Cables (under Rated) - Wrapped RWs only Page:

6 lLDCD lLoadhap lLF lRacewayId lRDCD lWraptype lFitt f0 lAmpRw lCADF fWSDF liCDF lCLDF lMCDF lDCA les(Amps)

Load Id Cable: ICMSARC543 DCD: <stAMK>

3AFU 3.000 1.000 1TC502R SID(TR) (3) 29.950 6.608 9.76 1.000 0.560 1.000 1.000 I.000 5.465 2.45 t

3AFU

'3.000 1.000 11C502R MR W OO20 SID(TR) 13]

29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.461 iAFU 3.000 1.000 UC500R STD(TR) 131 54.029 3.302 6.90 1.000 0.560 1.000 1.000 1.000 3.863 0.863 3AFU 3.000 1.000 1TC500R MR 96-0020 STD(TR) 131 54.029 3.302 6.90 1.000 0.560 1.000 1.000 1.000 3.863 0.863 Cable: ICMSARC549 DCD: <SLAME>

3AFU 3.000 1.000 tic 502R STD(it) 13]

29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.465 i

3AFd 3.000 1.000 tic 502R MR %-0020 STD(TR) (3) 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 T.465 2.465 3AFU 3.000 1.000 tic 500R STD(TR) 131 54.029 3.302 6.90 1.000 0.560 1.000 1.000 1.000 3.863 0.863 3AFU 3.000 1.000 1TC500R MR %-0020 STD(TR) (3)

?4.029 3.302 6.90 1.000 0.560 1.000 1.000 1.000 3.863 0.863 Cable: 1CMSARC555 DCD: <8tAMK>

3AFU 3.000 1.000 1TC500R STD(TR) (31 54.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 2.069

[

3AFU 3.000 1.000 liC500R MR %-0020 STD(TR) 131 54.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 2.069 3AFU 3.000 1.000 1TC502R STD(it) 131 29.950 6.608 12.81 1.000 0.560 1.000 1.000 1.000 7.171 4.171 3AFU 3.000 1.000 tic 502R MR %-0020 STD(it) 131 29.950 6.608 12.81 1.000 0.560 1.000 1.000 1.000 7.171 4.171 j

Cable: ICMSARC556 DCD: <SLAME>

i 3AFU 3.000 1.000 1TC500R STD(TR) (3) 54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 2.309 3AFU 3.000 1.000 tic 500R MR % -0020 STD(IR) 131 54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 2.309 3AFU 3.000 1.000 1TC502R STD(TR) 131 29.950 6.608 10.80 1.000 0.560 1.000 1.000 1.000 6.048 3.068 3ATU 3.000 1.000 1TC502R MR %-0020 STD(TR) 131 29.950 6.608 10.80 1.000 0.560 1.000. 1.000 1.000 6.068 3.068 Cable: ICMSARC558 DCD: <BLAMK>

3AFU 3.000 1.000 1!C502R S'D(TR) (31 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.465 3AFU 3.000 1.000 1tC502R MR 4 0020 STD(TR) 131 29.950 6.608 9.76 1.000 0.560 1.000 1.000 1.000 5.465 2.465 3AFU 3.Fs00 1.000 1TC500R STD(TR) 13]

54.029 3.302 6.90 1.000 0.569 1.000 1.000 1.000 3.863 0.863 3AFU 3.000 1.000 1TC500R M.1 %-0020 STD(TR) (31 54.029 3.302 6.90 1.000 0.560 1.000 1.000 1.000 3.863 0.863 Cable: ICMSMRC507 DCD: <BLA4K>

1 CMS *CET1A 14.058 1.100 1T(500R STD(TR) (3) 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638

-7.420

+

i ICMS*CETTA 14.058 1.100 1TC500R MR 96-0020 STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638

-7.420 Report too.: RPT00026 6 of 94 -

07:25:11

< MORES 1

.m m

Rivsr Bend Station Entergy Operations, Inc.

Date: 09/30/97 Ptant Dita Management Systemi(PDMS)

Page:

7 Dertted Cables (Under Rated) - Wrapped RWs only lLDCD lLoadRaplLT l Raceway Id lRDCD lWraptype lfitt l0 lAspaw Load Id CADF WSDF ICDF CGDF MCDF DCA M(Raps)

Cable: ICMSmRC507 DCD: < BLANK) 1 CMS *CET1A 14.058 1.100 1TC504R l

STD(ta) 131 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096

-1.962 lMR960020 1 CMS *CEf14 14.058 1.100 1TC504R STD(TR) (3) 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096

-1.962 Cable: 1CMSmRC508 DCD: <8t AM>

1 CMS *CET2A 11.011 1.100 1TC500R STD(IR) 131 l 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1'.000 6.638

-4.373 1 CMS *CKf2A 11.011 1.100 1TC500R MR %-0020 STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638

-4.373 i

1 CMS *CKT2A 11.011 1.100 1TC504R STD(IR) 131 8.395 29.490 21.60 1.000 0.5o0 1.000 1.000 1.000 12.096 1.085 1 CMS *CKi2A 11.011 1.100 1TC504R MR %-0020 STD(IR) 131 8.395 27.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 1.085 Cable: ICMSWRC509 000: <sLANK>

1 CMS *CKT3A 11.011 1.100 1TC500R STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 I' 000 1.000 6.638

-4.373 a

1 CMS $CEi3A 11.011 1.100 1TC500R MR 96-0020 STD(IR) 131 54.029 3.302 11.85 1.000 C.560 1.000 1.000 1.000 6.638

-4.3 73 I

1 CMS *CET3A 11.011 1.100 tic 504R STD(TR) (3]

8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 1.085 1 CMS *CKT3A 11.011 1.100 1TC504R MR 96-0020 STD(TR) 131 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 1.085 Cable: ICMSNRC510 DCD: <8LANKP STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638

-7.860 1 CMS *CET4A 14.498 1.100 tic 500R i

1 CMS +CET4A 14.495 1.100 1TC500R MR %-0020 STD(ta) 13]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638

-7.860 l

1 CMS *CKi4A 14.498 1.100 1TC504R STD(TR) 131 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096

-2.402 1 CMS'CKi4A 14.498 1.100 1TC504R MR 96 0020 STD(TR) 131 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.0:5

-2.402 Cabte: ICMSTRC506 DCD: < BLANK >

5AFU 5.000 1.000 1TC500R STD(TR) 131 54.029 3.302l 9.48 1.000 0.560 1.0G0 1.000 1.000 5.310 0.310 SAfu 5.000 1.000 tic 500R MR 96 0020 STD(TR) [3]

54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 0.310 Cable: 1CMSTRC524 DCD: <sLAmK>

3Afu 3.000 1.000 tic 503R SID(TR) (3) 13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 l

3Afu 3.000 1.000 1TC503R MR 96 0020 STD(TR) (3]

13.736 16.226 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 I

3AFU 3.000 1.000 1TC502R STD(TR) 131 29.950 6.608 14.07 1.000 0.560 11.000 1.000 1.000 7.879 4.879 0.560l1.000 1.000 1.000 7.879 4.879 3Afu 3.000 1.000 1TC502R MR 96-0020 STD(TR) 131 29.950 6.608 14.07 1.000 Cable: ICMSTRC525 DCD: <RLANK>

l 13.736 l 16.526 l 17.60 l1.000 l0.560 l1.000 l1.000 l1.000 l. 9.856 l 6.856 l

l3.000l1.000l1TC503R l

lSID(TR)131 3AFu Report Ko.: RP!00026 7 of 94 -

07:25:11

<MORE>

~

River Bend Station Entergy Operations, Inc.

Plant Data Management System (PDMS)

Date: 09/30/97 Page:

8 kreted Cables (under Rated) - Wrapped RWs Only lLDCD lLoadAmplLF l Raceway id lRDCD lWraptype l Fill lQ lAmpRu lCADF lWSDF liCDF Load Id lm(DF lDCA lM(Reps)

CGDF Cable: ICMSVRC525 DCD: <8LA86KD 3AFu 3.000 1.000 trC503R set W OO20 STD(TR) [3]

13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 3AFU 3.000 1.000 1TC502R Sto(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 l

3AFu 3.000 1.000 1TC502R sut 96 0020 STD(TR) (3]

29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 Cable: 1CMSYAC526 DCD: < SL AseK >

f 3AFu 3.000 1.000 tic 502R STD(TR) (3) 29.950 6.608 10.8a 1.000 0.560 1.000 1.000 1.000 6.048 3.068 3AFU 3.000 1.000 1TC502R set 96-0020

$10(TR) [3]

29.950 6.608 10.80 1.000 0.560 1.000 1.000 1.000 6.068 3.048 Cable: 1CPMARC003 DCD: <SLAteK>

3AFu 3.000 1.000 1TC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 3Afu 3.000 1.000 tic 500R set % 0020 STD(TR) [3]

54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 3AFu 3.000 1.000 11C503R STD(TR) [3]

13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 l

3AFU 3.000 1.000 1TC503R set %0020 STD(T2) 131 13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 Cable: ICPMARC008 OCD: <8L AleK>

3Afu 3.000 1.000 1TC500R STD(TR) [3]

54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC500R set N 0020 STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFu 3.000 1.000 1TC502R STD(TR) 13]

29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFu 3.000 1.000 1TC502R set 96-0020 STD(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 Cable: ICPMARC010 DCD: <8tAfeK>

3AFu 3.000 1.000 1TC503R STD(TR) [3]

13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3Aru 3.000 1.000 1TC503R sut 96-0020 SID(TR) 131 13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3Aru 3.000 1.000 1TC502R STD(it) (3) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 3AFu 3.000 1.000 1TC502R sut %-0020 STD(TR) 131 29.950 6A08 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 Cabte: ICPMARC011 OCD: <fLAssE>

3AFu 3.000 1.000 liC503R STD(TR) (3) 13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3AFu 3.000 1.000 tic 503R sut %0020 STD(TR) 131 13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3Fu 3.000 1.000 1TC502R STD(TR) (3) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 3AFU

-3.000 1.000 1TC502R sen 96-0020 STD(TR) (3) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 Report iso.: RPT00026 8 of 94 07:25:11

<MORE>

River Sena Station Entergy Operations, Inc.

Date: 09/30/9 7 Plant Octa Managenent System (PDMS)

Page:

9 Dertted Cables (under Rated) - Wrapped RWs Only lLDCD lLoadAnp lLF l Raceway Id lRDCD lWraptype lFitt lQ lAmpRw lCADF ffCDF fMCDF lDCA lM(Amps)

Load Id CGDF WSDF Cable: 1CPMARCO24 000: <8 TANK >

3.000 1.000 5.569 2.569 3Afu 3.000 1.000 110500R STD(IR) (31 54.029 3.302 9.95 1.000 0.560 1.000 1

3AFU 3.000 1.000 1TC500R MR 96-0020 STD(IR) (3) 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3Afu 3.000 1.000 1TC503R STD(TR) [3]

13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 3ATU 3.000 1.000 1TC503R MR 96-0020 STD(TR) [3]

13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 l 6.856 Cabtz: ICPMARC507 DCD: <8 TANK >

1AFU 1.000 1.000 1TC500R STD(TR) 131 54.029 3.302 16.79 1.000 0.560 1.000 1.000 1.000 9.403 8.403 1AFU 1.000 1.000 11C500R MR 96-0020 STDt1R) 131 54.029 3.302 16.79 1.000 0.560 1.000 1.000 1.000 9.403 8.403 1AFU 1.000 1.000 1TK501R STD(TR) 131 3.911 72.415 28.80 1.000 0.560 1.000 1.000 1.000 16.128 15.128 1 '.F U 1.000 1.000 IIK501R pGi96-0020 STD(TR) 131 3.911 72.415 28.80 1.000 0.560 1.000 1.000 1.000 16.128 15.128 Cable: 1CPMCRC003 DCD: <8 LANK >

3AFU 3.000 1.000 1TC500R STD(IR) 131 54.029

3. ',0E 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AfD 3.000 1.000 IIC500R Ma %-0020 SID(TR) (31 54.029

3. 102 9.95 1.000 0.560 1.000 1.000 1.300 5.569 2.569 3AFU 3.000 1.000 liC502R STD(TR) 131 29.950 6.f281 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFU 3.000 1.000 IIC502R MR 96-0020 STD(TR) (31 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 Cable: 1CPMCRC006 DCD: <8 LANK >

3AFU 3.000 1.000 1TC500R STD(TR) (3) 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3Afu 3.000 1.000 tic 500R MR 96-0020 STD(1R) (3) 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC503R STD(TR) (3) 13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 3AFU 3.000 1.000 tic 503R MR 96-0020 STD(TR) [3]

13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 Cabte: ICPMcRC007 DCD: <8 TANK >

3AFU 3.000 1.000 tic 503R STD(TR) [3]

13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3AFU 3.000 1.000 1TC503R MR %-0020 STD(TR) (3) 13.736 16.526 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3AFU 3.000 1.000 1TC502R STD(TR) [3]

29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 3Afu 3.000 1.000 1TC502R MR 96-0020 STD(TR) (3) 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 Cable: ICSMAOC600 DCD: <8 LANK >

1H13*P751-CN 1.375 1.250 1CC9090A9 STD(CD) [3]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.045 1H13tP 751 -CN 1.375 1.250 1CC9090A9 MR 88-0220-f STD(CO) (31 0.000 0.000 27.00 1.000 0.790 1.000 ' 0.860 0.350 6.420 5.045 Report to.: RPIDOO26 9 of 94 -

07:25:11

<MORE >

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River Bend Station Entergy Operatiens, Im.

Date: 09/30/97 Plant D1ta Management System (PDMS)

Paee:

14 Dersted Cables (under Rated) - Wrapped RWs Only lLDCD lLoadAsplLF lRaccesay Id lRDCD lWraptype l Fell lQ lDCA 00($)

Load Id AspRes CADF WSDf TCDF CG)F 8eCDF Cable: ICSNNOC400 DCD: <SL AssE>

1E22*S004-1 6.250 1.250 1100020 STD(TR) til 40.773 4.597 17.07 1.000 0.680 1.000 1.000 1.000 11.606 5.356 IE22*S004-1 6.250 1.250 ICC9090A1 STD(CO) (31 0.000

'O.000 36.00 1.000 0.790 1.000 0.860 0.400 9.783 3.533 1E22*S004-1 6.250 1.250 ICC9090A1 MR 88-0220-f STD(CO) 131 0.000 0.000 36.00 1.000 0.770 1.000 0.860 : 0.400 9.733 3.533 Cable: ICSN40C450 DCD: <BLAleK>

I 1E22+PNLS001 0.300 1.250 1CC0020s STD(CO) [1]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 1E229NtS001 0.300 1.250 1TC0020 STD(TR) til 40.773 4.597 12.12 1.000 0.680 1.000 1.000 1.000 8.242 7.962 1E22'PNLS001 0.300 1.250 1CC9090A9 STD(CD) 131 0.000 0.000 27.')

1.000 0.790 1.000 0.860 0.350 6.420 6.120 1E22*PNLS001 0.300 1.250 1CC909049 aut 88-0220-7 STD(CO) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 - 0.350 6.420 6.120 Cable: ICSNes00451 DCD: <8LANKP 1N72*PNLP028 3.487 1.250 1CC00208 STD(CO) [1]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 2.933 1H22*PNLP028 3.487 1.250 11C0020 STD(IR) [1]

40.773 4.597 12.12 1.000 0.680 1.000 1.000 1.000 8.242 4.754 1N22*PNLP028 3.487 1.250 1CC9090A1 SID(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 3.850 IN22*Pn P028 3.487 1.250 1CC9090A1 NR 88-0220-F STD(CO) 13]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 3.850 Cable: ICSNNOC453 DCD: <stANE>

1N13tP751-CN 1.375 1.250 1CC0030C STD(CO) (11 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.045 1N13*P751-CN 1.375 1.250 11C0030 STD(TR) [1]

30.854 6.381 16.48 1.000 0.680 1.000 1.000 1.00r 11.206 9.831 Cable: ICSNNOC456 DCD: <SLA81Km 1E22*PNLS001 0.300 1.250 1CC00208 STD(CD) [1]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 1E22"PNL5001 0.300 1.250 11C0020 SID(TR) [1]

40.773 4.597 12.12 1.000 0.680 1.000 1.000 1.000 8.242 7.962 1E22*PNLS001 0.300 1.250 1CC909049 STD(CO) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 1E229 NLS001 0.300 1.250 1CC9090A9 sut 88-0220-7 STD(CO) [3]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 Cable: 1CSNes00457 00): <sLANK>

1N13*P751 CN 1.375 1.250 1CC0030C SID(CD) til 0.000 0.000 27.00 1.000 0.790~

1.000 0.860 0.350 6.420 5.045 1N131P751-CN -

1.375 1.250 tic 0030 SID(TR) [1]

30.854 6.381 16.48 1.000 0.680 1.000 1.000 1.000 11.206 9.831 I

C.sbl e: ICSNIf00502 DCD: <8tA06K>

1AfU 1.000 1.000 1CC91SOA STD(CD) [1]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.500 9.1 72 8.1 72 1Afu 1.000 1.000 1TC0020 SID(TR) til 40.773 4.597 12.12 1.000 0.680 1.000 1.000 1.000 8.242 7.242 Report Co.: RPIO0026 14 of 94 -

07:25:11

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Riv:r Send Stction Plant Data Management System (PONS)

Entergy Operat sons, Inc.

Date: 09/30/97 Dergted Tables (under Rated) - Wrapped RWs only Page:

18 lLDCD lLoadhaplLF lRacewayId l200D lWraptype lFilt fQ lAmpRw lCADF lWSDF lICDF Load Ed feeCDF CCDF OCA sh(Asups)

Cable: ICSNNOC606 DCD: <SLANK>

1E22*PNL5001 0.300 1.250 hCC0020s STD(CD) 111 0.000 1000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 IE22'PNLS001 0.300 1.250 1TC0020 STD(TR) til 40.773 4.597 13.99 1.000 0.680 1.000 1.000 1.000 9.512 9.212 1E22*PNLS001 0.300 1.250 1CC9090A9 STD(CO) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 1E22*PNtS001 0.300 1.250 1CC909049 seR 88-0220-F STD(CO)'[3]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 Cable: ICSNN00607 DCD: < BLANK) 1E22*PNLS001 0.300 1.250 1CC0020s STD(CO) (1) 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 l 6.120 1E22*PNLS001 0.300 1.250 1TC0020 STD(TR) 111 40.773 4.597 13.99 1.000 0.680 1.000 1.000 1.000 9.512 9.212 1E22*PNL5001 0.300 1.250 1CC9090A9 STD(00) (3) 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.* J 6.420 6.120 j

1E22*PNL5001 0.300 1.250 1CC909049 sut 88-0220-F STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 6.120 Cable: 1CShes0C608 DCD: <SLANE>

12132P712-CM 1.375 1.250 1CC00108 SID(CO) [1]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.800 14.675 13.300 1:13*P712-CN 1.375 1.250 1TC0010 STD(I') Ill 3.5 70 80.611 21.60 1.000 0.680 1.000 1.000 1.000 14.688 13.313 R

Cable: ICSMNOC610 DCD: <8 LANK >

1:22*PNLP028 3.487 1.250 1CC00208 SID(CO) 11) 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 2.933 1;:22*PNLP028 3.487 1.250 1100020 STD(TR) (11 40.773 4.597

11. 74 1.000 0.680 1.000 1.000 1.000 7.980 4.493 1N22*PNLP028 3.487 1.250 100909041 SID(CO) (3) 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 3.850 1N22+PNLP028 3.487 1.250l1CC9090A1 out 88-0220-F STD(CO) (31 0.000 0.00G 27.00 1.000 0.790 1.000 0.860 0.400 ;

7.338 3.850 Cabte: ICSNN00611 DCD: <5 LANK >

IN22*PNLP028 3.487 1.250 1CC0020e STD(CO) [1]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 2.933 1N22*PNLP028 3.487 1.250 1TC0020 STD(TR) [1]

40.773 4.597

11. 74 1.000 0.680 1.000 1.000 1.000 7.980 4.493

{

1:22*PNLP028 3.487 1.250 ICC9090A1 STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 3.850 1r22*PNLP028 3.487 1.250 1CC909041 out 88-0220-F STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860, 0.400 7.338 3.850 i

Cabte: ICSNNOC612 DCD: < BLANK >

1:22+PNLP028 3.487 1.250 1CC0020s Sto(CO) til 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 2.933 1r22+PNLP028 3.487 1.250 1i00020 STD(TR) III 40.773 4.597 13.99 1.000 0.680 1.000 1.000 1.000 9.512 6.024 i

t 1N22*PNLP028 3.487 1.250 1CC9090A1 STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 3.850 1H22*P%LP028 3.487 1.250 1CC9090A1 NR 88-0220-F STD(CD) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338

'* 850 l

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River send Station Entergy operations, Inc.

Date: 09/30/97 Plant Dita Management SWtem (PDMS)

Page:

21 02rsted Cables (under Rated) - Wrapped aus only lLDCD lLo.sdAmplLF lRacewayId lRDCD lWraptype lfitt l0 lAmpSw lCADF Load Ed WSDF ICDF CGDF MCDf DCA M(Amps)

Cable: ICSLNRC503 DCD: <aLANE>

bu l

l1.000l1.000l1TC502R lMR960020 fSTD(TR) l29.950l 6.508 l 14.53 l1.000 l0.560 l1.000 l1.000 l1.000 l 8.137 l 7.137 13]

Cable: 1DERARC500 DCD: <sLANK>

3Afu 3.000 1.000 110602R STD(TR) [3]

13.999 16.161 17.60 0.966 0.560 1.005 1.000 1.000 9.525 6.525 3AfD 3.000 1.000 1TC601R STD(TR) [3]

14.879 15.043 17.60 0.894 0.560 1.000 1.000 1.000 8.816 5.815 3AfD 3.000 1.000 1TC600R SID(IR) 131 20.863 10.109 17.40 0.894 0.560 1.000 1.000 1.000 8.71 7 5.716 Cabt*- DFMANC002 DCD: <8tAMK) l l3.000l1.000l1CK920NM l

lSID(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 6.172 1Dfn-SWC4A 131 Cable: 1DfMANC003 DCD: < BLANK >

l l3.000l1.000l1CK920NM l

lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 6.172 I

1Df3-LS107 (31 Cable: 1DRSNNC502 DCD: <SLANK>

1COS-UCIA-Mi 1.038 1.250 11C529N STD(IR) [31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 %

9.898 1DRS-UC1A Hi 1.038 1.250 liCS29N MR 96-0020 SID(TR) (3) 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 %

9.898 1DRS-UC1A Hi 1.038 1.250 1TC532N STD(TR) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 11.059 1DRS-UCIA Mi 1.038 1.250 1TC532N MR 96 0020 STD(TR) 131 9.286 25.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 11.059 i

Cable: 1DRSNNC502 DCD: MR 95-0021 I

1DRS-UC1A-HT 1.038 1.250 11C529N STD(IR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.936 9.898 9

t 1DRS-UC1A-HT 1.038 1.250 IIC529N MR %-0020 STD(1R) (3) 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9%

9.898 I

I 1DRS-UCIA-HT 1.038 1.250 1TC532N STD(TR) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 11.059 l

1DRS-UC1A-HT 1.038 1.250 1TC532N MR 96 0020 SID(TR) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 11.059

[

Cable: 1DRSNNC504 DCD: <SLANK>

1DRS-fS57A 0.062 1.250 1TCS29N STD(TR) 13]

23.117 8.960 16.38 1.000 0.560 (1.000 1.000 1.000 9.175 9.112 1DRS-fS57A 0.062 1.250 11C529N MR %-0020 STD(TR) 131 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.175 9.112 Cabte: 1DRSNNC508 DCD: <SLANK>

1 1C2$-UC1C-Hi 1.038 1.250 110529N STD(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 %

9.898 3

IDRS-UCIC-Hf 1.038 1.250 l..;529N MR 96 0020 STD(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000l1.000 10.9 %

9.898 Cable: 1DRSNNC508 DCD: MR 95-0021 l

l1.038l1.250l1TC529N l

lSID(IR) l23.117l 8.960l19.53l1.000l0.560l1.000l1.000l1.000l10.936l9.898 131 1DRS UC1C-HT Report 20.. RPI00026

- 21 of 94 -

07:25:11

<MORE>

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~,

Rivtr send Station Entergy operations, Inc.

Pi m t Dsta Management Systee (PDMS)

Date: 09/30/97 Pase:

22 Dergted Cables (under Rated) - Wrapped RWs Only

.lLDCD lLoadAnplLF

'lRacewayId lRDCD lWraptype lFitt fo lAmpaw lCADF lWSDF lTCDF fCCDF lMCDF fDCA Load Id

1. (Amps)

Cable: IDASNMC508 DCD: mR 95-0021 1.038l1.250 lSTD(11) l 23.117 l 8.960 l 19.53 l1.000 l0.560 l1.000 l1.000 l1.000 l 10.936 l 9 1DRS-UC1C NT 11C529N MR 96 0020 (3)

Cable: 1DR$NMC525 DCD: < STANK >

IDES-UC1E-NT 1.038 1.250 tics 29N SID(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.936 9.898 1DRS UC1E NT 1.038 1.250 1TC529N MR 96-0020

$!D(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.936 9.898 Cable: 1DR$NMC525 DCD: MR 95-0021 1DRS-UCIE-HT 1.038 1.250 liC529N SID(TR) (3) 23.117 8.960 19.53 1.000 0.560 1.000!*.000 1.000 10.936 9.898 1DRS-UC1E-NT i 1.038 1.250 tic 529N

. MR 96-0020 STD(TR) 13]

23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 ;

10.936 9.898 Cable: 1EGAARC601 DCD: (SLANLP 1EGS5PNL3A B 1.250 1.250 1CC907aA1 STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.170 1EGS*PteL3A-B 1.250 1.250 ICC007RA1 sNt 88-0220-F STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.3%:

6.420 5.170 Cable: 1EGASSC601 DCD: <8 LANK >

1EGS*PNL38-Bl l1.550l1.250l1CC1548E l

lSID(CO) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.400 l 6.563 l 5.013

[1]

Cable: 1EGA8BC603 DCD: <BLANKP l

l1.550l1.250l1CC154BE l

l$1D(CD) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.400 l 6.563 l 5.013 1EGS*PNL38.)

[1]

Cable: 1EGACRC600 D(3: < BLANK >

1EGS*PNL3A-s 1.250 1.230 1CC907aA1 STD(CO) 13]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.170 1EGS*PNL3A-8 1.250 1.250 1CC907RA1 MR 88-0220-F STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.170 Cable: 1EGACRC602 DCD: < BLANK >

i 1EGS5PNL3A-S 1.250 1.250 ICC907tA1 STD(CD) 13]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 S.170 1EG55PNL3A-B 1.250 1.250 1CC907RAI MR 88-0220-F STD(CO) 131 0.000 0.000 27.00 1.000 ' O.790 1.000 0.860 0.350 6.420 5.170 Cable: 1EGACRC604 DCD: <BLANE>

1EGS*PNL3A-8 1.250 1.250 1CC907RA1 STD(CO) [3]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.170 1EGS5PNL3A-s 1.250l1.250 1CC907RA1 MR 88-0220-F STD(CO) [3]

0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 5.170 Cable: 1EGADSC600 DCD: < BLANK >

1EGS*PNL3ei-sl l1.550l1.250l1CC908BA1 l

lSTD(CO) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.400 l 6.563 l 5.013

[1]

Cable: 1EGADBC602 DCD: <8 TANK >

1EGS*PNL38-Bl l1.550l1.250l10C9038A1 l

lSTD(CO) l 0.000l 0.000 l 27.00 l0.894 lC.790 l1.000 l0.860 l0.400 l 6.563 l 5.013 111 Report to.. RP100026

- 22 of 94 -

07:25:11

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Riv"ir Send Station Entergy Operations, Inc.

Data: 09/30/97 Plant Data Mana9ement System (PDMS)

Page:

24 D2rsted Cables (under Rated) - Wrapped RWs Only lLOCD l Load 4mplLF lRacewayId fRDCD lWraptype l Fell l CALF liCDF lCGDF fMCDF fDCA lse(Asgss)

Load Id Q

Ampaw WSDF Cable: 1EGS88C604 DCD: <SLANKP 1EGS*PmL28-3l l3.750l1.250l1CC1548F l

lSTD(CD) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.350 l 5.742 l 1.992 Ill Cabte: 1EGSesC605 DCD: <SLAmK>

1:13'P746-A5l l 3.750 l1.250 l1CC1540F l

lSTD(CD) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.350 l 5.742 l 1.992 til Cable: 1EGS83C607 DCD: <sLAssE>

l 1:13*P746-A5l l3.750l1.250l1CC1548F l

lSTD(CO) l 0.000l 0.000 l 27.00 l0.394 l0.790 l1.000 l0.860 l0.350 l 5.742 l 1.992 (1)

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l UNIQUE-3(TR) 131 1H13*P730-CN Report ico.: RPf00026

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River Send Station Entergy Operatsons, Inc. Cate: 09/30/97 Plant Data Management System (PDets) Page: 30 Dertted Cables (under Roted) - Wrapped RWs Only ltDCD lLa W lLF l Raceway Ed lRDCD lWraptype. l Fill ls lasuptw l CAM lWSOF lTCDf lCGDF lseCDF lDCA festasys) Load Id Cabte: tuvCARC576 DCD: <stasut> 1NwC*se0D7A 0.250 1.250 tic 201R uu!OUE-2(it) til 32.T99 5.938 13.77 0.894 0.680 1.000 1.000 1.000 8.378 8.128 1NvCm0D7A 0.250 1.250 tic 202R LustouE-2(TR) 111 35.425 5.424 13.16 0.894 0.680 1.000 1.000 1.000 8.007 T.M T 1NVC*se0DTA O.250 1.250 1TC206R uuIQUE-2(it) til 38.045 4.987 12.62 0.896 0.680 1.000 1.000 1.000 T.678 T.428 TNVC9007A 0.250 1.250 1TC205R untouE-2(IR) til 43 199 4.295 11.72 0.896 0.680 1.000 1.000 1.000 T.125 6.875 Cable: 1NvCBSCOC1 DCD: <sLAuK> l l3.000l1.000l1TC047s l lumieuE-6(TR) l 33.085 l 5.878 l 13.70 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.319 l 6.319 l 3AFU (3) Cabte: 1NwcasC002 DCD: <SLAmK> l l3.000l1.000l1TCJ478 f lustIQuE-6(TR) l33.085l 5.878 l 12.32 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.381 l 5.381 3AFU 131 Cable: 1NvC30C003 DCD: <SLANK> 3AFU 3.000 1.000 1TC0475 untouE-6(TR) 13] 33.085 5.878 15.82 1.000 0.680 1.000 1.000 1.000 10.755 T.755 3AFU 3.000 1.000 1CC047BE2 STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.800 14.675 11.675 Cable: 1NvCSSC004 DCD: <SLANK> l l3.000l1.000l17C0475 l lum!GuE-6(TR) l 33.085 l 5.878 l 15.82 l1.000 l0.600 l1.000 l1.000 l1.000 l 10.755 l T.755 3AFU (31 Cabte: INvtseC005 DCD: <8tAmte l l3.000l1.000l1tC047s l luutouE-6(TR) l33.085l 5.878 l 12.32 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.381 l 5.381 3Atu 131 Cable: 1NVCaeC006 DCD: <sLAmKm l l3.000l1.000l1tC047s l lumsouE-6(TR) (31l33.085l 5.878 l 12.08 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.213 l 5.213 3Atu Cable: 1NwCBSC007 DCD: <stAmK> l 33.005 l 5.878 l 12.08 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.213 l 5.213 l l3.000l1.000l1TC0475 l luuleuE-6(TR)131 3Afu Cable: INwCSSC008 DCD: <SLANKP l l3.000l1.000l1TC0475 l luuteuE-6(TR)131l33.005l 5.878l10.80l1.000l0.680l1.000l1.000l1.000lT.344l4.344 3AFU Cable: 1NvC3eCP99 DCD: <SLAmKm l33.085l 5.878 l 12.32 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.381 l 5.381 l l3.000l1.000l1TC0473 l luuleuE-6(TR)133 3AFU Cable: INvCaeC010 DCD: <sLAmK> l 33.005 l 5.878 l 13.27 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.021 l 6.023 l l3.000l1.000l1TC047s l lUntouE-6(TR) 131 3Atu Cable: 1NVCasC011 DCD: <5tAmKm l33.085l 5.878 l 13.70 l1.Poo l0.680 l1.000 l1.000 l1.003 l 9.3'7 l 6.319 l l3.000l1.000l1TC067B l lumIQUE6-(TR) 131 3AFU Seport to.: RPI00026 - 30 of 94 - 07:25:11 <se0RE>

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i 2iver send Station Erwersy Operations, Inc. Date: 09/30/97 ) Plant Data stenaeument system (PDets) Paer: 34 Derated Cables (under Rated) - Wrapped aus Chty lLDCD lLoadnglLF lRacewayId lRDCD lWraptype lFitt fG lAmpSe fCADF fWSDF lTCDF fCEDF f8tCDF fDCA lst(emqus) Load IA f Cabia: INvcesC553 DCD: <sLAmKm i 1NvC*FLT30-L 3.125 1.250 1TC0680 tsalouE-3(TE) 131 49.977 3.619 12.41 1.000 0.650 1.000 1.000 1.000 5.e66 4.962 tuvC*FLT38 L 3.125 1.250 1CC019eG STD(CD) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.800 14.675 11.55C Cabla: 1NYCeeC554 DCD: <SLANKS Satu 5.000 1.000 1*Je0024 sto(Js) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 5AFJ 5.000 1.000 1CC052BCT STD(CD) (31 0.000 0.000 4 27.00 1.000 0.790 1.000 3.860 0.700 12.361 7.361 l Cable: INvceeC555 DCB: <stamKm i 5AFU 5.000 1.000 1*Je0024 STD(A ) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.429 1.429 5AFU 5.000 1.000 1CC052ecT STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.361 T.061 Cable: tuvCesC555 DCD: out %0028 5AFU 5.000 1.000 1*Je0024 STD( A) 131 0.000 0.0uo 27.00 1.000 0.790 1.000 0.860 0.3% 6.4D 1.420 5AFU 5.000 1.000 1CC052eCT STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.861 T.361 l Cabte: luvCeGC556 DCD: <SLAmK> 5AFU 5.000 1.000 1*Ja0024 5T0(3) 131 0.000 0.000 2T.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 Saru 5.000 1.000 1CC052.CT STD(Co) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.861 7.861 Cable: 1MvceeC556 DCD: out 96-0028 1 5Aru 5.000 1.000 1*Je0024 STD(Je) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 l SAFU 5.006 1.000 ICC052ecT STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.861 T.861 Cabte: twvCasC557 DCD: <SLAAKS 5AFu 5.000 1.0C 1*Je0024 STo(Je) [31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 5AFu 5.000 1 1.000 1CC052eC6 STD(CD) [3] 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.861 7.861 Cable: twvceeC558 D(D: <stAmKm SAfu h 5.000 1.000 1*Je0024 STDCJe) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 SAFu 5.000 1.000 1CC052sC6 STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.361 T.361 Cante: InvceeC558 DCD: out W0028 SAru 5.000 1.000 1*Je0024 STD(Je) [3] 0.000 0.000 27.00 1.300 0.790 1.000 0.860 0.350 6.420 1.420 SAFu 5.000 1.000 1CC052906 STD(Cc) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700 12.861 7.861 Ceport No.: RPT00026 34 of 94 - 07,:25:11 <880RE>

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i k e e ,r 1 i i i k a l. s. i. k k k i n n i i n s 1 I I I I I I I I I I I I I I I I I I I L 1 a a a s s a a a s 1 i i I I ^ Im 1 i.I I. I I I. I I I I I. I. I I. I I.! = I i I I i]i f a f f 1 a f f 9 2 9 9 2 R 2 l .! 8 2 m a ~ E 3: 4 c 8 E i 4 1 a a1 2 }{% h 3 3 = m = m 3 = 3 s = 2 2 2 AE} b 3 3 b 3 3 b 3 3 3 b 3 3 3 3 3 3 3 b 3 b-3 b 3 b 3 3 3 =

Oiver send station intergy operations, Inc. Deta: 99/3e/97 Plant Data IIenat===nt system (Posts) Page: 36 serated Catetes (under Rated) - Wragged SWs Only lLOCD lLooselup lLF ltacewayId lNDQ) lWraptype lFitt l0 lAnysu lCADF lWSDF lTCDF fCGDF lmCDF fDCA fet(Amps) Load 89 Cat >te: 1WwtasC571 DCD: <sLANKS 5AFU 5.000 1.00G 1*Je0025 stD(Je) 131 0.000 0.0Jo 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 SAFu 5.000 1.000 1CC920eF3 stD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 3 500 9.172 4.1T2 0 Catete: InvceeC572 DCD: <sLAmKm l l 5.000 l1.00C l1CC019m1 l lsto(CO) 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 54Fu Catete: InvCeeC573 DCD: <sLAmK> l l 5.000 l1.000 l1CC019eD1 l lsfD(CD) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 5AFU 131 Cat >te: InwCe0C574 DCD: <sLAmK> l l5.000l1.000l1CC019eD1 l lsto(CD) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 5AF3 131 Catete: InwteeC576 DCD: <sLAmK> SAFU 5.000 1.000 1CC920eF5 sto(CD) (31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.500 9.172 4.1 72 5AFU 5.000 1.00u 1*Je0025 STD(m) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 3.350 6.420 1.420 Satu 5.000 1.000 1CC920er3 stD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.500 9.1 72 4.172 Cat >te: INvceeC577 DCD: <stamK. 1 5AFU 5.000 1.000 1CC920eF5 3TD(C0) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.500 9.172 4.172 5AFu 5.000 1.000 1*Je0025 STD(m ) (31 3.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 5AFU 5.000 f.000 1CC920eF3 STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.500 9.172 4.172 Cat >te: INVC$eC580 DCD: <eLANE> 5AFu 5.000 1.000 1CC019eE STD(CD) (31 0.000 0.000 27.00 1.000 0.Tv0 1.000 0.860 0.450 8.255 3.255 5Aru 5.000 1.000 1*Je0141 STD(m) [3] 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 SAFU 5.000 1.000 1CC052eC1 STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 T.338 2.338 5aru 5.000 1.000 1*Je0024 sfD(Je) 131 0.000j 0.000 27.00 1.000 0.790 1.000 0.860j o.350 6.420 1.420 Cat >te: InwceeC580 DCD: M 96-0028 5AFU 5.000 1.000 1CC019eE STD(CD) [31 0.000 i 0.000 27.00 1.000 0.790 1.000 0.860 0.450 8.255 3.255 5AFU 5.000 1.000 1*Je0141 STD( m ) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 SAFU 5.000 1.000 1CC052eC1 STD(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 2.338 SAFu 5.000 1.000 1*Je0024 sfD(Js) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 1.420 Ceport No.- RPTOOO26 - 36 of 94-- 07:25:11 480RE>

e-a 4-2 ,S U R 5 2 2 E = 2 4 3 .C 4 su ~ o ~ R E a J f 4 J a d d d i O i c 9 g ,J_ o a.) N s e a e e e e 2 3 = e u 3 e 3 e. W 4 9 9 N. 9 g g 3 e e x e I I 3 k h I Q a a d a d i d d a a a d d a d a I a 3 3 3 3 3 3 I 3 a 3 3 I I 3 a a d d a d a d a d i g a H H H H H E I E a H H H H H H a a a a a a a a a a a a a a $ k E E E k E E E k E E E

• l d

d a d d i a d i d d I I I I I I a a i I I I I I a a 8 a a a a S U S 8 8 8 8 8 2 8 8 8 8 8 8 8 f d d d N N N N d d d d d d N d d 5 i H H I R R I 5 I 5 I I I I I J d a d d d a a i a G b p a g g 3 o o o o o o p o o o e o l a t c c c c o 4 g 3 m a 5 m a 2 3 = m 5 g a g I g g w w w w a e a a a m a e a a e a a E g g 8 8 8 4 8 4 g 8 g 8 8 8 8 8 ~ 2 E E E E E E E E E E E g -g g 5 5 ~ ~ ~ mem=amm o 2 l l I 2 I R I 9 A 4 1 l l 3 g 3 ~ E g g E 3.* E 3 I I 6 6 I I I I I I I I I E 6 IQ s a a a a a a a a a a a a g ^' a S S I I a a a a a a f 8 8 8 a i3 j* s s s. d 4 5 5 5 k I l 5 5 5 5 h .d. W 5 W W W e f W W W 4 55 2 a s a a E n, z e c e 3 f 5 5 5 5 v u e u ~, u e r u e ad]3's hhj;a ~3a 3 a s 3 a 3 s a 3 a a k.- 2 j 2 2 2 2 2 2 2 2 j 2 g g g j g j h h ~ ,o 5 o o m o

Jiver Send st& tion Entergy operet sons, Inc. Data: 09/3a/97 Plant Data nonagement system (Posts) Page: 38 Derated Cables (Under Rated) - Wrapped RWs Only lLDCD lLa W lLF lRacewayId laD(D lUraptype - l Felt lQ lAmpsw lCAOF lWSDF Load Id fCEDF TCDF MCDF DCA

1. (Amps)

Cable: InvCC0C002 DCD: <SLAmK> 3AFU 3.000 1.000 1TC0030 STD(Te) 111 30.854 6.381 12.58 1.000 0.680 1.000 1.000 1.000 8.557 5.55T ! 3AFU 3.000 1.000 1CC0030E2 STD(CD) 111 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.450 8.255 5.255 l Cable: InvCC0C500 DCD: <sLAmK> 3AFU 3.000 1.000 1CC00304 STD(CD) (11 0.000 0.000 27.00 1.00c 0.790 1.000 0.860 1.000 18.344 15.344 3AFU 3.000 1.000 1TC0030 STD(Ta) 111 30.854 6.381 16.48 1.000 0.680 1.000 1.000 1.000 11.206 8.206 Cable: INYCC00501 DCD: <8tamK> j 3AFU 3.000 1.000 trran h STD(CD) (11 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 3.429 3AF3 3.000 1.000 1TC0030 STD(TR) til 30.854 6.381 16.48 1.000 0.680 1.000 1.000 1.000 11.296 8.236 Cable: tuvCC0C501 DCD: Ist %-0062 3AFU 3.000 1.000 1CC00308 STD(CO' '11 0.000 0.000 27.00 1.000 0.30 1.000 0.860 0.350 6.420 ! 3.420 3AFU 3.000 1.000 1TC0030 STD(TR, III 30.854 6.381 16.48 1.000 0.680 1.000 1.000 1.0I0 11.206 8.206 Cable: 1NYCESC001 DCD: <SLAssE> l l'3.000l1.000l1TC0475 l luntouE-6(TR) l33.085l 5.878l12.08l1.000l0.680l1.000l1.000l1.000l8.213l5.213 3AFU 13] Cable: tuvCFOC002 DCD: <SLAssE> 4 3AFU 3.000 1.000 1iC0030 siv(Ta3 (11 30.954 6.381 12.58 1.000 0.680 1.000 1.000 1.000 8.557 5.557 3AFU 3.000 1.000 1CC0030E2 STD(CD) (11 0.000 0.C00 27.00 1.000 0.790 1.000 0.860 0.450 8.255 5.255 Cabte: INwasmC506 DCD: <SLAmKm tuvC-tm4 10.413 1.250 1CC920mJ STD(CD) 131 0.000 0.000 36.00 1.000 0.790 1.000 0.860 0.500 12.229 1.817 tuvC-tm4 10.413 1.250 1CC920mJ4 STD(CD) [31 0.000 0.000 36.00 1.000 0.790 1.000 0.860 1.000 24.458 14.046 Cable: INYCamC514 DCD: <SLAmKm l l0.100l1.250l1CC920mv l lsTDtCO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 18.344 l 18.244 1NvC-Tis 131 (31 Cable: 1NvtumC519 DCD: <sLAmK> 1NvC-tis 141 0.100 1.250 1CC920mJ STo(CD) 131 0.000 0.000 36.00 1.000

0. 90 1.000 0.860 0.500 12.229 12.129 1NvC-tis 141 0.100 1.250 1CC920mJ8 STD(CO) 131 0.000 0.000 36.00 1.000 0.790 1.000 : 0.860 1.000 24.458 J 24.358 Cable: InvcumC557 DCO: < stank >

l l1.250l1.250l1CC920ssJ l lsTD(CD) l 0.000l 0.000 l 36.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 12.229 l 10.979 1NvC-F313 131 1 Ceport mo.: RPT00026 - 38 cf 94 - 07:25:11 <n0RE

• 1

Ag e 2 2 C. 2 2 R "a S 5-2 5 2 2 e a c 5 E 4 J d 4 6 J J J d 6 a J a J .i A Q l g E A' 4' t" 2 R R R C 2 N 2 g C 5 "- 5 2 2 e s of g g g g g o I I I E I 6 d d d d d d d d d 6 d d d d d 4 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 a d 4 5 d d d I I. I. I. I. I I I a a.a. H. I. a. a. e E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. g o o o o o o o o o o o o o o o o I I E E I I I 8 a a a a a a a a a a a a a a a 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 2 f d d d d d N d d d d d d d d d d 3 3 I a a H H H I E a R H H H E d d d i d d 4 d d d J e i $ k 5 5 $. I. o o o o o o o o o o o o o o o p g a g 5 g A 9 m 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 E t } i 8 4 8 4 8 4 4 4 8 8 4 8 4 8 8 g e x x g x x x x g a x x x x x x 5 a a a a a a a a a a a a a s I 1 i g i i e a E a e i 9 ! 5 3 5 9 9 9 9 5 5 e 3 3 i E I I I I I I H H H H H I I I I a a a a a a a a a a a a a a I a I I I I I H I I I I I a f H ^ I3 j s a s s s s s s j,' [ g I l 1 [ l. I l 1 V W W .e.; 2 9 9 9 9 9 9 9 k 9 9 9 .! a j s 8 s 3 9 l 9 e e e a a 5: 9 9 9 9 9 9 5 "l i i i i 9 i i 9 9 }gi u 3 e a )]. 3 3 AII g 833$33b38 3 3 8 $ 5 b 3 s = 3 m a s 3 3 3 3 3 3 3 m m 2 3" 8 3" 3" $ $ 3" h

l E E S S 1 0 5 3 R S I S E I 1 3 "s h h 4 4 J d M M J N J i g' n' 0 4 i i d M d n g r a .k h k k k k k ! $ k k k. k k k k ! k 0 ! ! o o g e ~ e e a x x ) I I 0 $ I 6 $ 6 I I I I I I I, 9 d a 4 d J J J J a J s .k

k. k k.! ! !

$. k k I. k k k. S. k o o o E b. S. k $. ! $. k ! k $. $. $. $. E. $ E E E E E E E E E 6 E 3 3 E E E 3 d d d d d d d d d d d d d d d d d d e d I I I $ I I E I I I $ I a J J a J J J J J J J d d J J 8 8 8 8 8 3 8 8 8 8 R 8 2 3 3 8 8 8 8 3 f d d d d d d d d d d d d dd d d d d d d I I I I I & I I I E 5 I E E E I I I I 3 4 M d d M d i i d d f a _.) _i k $ k k k k ! k k I. ! $. k. o e o o o g o o o o g a g g e o o o o p g e i 0 5 5 5 S A c c c c c c c c

c c c c c c c c c t

f 9 ? ~ ~ ~ ~ ~ ~ ~ ~ .E g 8 8 8 8 8 I 8 4 8 4 I 8 5 5 8 8 9 8 2 R. 9 R. e 5 B. B. R. 9 8 R R. R. R. R R R S. ~ ~ 5 t = y 5 5 9 9 5,$ $ 5 9 i 3 = = = = = = k k k k k k k k $ k k k a a a a a a a a g ll { f 2 I I I I I I I E 8 I I I I I I a a M d M M M M M M M M N N l M M M M M M M M A A A A A A A i E z 1 1 1 i 8 1 1 i y a, y =, 3, a, a gg v g 4 8' 8' 8! 9 E e a a 8 E 8 g e a x A o e a, e 1 g ff"g ~8 y I 5 t a f e e i vii j 8 i 8 E R 8 3 8 3 3 3 s i i 8 3 E R R R 8 i R a R z 2 2 2 2 t 3 2 nri g

I E E S 1 I E I 1 9 2 5 5 E I H "3 k i a a A s a s a e s a a J e a a a s e n 1 6 j.i % 4 I .$ 4 @ U 3 I @ I I I I I H I I I I I I I I I I 6 I I I Q a a a a s a a a a s s a a a a a a a a I I I I I I I I I I 1 i H H I I 1 8 8 I 8 a a a a a a a a a a s s a a a a a a a a I I I I I I I I I I I I I I I I I I I I 9 a a a a a a a a a a a a a a a a @ @ H. @ $ O O O O O O O O O O O O O O O O O O O O 1 1 i i i I i 3 i i i I I i i i I i i 1 8 s s s s s a s s s s a s s s s a a s s s S 4 3 S S 8 8 3 3 k 8 8 3 2 S S 8 S S 3 j n n S n S W W W W 6 W W 6 s i i n n n 6 a 8 2 I $s 8 t 3 I 2 3 3 a I 2 a 8 8 8 d d 5 i d 5 d i g E 3 $ f f I f G E I I I f G H I f G E = i n n i 6 a a d i n a a i i i n a d i n ( s ^ I k a 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 E a g g g g :: g s g e c = = =

e. e e

e. e.

e e. e

e. e.

e

e. e.

e

e. e.

e.

e. e e.

I 2 i e e a s i e e s e a e a s s a s .f 3 $ 5 3 3 g 3 3 3 l g 3 3 3 3 g a 3 3 = = = g 1 I I I I I I I I I I I I I I I I I I I I a a. a a a a a a a a a a a a a a i, j# I I I I I I I I I I I I I I I I I I I I ~ s s s a s

s s s s

s s

l. g i I [ l p e-3 V V e V 1: a 9 9 9 9 9 2 2 l 8! 2 h ~ s =E E ]g8 i i i i i i 1 2 U U U U U U U ~ IS* 2 2 2 2 2 2 2 2 2 2 g 2 2 2 2 2 2 2 g 2 2 2 ( ath ]- 8 a a 8 a a a 8 s a s s s 1 s s 8 s s a 8 s 1 s s

U I k k S g! k k:$ k k k k k k k k I. Y- ^ h .a a a a g g e o o o e e c = s J-jj k k k I $ ! k k I k ,k k k k N e g e e x t e k I. S. E. i I .E k I. _$! I. I I. E. S. 5 E. E I. I, I, I, I, I, I, I, I, I, 3 3 3 3 3 3 3 3 3 I E I I I I 3 3 3

• I d

d d d d d d d d d d a e e d d d d 1 i i i i I L l I I I I I I i i 8 8 4 5 d i e a d a a a a a a a S 2 8 3 3 3 4 3 3 8 8 5 3 2 3 8 8 2 f d d d d d d d d d S d d d d d d 5 8 a a s 3 3 3 3 e. I 2 2 2 3 a a 3 i i i i i s A A A A i i i 0 a s t. a y R a a R a R I, I, I, t t. I, I, R t t f, v e 3 y 3 2 2 2 3 0 2 3 A S S A 3 2 3 0 g A g '~ ~ e, m a c g 2 3 ~ w w 2 C C C C U a c c e o e c = c c c = c c e c t g ? s. ? ? ? ? i 2 2 2 2 2 g 8 g g g E y y w e 2 Ilr E 3 3 5 E y 5 K y 3 ~ 5 j'. s G 3 3 m G 3 E 5 5 5 5 h 2 I' 5 I 5 5 5 I 5 5 9' 5 5 5 3 3 3 3 3 a a 3 a 6 s s s e a 3 g 3 = = = = = = = = = = = o I I I I 6 6 6 I I I I I I 2 6 I 6 6 6 a a J J J a a a a J f I I I I 6 0 0 I I I I I I I E I ~ ty } i A A i i A A A a s A i a a ~1

• _ I Y

h I I I a a g '. 4 I I I I d, g; v v v v v v i ..E 8 8 8 ~ 3 4 s s o z o e o 8 m I ad, I a 3 .I I 6-o - E t I 3 3 5 2 s s 3 t C I C E R R ja,5 R C t 2 3, g' g' 4 4 a a u u u u -u u u v v v v v r r r bl* r,r1 ]. j 2 2 2 j =W=W=W11 5 3 a 3 a 3 a 3 a 3 m .h ". 2 2 2 2 2 2 j g g

• o a

a a j o s 3 a a o

-.__ - _ - _ - __~ _ -,__ $U 3 h 4 I E U E E I E E ~. ~ 6 6 d A d d d d d d d d d d d d W j R i a r g kh k k k k 0 b. k k k k k k k k k k k k a' 5 5 C R 8 3 R = I I E E E E I E $ I Q d d a d a d d e .k I k k k 3 I I I I I k I I k k k O O O O O O B I k I I E I. 3 I. I I I I I 3 I I I I E E E E E 3 3 3 3 3$ 3 3 3 E E d d d d d d d d d d d d d d d d d d E E i i a i a i 6 i 1 6 a 8 8 8 8 8 a d d d dy d a R S 8 8 8 8 4 3 S 2 S S d 3 3 8 8 8 y a a a u R' a a a a a a a n n n n n n R ~ n R n n n n n a k a a a a

• k k
• k a
• k k a a a a

e 2 c 3 2 C 2 c O i k k k b. k k b. k k kE E. E. A R 3 R 3 c R 3 a l 8 1 A I t c 0 V t c c c c c c c c c c c c c c c c c t g ? E 8 g 8 8 8 8 = 2 2 5 2 8 9 8 t E E E E E E E E E E E E E E E E E a 3 5 G E 3 3 3 G 3 3 3 3 3 3 3 3 3 3 8 9 3 2 A 2 M k. g 2 R E 5 I 5 5 l lel

• i B

i 8 3 3 8 3 8 8 3 8 i .x s = = = = = = = = = = h k k k k b k k k k k k k b b k k a a a 3 8 8 8 2 R R R 2 2 2 3 3 3 3 3 3 l3 9 a. 9 9 9 A O A A M M A M A O A O O O A O O O O O O O O O 4 1 1 1 1 F. j 3 e" 1 1 1 ( ( W W .e.; R R R 8 8 8 8 8 51"g O O O 8 8 8 8 8 8 8 ~ g ~ O g g i "g g _" E u t a C 0 y i I E E E s = 3 Y i s.- r R e n e a 3, 3, 3, 3, "ma a a a a a s = a 4 32y m G Q ~ ~ ~ ~ ~ ~ 5 G G G 5 5 U t U U U U y y U t t U t t t t t t ~ $5 2 2 2 g y h a rl' ] 3 -} 3 =W3 a 8 a 3 a ~ ~ 5 t 5 j y g } j g } a* E 5 5 3 a s s o o m

i 1 ' liver Send Statson Entergy operations, Inc. Cate: 09/30/97 Ptant Data seanagement Srstee (PDRs) Page: Derated Cables (thder Rated) - Urapped aws only lLDCD lLoadmaplLF lRaccesay Id lRDCD lWraptype lfitt l0 lAmpem lCADF lWSof lTC)F lCGD5 f4CDF lDCA lss(Aeps) Load IA Cable: 1NwtARC003 D(D: <SLAsut> a l l3.000l1.000l1CCO23aA2 l lsTD(CD) l 0.000 l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.E1 l 9. 3AFU 131 Cabte: twwKARC016 DCD: <stassE> l l3.000l1.000l1Ct023aA2 l lsTD(CC) l 0.000l 0.000l27.00l1.000l0.790l1.000l0.860l0.700l12.341l9.841 3Atu 131 4 Cable: InvtARC539 DCD: <stAsst> l l3.000l1.C00l1CCO23aA2 l lsTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 0.70Cl12.841l9.E1 3Atu 133 Cable: 1NwKasC001 DCD: <tLAssKm l l3.000l1.000l1TC0473 l luutouE-6(TR) l33.085l 5.878l12.32l1.000l0.680l1.000l1.000lt.000l8.381l5.381 3AFu 131 Cable: 1NwtOSC003 DCD: <SLAssE> 3Atu 3.000 1.000 1TC047s uuIQUE-6(TR) [3] 33.085 5.878 15.82 1.000 0.680 1.000 1.000 1.000 10.755 T.55 3Afu 3.000 1.000 - ICC047BE1 STD(CD) 131 0.000 0.000 27.60 1.000 0.790 1.000 0.860 0.700 12.E1 9.841 Cable: InwKasC004 DCD: <sLAsut> l l3.000l1.000l1TC047s l luu!GUE-6(TR) l33.085l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l T.755 3Aru 131 Cable: INwEteC005 DCD: <BL AssE > l l3.000l1.000l1TC047s l luuTQUE-6(12) l33.085l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l T.755 3Aru 131 Cable: 1NwK9eC006 DCD: <sLAssE> l l3.000l1.000l1TC048s l ~ 'luutGUE-3(TR) 131l49.977l 3.619l10.75-l1.000l0.650l1.000l1.000lt000l6.990l3.990 3AFu Cabte: INwKSSC007 DCD: <SLAssKm 4' l l3.000l1.000l1TC048s l luntouE-3(TR) l 49.977 l 3.619l 948l1.000l0.650l1.000l1.000l1.000l6.160l3.160 3Afu (31 Cable: InwKSOC008 DCD: <SLAssC> l l3.000l1.000l11C047s l luulouE-6(Tal131 l 33.085 l 5.878 l 12.08 l1.000 l0.600 l1.000 l1.000 l1.000 l 8.213 l 5.213 1 3A70 Cable: InwKatC009 DCD: <8tAsso l l3.000l1.000l1iC0473 l lumIouE-6(Ta) l33.085l 5.878 l 10.80 l1.000 l0.6e0 l1.000 l1.000 l1.000 l T.344 l %.344 3AFU (3) Cable: 1NwK80C010 DCD: <tLAssKm ~l l3.000l1.000l1TC047s l lUulGUE-6(TR) l33.085l 5.878 l 13.27 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.023 l 6.023 J 3AFu 131 Cebte: InwKDeC011 DCD: <SLAssKm l l3.000l1.000l17C0473 l luulGUE-6(TR) 131 l33.085l 5.878 l 12.08 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.213 l 5.213 3AFU ? b 1 1 Ceport Co.: RPf00026 44 of 94 - 07-25:11 <ss0RE > [ i

2iver send Station Entergy Operctions, Inc. Data: 09/30/97 Plant Data scenagement System (PDees) Faye: 45 Derated Cables (under Rated) - urapped Rus onty lLDCD lLa w lLF l Raceway Id lRDCD lWraptype lFitt l0 lanys. lCADF lWSDF liCDf fCGDF Load Id MCDF DCA et(%) Cable: 19wt98C012 DCD: <SLANK> l l3.000l1.000l tic 047s l lumIQUE-6(TR) l 33.085 l 5.878 l 13.27 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.023 l 6.023 34Fu [3] Cable: InvKeeC013 DCD: <sLAmK> l l3.000)1.000l11C0473 l lUntouE-6(TR) l 33.085 l 5.878 l 12.08 l1.000 l0.680 l1.000 l1.000 l1.000 l S.213 l 5.213 3AFU 133 Cable: 1NwKeeC016 DCD: <8tAmKm j 3AFu 3.000 1.000 11C0475 L"leuE-6(TR) 131 33.085 5.878 ) 15.82 1.000 0.680 't.000 1.000 1.000 10.5 5 7.55 3Aru 3.000 1.000 1CC047tE1 STD(CD) 131 0.000 0.000 2T.00 1.000 0.790 1.CA 0.860 0.700 12.841 9.841 Cabtr.: InwtesC017 DCD: <RAut> l l3.000l1.000l1TC0478 l luuteuE-6(TR) [3] l 33.085 l 5.878 l 15.82 l1.000 l0.310 l1.000 l1.000 l1.000 l 10.755 l 7.55 3AFu Cable: INwK90C018 DCD: <SLANK> l l3.000l1.000l1TC047s l lumleiK-6(TR) l33.085l 5.875 l 15.82 l1.000 l0.6a0 l1.000 l1.000 l1.000 l 10.755 l 7.755 [3] 3AFU Cable: INvKeeC019 DCD: <SLAmKm l l3.000l1.000l110047s l luutGUE-6(TR)131l 33.085 l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l 7.55 3AFu Cable: tuvtBSC200 DCD: *SLANE> 1:113*PT30-Ce l l2.925l1.250l11C048s l luuteuE-3(TR) (33 l 49.977 l 3.619l 9.93 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.452 l 3.527 Cable: IwwKBSC202 DLD: <SLANK> l 49.977 l 3.619 l 10.41 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.768 l 3.855 twwK*CMLis-Pl l2.912l1.250l1TC0488 l lumIQuE-3(TR) (3) Cable: InwKesC501 DCD: <SLAmKm l 49.977 l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.296 l 3.373 1NwK*CML18-Pl l2.912l1.250l1TC048s l lumIQUE-3(TR) [3] Cable: 1wwKasC502 p(3: <SLAmKm 1NWK*CML15-Pl l2.912l1.250l1TC047s l lUmleUE-6(TR) [3]l33.085l 5.878 l 13.27 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.023 l 6.111 Cable: INWKeeC504 DCD: <SLAmK> InwK*Ple-NTRl l1.875l1.250l1TC0473 l luutouE-6(TR) 131l33.085l 5.878l15.82l1.000l0.680l1.000l1.000l1.000l10.755l8.800 Cable: twwKeeC508 DCD: <stAmK> twwK*Twles NR M-0020 0.050 1.250 1TC048s unleUE-3(TR) [3] 49.977 3.619 17.58 1.000 0.650 1.000 1.003 1.000 11.426 11.376 InwK*iw16s out 96 0020 0.050 1.250 11C047s untouE-6(TR) [3] 33.085 5.878 22.40 1.000 0.680 1.000 1.000 1.000 15.234 15.184 l Cable: 1MwtBSC509 DCD: <SLAspr.> l33.085l 5.878l15.82l1.000l0.680l1.000l1.000l1.000l10.755l10.705 lma96-0020 l0.050l1.250l1TC047s l lUniouE-6(TR)[3] IMwK*Tvios Report 150.: RPIOOO26 - 45 of 94 - CT:25:11 <suokE >

-.. =.. --. _. _ _. ~ ~ ~. .~ 2iver send Station Entergy Operations, snc. Cate: 09/30/97 Ptant Data stenagement System (PDess) Derated Cables (under Rated) - teraged Rh,s only Pese: 46 lLDCD lLa W lLF lRacensey Id lRDCD lWraptype l Fill lQ lAsynes lC2F Load Id fiCDF ls4CDF fDCA WSDF CGDF es(Reps) Cable: InwKesC510 DCD: < stank > lseR 96-a020l0.025l1.250l1TC0475 l lUntout-6(TR) l33.C85l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l 10 1mwK*TV17e 131 Cabte: 1mwKasC513 DCD: <stANE> 1Nwt*CNL18Pl l2.912l1.250l tic 04m l luntouE-3(TR) l 49.977 l 3.619l10.75l1.000l0.650l1.000l1.000 1.000 l C 090 l 4.077 l 13] Cabte: invueeC514 DCD: <stAmK> 1Nvt*CmL1s-Pl l11.440l1.100l1TC068s l lusIIQUE-3(TR) [3]l 49.977 l 3.619 l 17.58 l1.000 l0.650 l1.000 l1.000 l1.000 l 11.426 l -0.{ Cable: NewKesC515 DCD: <sLAssKm IWWK*CmL18-Pl l9.163l1.100l11C048s l luseIQUE-3(it) l 49.977 l 3.619 l 17.58 l1.000 l0.650 l1.000 l1.000 l1.000 l 11.426 l 2.2 131 Cable: tuwKeeC518 DCD: <sLAmK> r IMvE*P10-MIR 0.938 1.250 1TK002s uns!OUE-6(TR) (31 20.514 10.312 20.95 1.000 C.680 1.000 1.000 1.000 14.245 13.30s t inwK*P10-sita 0.938. 1.250 1TK0013 untouE-6(it) (31 12.110 19.166 21.60 1.000 0.680 1.000 1.Oro 1.000 14.688 13.750 Cable: invuesC519 DCD: <stAmt> Invt*P1s-MTRl l1.875l1.250l11C047s l luulGUE-6(TR) l33.085l 5.678 l 22.4G l1.000 l0.680 l1.000 l1.000 1.000l15.234l13.359 131 l Cable: luvussC520 DCD: <staas(> 1NvK*ChL18-Pl l2.912l1.250l11C0488 l lUntQUE-3(TR) (31l 49.977 l 3.619l12.41l1.000l0.650l1.000l1.000h.300l8.066l5.154 Cabte: luvussC521 D(3: <sLAssE> 1Nyt*CML1s-Pl l2.912l1.250l1TC0488 l lUntouE-3(TR) l 49.977 l 3.619 l 17.58 l1.000 l0.650 l1.000 g I11.426l8.514 b 133 Cable: 1NvuseC531 DCD: < sL AssE > 1NwK' Cut 18-Pl l2.912l1.250l11C048s l luml0UE-3(TR) l 49.977 l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l5.154 131 Cable: InwtaeC537 DCD: <sLAssE> l l3.000l1.000l11C047s l luuleUE-6(TR) l33.085l 5.878l15.82l1.000l0.680l1.000l1.000l1.000l10.755l7.755 3AFU (31 Cable: InwKasC538 DCD: <stAmK> l l3.000l1.000l1TC047s l luutouE-6(TR) l33.085l 5.878 l 13.70 l1.000 l0.680 l1.000 l1.000 (;.000 l S.319 l 6.319 3AFU 131 Cable: 1NwKBSC539 D D: <sLAsst. 3.000 1.000 1CC047BE1 STD(CD) [31 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.700

12. % 1 9.841 3AFu 3.000 1.000 1TC047s unsIQUE-6(TR) 131 33.085 5.878 13.70 1.000 0.680 1.000 1.000 1.000 9.319 6.319 l

Cimbte: InwtesC540 DCD: <stAssKm t l l3.000l1.000l11C0478 l lussIQUE-6(TR) l33.085l 5.878 l 13.70 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.319 l 6.319 3AFu [3] Report ho.: RP100026 46 of 94 07:25:11 s. l

4 ,e s a c 3 a. 9 -1 -~ e s 8 4 x )4 J e c o N e a m m d m N = c g L 3 3.j E E. 4 k 4 s g .d. g l I I I E I I I I I I 9 d a a a a J J J J J a I I a a a a a a a a I a a a a B a d a a a a a a a J l g a I a 3 $ I a H I I I I I I a a a a a I E 3 6 I 6 3 3 d d d d e 4 d d d d d e d e d I a a a I a 8 a a a a I I I I s a a a a a a a a a a 2 8 R 8 8 2 3 5 3 4 4 3 5 R 3 d d d d d d d d d d N d d e e e e e a. e. e. e.

e. e.

e. e. e. = = = = = A d i A A A A A A A A A A A A } N, b. b. b. W b. It u u u e e e u e b. A A A A AS S S S A 3 S S S g s A a s a_ 5 s s a_ a_ s s a_ a_ s a_ 2 g g a e t } ? ? ? ? ? ? ? ? ? ? ? ? ? h a 1 1 1 1 1 1 1 1 1_ 1 1 1 1_ 1 a 5 3 5 5 5 5 5 5 5 5 5 5 5 5 5 8 9 2 k e M M M M M n g e n a e l i I I s i i l I g = i I I I I I a a E E 2 2 2 8 8 2 a a a a a a a a a a a g at ls I. E. E. I. E. 2 E. C 2 2 2 3 3 A M 4 A M A M A e6 A M M A N N A N N N A A .= A N z 1 U _M 1 1 1 1 1 p i, s. a. s. a. s. s. [ 1 1 ~_ 1 s. s. a. .e. 9 9 9 9 9 9 9 9 9 9 9 9 9 2 ~ ~ z t M g g g s a a a _e E I ]38 E I I I I _ c _ c r m I *e 6

• 6 6

A 6 e e a': =.. =.. 8 s e s s E :s

s

s

s e

i = pgz 5 s s 1 2 ~ s 2 2 2 3 a, ] a, l a,.1 2 1 8 E .I a 3 a- $ a-a- 8 8 E 3 E 3 E I 3 ! i __a m. m m

e a .e 3 ) 3 8 8 2 2 4 "a R R 4 c. .e c ~3 S E d J A A 4 4 4 4 6 6 4 A A A A A 4 A C g _E., N 8j 3 3 3 6 3 E E i i 3 2 3 I 3 Es g i d A A d d d d d i d d d d J d d d k k k I. !

k. k. k. k.

k. k.

k. k.

k. S. S. I. 9 s I a 3 3 k 3 3 3 3 k. 3 k._ 3 k. k k.,_ _3 ! g ,n I. $. $. I. I. I. I. I. E. I. $. $. I. I. E. i e 6 3 3 3 E E E E E E E E E E E d d 6 6 d d d d d d d d d d d d d d I I I I I I a a B I I I I I i i a a a a a a a a a a e d a d 2 3 3 3 8 8 8 8 8 8 8 8 8 8 3 8 f d d d d d d d d d d d d d N N N d d k k k k k k

k. k I k.

k. 3 3 I 3 I. k k m m m m g g m _i k b. ,k,k k k,

k. !. $. !

k b. 3 3 = g 4 g A m. a. I m. 2 g S a e c c c c c c c c c c c c c 0 t [ ? ? .E a 5

e. e. e. e.

8 8 8 8 8 8 8 8 8 8 I 8 I I -g 5

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e e. e e e 2 5 e. a I i i i i i N N N N N 8 8 9 I I I E I E s s ? la 1 g 2 U I I 2 E l l j [ g g I 5

• s B

9 s i i s a e t 3 2 6 I I I I I 6 6 I 6 6 6 c a a a a a a a a a a a 3 A N A N A M M M M A M M M m A M M A e A M A A A i.i:. 4 1 1 3 1 1 1 1 1 1 1 s. s. a. y a. s. a. s. y .e s g g 4 8

• g s

g o ~ s i; l l _ a 8 8 5 t E E ~ z s r g l l l s-e s 2 iis e i i 8 1 g e e e e e e u u s u e u e u e u u e u nri 1 3 ga g

a=a=a=a=;e n-

= = = = s c

=a.f e

e a a e

o x, ;o a

o

= 3 e m o a a a a a a = o m

a 2 2 s a s s 5 5 5 5 s a s s 2 a s i E Es ,I s a s a a a s s a s a e s s a s c c 8 ,i.g g g a s y s s s y s s s a s s E q q s N ~ I k b E 5

k. $. 8i k.

$. b. k. 9 3 I I I I I I 1 9 3 3 I I I I I a l 3 8 s s a s a s s s a s s s a s s a a s s H H H I a l l I l l t I I I I I H H I e a a a a a a a a a E E 3 E H E E E H E E E H E E I I E E 2 s s s s s s s s s s s s s s s s s s s 1 i I I I I I I a f I E l I I I I E I -L 1 1 1 a a s a a a 8 8 3 8 8 8 8 8 8 8 8 8 3 8 8 2 3 8 8 I f d d d d d d d d d d d d d d d d 5 d d I a i H E 9 a E E I H R E i l R R I H a s a s a s s s a a a a a a a s O g I a E a k a a I R a. a 8 4 8 3 k k a a 3 3 3 3 A 3 s ~* A t c o s S Y 2

a g

g g g

z. t g if 8 8 g 8 2 8 8 8 5 8 8 8 5 8 8 2 2 8 8 E E E E E E E E y E E E E g E E E E 1 3 3 5 3 3 3 3 3 3 3 3 3 3 3 3 3 3 ? ? ? i i i 8 8 E i = l I i l i l l l i l l l i l l i i l. 1 = = = = = = k k $ k k a a a a a a a a a a a a a a a A N A M A A e e e e A e e e e A M M M M A M A M M A N pi l 1 l 1 1 1 I [ 1 e s, a. s, a = 7" g; v v v 8! 2 8 s g E x 1 _41 _si I z e ir.4 a, i s ((% 3 3 3 2 2 3 2 3 3 'g 3 m s s s 3 m o a 3 m a 3 3~ 1 4 S E 3 s s A 3 3 1 1 1 A t 3 A A A A A A n. u u A o A A e e u e e o o

t I l 6 S S R 2 2 B S s 1 3 E E E E ^ { } s e s s e a s s s a s s a s a a a g a s J-t .E.i E.k. !. !. ! 8 ! !. k. E E ! I. I I I 8,! g n M M E 6 0 h M h k E k 9 a s s s a s s s a a a s a s B I l l a 3 3 I l a I l B 3 I E a I I W 1 a a s s s u s s s s a s a a a B I. I 3 I I. I I I I I I I. I I I I I I. I I. $ k k k k k k k k k k $ $s 0 s s s s s s s s s s s a s s s s s s s 3 H I I I I I I I I I I I H I s H I l 8 a a a a a a a a 8 8 8 E 8 8 8 8 8 8 8 3 8 G R R c f d d d d d d d d d d d d d d d d E.I. ! 3 E.I. I. I I E. I. I. 5 I. 5 E 8 8 8 I M M M M O 3 3 3 3 R 3 3 3 R [ d i ^ e e e e e e e e e e e e e e e e e e e s E 8 g g g g g g g g g 0 0 0 s 5 e e e

e. e e.

e. e. e. e e

e e e e e. e e

e. e.

e

e. e.

m >3 I I I I 8 8 8 8 h I I I I E I i i l l t i l l 11 1 i l i i i M M M M o. = = = = e = = = = = = i 2 2 B I I I I E H H 2 2 E I H I I E E 2 a a a a a a 3 A N N N A M M M M A M M M A A A M M A M M N N N l 1 [ 1 1 g 1 p e .i a s a a g; v v v v O~ E i } s z e t e 5 ? v i y v i Lz.i ? s N s I s_s. s a a s a s e s s a i z A;} g j-g 5 5 3 E 3 3 8 s; g 2 e y y y

gs a

2 a 2 2 a 2 = = = = g = = = = = = = M s 8 5 5 3 3 5 8 s a =

Oiver Send station Entergy Operations, Inc. Date: 09/30/97 Plant Data scenageernt system (PDMs) Page: 51 Derated Cables (under mated) - Wrapped aws only lLDCD lLO W lLF lnacewayId faDCD lWraptyga -lQ fAupaw fCADF lWSDF liCDF fCGDF feeCDF lDCA lst(amps) Load Id Felt Cable: InveAaC568 DCD: <sLAwKm l l2.500l1.250l tic 502a lma96-0020 lsiD(ta) l 29.950 l 6.608 l 23.75 l1.000 l0.560 l1.000 l1.000 l1.000 l 13.382 l 1C.882 1Nva*UC1A-Mi 131 Cable: INvaAaC573 DCD: <stamK. l l6.250l1.250l1CC076aA l lsto(CO) l 0.000 l 0.000 l 27.00 l1.000 l0.790 l1.000 {0.860 l0.450 l 8.255 l 2.005 Inses*CAS21A 131 Cable: 1MweesC208 DCD: <SLAasE> IEJs*LDC25-9l l2.912l1.250l11C06es l l UNIQUE-3(TR) l49.977l 3.619l10.41l1.000l0.650l1.000l1.000l1.000l6.768l3.855 [3] Cabte: InvaCmC508 DCD: <SLAasK. 3AFU 3.000 1.000 1TC529u sTD(TR) (31 23.117 8.960 15.20 1.000 0.560l1.000 1.000 1.000 8.512 5.512 l 3AFu 3.000 1.000 tic 529u sut %-0020 stD(ta) 131 23.117 8.960 15.20 1.000 0.560 1.000 1.000 1.000 8.512 5.512 Cable: twvatmC511 DCD: < stank > 3AFU 3.000 1.000 1TC529u sTD(TR) (3) 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% 3AFU 3.000 1.000 1TC529u set %-0020 STD(Ta) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000, 1.000 10.9 % T.9% Cabte: luvacmC512 DCD: <stamK> 3AFU 3.000 1.000 tic 529m SID(Ta) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9% - T.9% 3Afu 3.000 1.000 1TC529m set 96-0020 STD(Ta) (31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% Cable: 1NVaCmC513 DCD: <BLAssK> 3AFu 3.000 1.000 tic 5294 stD(fa) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9M 3AFu 3.000 1.000 1TCS29m out %-0020 STD(Ta) (31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9M T.9% Cable: InvecmC514 DCD: <SLAmKm 3AFU 3.000 1.000 1TC5294 STD(Ta) [31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9% T.9% 3AFU 3.000 1.000 1TC529m out 96-0020 STD(TR) (31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% 3AFU 3.000 1.000 1TC532u sTD(TR) (31 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.006 9.096 3AFU 3.000 1.000 1TC532u sur M-0020 sTotia) [3] 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.006 Cable: InvecmC515 DCD: <8 TANKS 3AFU 3.000 1.000 1TC5294 STD(Ta) 131 23.117 8.960 l 19.53 1.000 0.560 1.000 1.000 1.000 10.9M T.9% 3Aru 3.000 1.000 1TC529es out %-0020 STD(Tal 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% 3Afu 3.000 1.000 1TC532n STD(it) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.006 3AFU 3.000 1.000 tic 532m een 96-0020 STD(TR) 131 9.286 26.189 21.60 1.000 0.560jt.00C 1.000 1.000 12.096 9.006 Ceport No.: RPIOOO26 - 51 of 96 - 07:25:11 <se0RE

• 2iver Send stLtion Entsrgy operet sons, Inc.

Data: 09/30/97 Plant Data management systeam (PDMS) Page: 52 Derated Catnes (under mated) - Wrapped RWs Only lLDCD ltaadamp lLF lRacewayId lRDCD fWraptype lFalt lC Asynes fCADF fWSDF liCDF Load Id lDCA fm(5) CGDF seCDF Cable: IwwatuC516 DCD: <stamK> 3AF3 3.000 1.000 1TC529u STD(TR) 132 23.117 8.960 19.53 1.000 0.560 (1.000 1.000 1.0C0 10.9 % T.9% 3AFW 3.000 1.000 1TC529u mm 96 0020 siD(in) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% 3AF3 3.000 1.000 t"C532u sto(TR) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.996 9.996 3AF3 3.000 1.600 1TC532m set %-0020 STD(TR) (33 9.286 26.1 W 21.60 1.000 0.56c 1.000 1.000 1.900 12.996 9.996 Cable: INwameC506 DCD: <SLANE> 1Nwe*UC18-Mi 2.500 1.250 1CC506sc stD(CO) 131 c.000 0.000 36.00 1.000 0.790 1.000 0.860 0.500 12.229

9. 72 9 1NWR*UC18-MT 2.500 1.250 1CC506ec sur W 0020 sTD(CD) (31 0.000 0.000 36.00 1.000 0.790 1.000 0.860 0.500 12.229 9.729 Cable: 1NwemmCO2.

CD: <sLAmK> 3AFU 3.000 1.000 1TC529u STD(Ta) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9M 3AFu 3.000 1.000 ifC529u out 96-0020 STD(Ta) (31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% 3AFU 3.000 1.000 tic 532m ' STD(ta) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3AFu 3.000 1.000 tic 532m set %-0020 STD(TR) (*) 9.286 26.189 21.60 1.000 0.560 1.000 - 1.000 1.000 12.096 9.096 Cabte: INwameC507 0(D: <stamK> 3AFU l 3.000 1.000 liC529m STD(TR) (31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % T.9% 3AFU 3.000 1.000 11C529u mm 96 0020 STD(ta) 13I 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 13.9 % T.9% Cable: InvemeC509 0(D: <sLAmKm 3AFU 3.000 1.000 tic 529u STD(in) 131 23.117 8.960 16.38 1.000 0.560 1.000 1.000 - 1.000 9.175 6.175 3AFU 3.000 1.000 11C529u un 96-0020 STD(TR) [3] 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.175 6.175 Cable: 1NWRenC513 DCD: <SLANK> 3AFU 3.000 1.000 tic 529u STD(Ta) [31 23.117 8.960 16.92 1.000 0.560 1.000 1.000 1.000 9.476 6.476 3Aru 3.000 1.000 1TC529m set 96-0020 sTD(fa) 131 23.117 8.960 16.92 1.000 0.560 1.000 1.000 1.000 9.476 6.476 3AF3 3.000 1.000 1TC532m stD(in) (31 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.006 9.996 3AFo 3.000 1.000 1TC532u set W OO20 STD(TR) !31 9.286 26.189 21.60 1.000 0.560 1.000 ;1.000 1.000 12.096 9.096 Cabte: InvaamC532 DCC: <tLAmKm 3AFu l 3.000 1.000 1TC5294 STD(Ta) 133 23.117 8.960 19.53 1.000 0.560 1.000 1.000 It.001 10.9 % T.9% p. 3AFu 3.000 1.000 1TC529u sat 96-0020 slotta) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000

1. 00 10.9 %

T.93e 3Aru 3.000 1.000 1TC532m sTD(TR) 131 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096

epc.t no.: RPT00026 52 of 96 -

07:25:11 <squRE >

6 6 6 6 6 73 ) 6 6 6 6 1 8 1 9 9 9 9 3 9 0 9 s 0'. 5 e 6 5 0 1 p 0 9 9 0 0 9 9 0 0 9 9 0 0 9 9 2 2 1 4 3 A 9 T T 9 0 T T 9 9 T. T 9 9 Y. 7 T 7 a 3 2 m 5 / ( 9 m 7 0 l l f l l l l 0 6 6 6 6 4 4 8 8 ee 9 3 9 9 0 0 3 0 aa 0 9 9 0 0 9 9 0 0 9 9 0 0 9 9 2 2 4 4 t g CP A 2 0 0 2 2 0 0 2 2 0 0 2 2 0 0 8 8 6 6 C 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 D l ll l l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 D 0 0 0 0 c. 0 0 0 0 0 0 0 0 0 0 5 5 5 0 Ca 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 l l l l 0 0 0 1 l 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 f 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 6 6 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 8 8 8 0 rC 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 l l 0 1 l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 D 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C i 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 l l l 1 1 1 f l l 0 0 0 0 0 0 0 0 0 0 G 0 0 0 0 0 0 0 0 F 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 9 9 2 8 D 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 7 7 6 6 SW 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l l 0 0 ( l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 4 4 4 F 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 9 9 9 D 0 0 0 0 0 0 0 0 0 D. 0 0 0 0 0 8 8 8 8 AC 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 l l l l l l 0 3 3 0 0 3 3 0 0 3 3 0 0 3 3 0 0 0 4 6 5 5 6 6 5 5 6 6 5 5 6 6 5 5 0 0 0 5 m p 1 9 9 1 1 9 9 1 1 9 9 1 1 9 9 7 7 7 0 p 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 2 1 a A l l l l l 9 0 0 9 9 0 0 9 9 0 0 9 9 0 0 0 0 0 5 8 6 6 8 8 6 6 8 8 6 6 8 8 6 6 0 0 0 9 1 9 9 1 9 9 1 1 9 9 1 1 9 9 0 0 0 2 1 6 8 8 6 6 8 8 6 6 8 8 6 6 8 8 0 0 0 4 2 2 2 2 2 2 2 0 l l l l l l 6 7 7 6 6 7 7 6 6 7 7 6 6 7 7 0 0 0 9 8 1 1 8 3 1 1 8 8 1 1 8 8 1 1 0 0 0 9 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 0 0 0 1 cn I l 9 3 3 9 9 3 3 9 9 3 3 9 9 3 3 0 0 0 3 l 2 2 2 2 2 2 2 2 4 e s F 4 n f l 9 o l l l l i t a I 1 f E r I 1 o P e I 1 0 p 3 s o ) ) 5 8 1 1 1 1 1 3 1 1 1 1 ] 1 3 1 1 I ) D R y 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 I 1 C T g 1 1 1 1 1 1 1 ( 1 1 [ 1 1 1 1 I ( ( ( r e 1 2 e p ) ) ) ) ) ) ) ) ) l ) ) ) ) ) ) ) t y a R a R a R R R n a R a a a a O D E E n t f T f T f T T T i T T T t T T C C U u E p ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( G c a D D D D D D D D D D D D D D D D D t i r T t T T T T T T t T T T T T T T T u ss W s s s U u l l s S S S S S s s S S s s s S l l l l 0 0 0 0 0 0 0 0 2 2 2 2 2 2 2 2 C 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 6 6 6 6 6 6 6 D 9 9 9 9 9 9 9 9 C r n t t u e s D t u e u e t t t s R e s e o s o s e l l l { l d I 1 4 4 A y E u 4 u u m s m u s u u u u 0 0 m a e a 9 9 2 2 9 9 2 2 9 9 2 2 9 9 9 9 0 5 w 2 2 3 3 2 2 3 3 2 2 3 3 2 2 3 3 0 0 e S 5 5 5 5 5 5 5 5 5 S L 5 5 5 9 9 6 2 y c C C C C C C C C C C C C C C C K K K C l a T T i T T U T T T i T T T 1 T C C C T n R 1 1 t 1 1 1 1 1 t 1 1 1 1 1 1 1 1 1 o l l l l l s 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 5 5 5 0 W 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 2 2 0 F d L 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 e l l l l l p ) p p 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 8 8 7 0 sa s 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 3 7 3 8 0 t DW d 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 8 9 2 0 r t s 8 P a ? 3 3 3 3 m 3 3 3 3 3 3 3 3 3 3 0 0 0 m 0 3 ( - o K t K t K E K K L m u u u u A A a A A l 5 u l A ss te e) A l 9 A sed L L t t L t e L l l t e t s s t S 8 a B t st C ya sR D D D D D D D D D

t. r

( C C C C C C C C e D D D D D D D D D 6 .d 2 n n D O o - u C 2 3 4 8 0 0 0 3 1 O i ,( O 3 3 3 3 4 0 0 0 0 O t - s C l C C C C C l C l C l C l T L 5 5 5 5 5 5 5 5 0 a-s% P t e s s u n u s u 0 0 s R R e s l s s s s e e s s e s R R A R A b n e e e e e T R T f T f s e daa v v v v v v u v u v n y ri tC N n n M n N N n n o ea 1 I I 1 I 1 5 I 5 I 9 I n SDd d s C C a e I U U f t rtt e e e e e e e e e r ena d l U u U u U U U u U U u U u t u U U o l l E l t l i l l l var a b F b F F F F b F F F F b F F F F b t F b v b v b v b F p il e o a A a A A A A a A A A A a A A A A a A A a p a N a u a A e RPD L C 3 C 3 3 3 3 C 3 3 3 3 C 3 3 3 3 C 3 3 C 1 C I C t C 3 R

R River send Station. Entergy Operations, Inc. ' rata: 09/3e/97. Plant Data stenagement System (PDftS) Page: ' 54 Darsted Cables (under Rated) - Wrapped RWs only lLDCD ' lLoadW lLF lRacewayId 'lRDCD lWraptype l Fill l0 -lAspRu lCADF lW5GF liCDF lCGDF lIEGF lDCA lle(Ap) L.ad Id Cable: IWYARC001 DCD: <stAssKs 3AFU 3.000 1.000 1TC2068 UlstouE-2(IR) til 38.065 4.987 '11.35 0.896 0.680 1.000 1.000 1.000 6.985 '3.955 t 3AFU 3.001 1.000 1TC202R (MIouE-2(TR) (1) 35.425 5.426 11.86 0.894 0.680 1.000 1.000 1.000 7.201 4.201 3AFU 3.000 1.000 tic 201R usslouE-2(TR) (II 32.799 5.938 12.39 0.89r. 0.600 1.000 1.000 1.000 7.535 4.535 3AFu 3.000 1.000 tic 200R L1steuE-1(TR) [1] 33.388 5.815 12.26 0.896 0.600 1.000 1.000i 1.000 7.456 4.4% Cabte: 1WYARC002 DCD: <SLAnK> l l3.000l1.000l1TC2058 l luuleuE-2(!R) l43.199l 4.295l13.52l0.896l0.680l1.000l1.000l1.000l8.223l5.273 3AFU [1] Cable: 1WYARC003 DCD: <SLAsIK>~ 3AFU 3.000 1.000 liC20$R Uu!GUE-2(IR) (1) 43.199 4.295 10.54 0.896 0.680 1.000 1.000 1.000 6.488 3.408 3AFU 3.000 1.000 1TC2048 untouE-2(TR) (11 38.065 4.987 11.35 0.896 0.680 1.000 1.000 1.000 6.905 3.905 3AFU 3.000 1.000 1TC202R useleUE-2(it) (1) 35.425 5.424 11.84 g.896 0.6e0 1.000 1.000 1.000 7.201 4.201 o 3AFU 3.000 1.000 1TC201R untouE-2(TR) [1] 32.799 5.938 12.39 0.896 0.680 1.000 1.000 1.000 7.535 4.535 3AFU 3.000 1.000 IIC200R.. UntouE-1(TR) [1] 33.388 5.815 12.26 0.896 0.680 1.000 1.000 1.000 7.456 4.456 Cable: 1WYARC006 DCD: <BL AssE > l43.199l 4.295l13.52f0.896lC.seo[1.000l1.000l1.000l8.223l5.223 l l3.000l1.000l1TC2058 l luulouE-2(TR) 3AFU (11 Cable: 1WYARC006 DCD: <SLAAIK> 3AFU' 3.000 1.000 1TC2058 unleuE-2(TR) (Il 43.199 '4.295 10.80 0.896 0.680 1.00i, 1.000 1.000 6.%9 3 5.569 3AFU 3.000 1.000 1TC2048 unleuE-2(it) til 38.065 4.987 10.80 0.896 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 1TC202R uutteuE-2(TR) [1) 35.425 5.424 10.80 0.896 0.680 1.000 1.000 1.000

6. W 3.569 3AFU 3.000 1.000 1TC201R untouE-2(TR) [1]

32.799 5.938 10.80 0.894 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 liC200R unteuE-1(TR) [1] 33.388 5.815 10.80 0.896 0.680 1.000 1.000 1.000 6.569 3.569 Cable: 1WYARC011 DCD: <SLAnK> l l3.000l1.000l1TC2058 l l UNIQUE-I(TR) (11l43.199l 4.295l13.52l0.896l0.600l1.000l1.000l1.000l8.223l5.223 3AFU Cable: 1WYARC014 DCD: <SLANK> 3AFU 3.000 1.000 lic205R uselouE-2(TR) [1] 43.199 4.295 13.52 0.896 0.680 1.000 1.000 1.000 8.223 5.223 3 3AFU 3.000 1 000 tic 2048 deeleuE-2(TR) [11 38.065 4.987. 14.57 0.896 0.680 1.000 1.000 1.000 8.861 5.861 3AFU 3.000 1.000 1CCG8RC1 STD(CO) [1] 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 8.206 5.206 3AFU 3.000 1.000 1CC958RC STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 : 0.860 0.500 8.206 5.206 Report No.: RPTOOO26 - 54 of 94 - 07:25:11 <se0RE >

River send Station Entergy Operations. Inc. ' Date: 09/30/97 Plant Data planagement System (PDNS) Page ' 55 Direted Cables (under Rated) - Wrapped RWs Only j lLDCD lLoadAmplLF lRacewayId lRDCD -lWraptype l Fill lQ lAspRu lCADF' lWSDF liCDF-lrGDF fMCDF lDCA lst(Asqus) toad Id Cable: INVYARC040 DCD: <SL AGIK > 3AFU 3.000 1.000 tic 205R Unl0UE-2(TR) (1) 43.194 4.295 13.52 0.896 0.680 1.000 1.000 1.000 8.223 5.223 3AFU 3.000 1.000 1TC206R unsouE-2(TR) [1] 38.045 4.987 16.57 0.896 0.680 1.000 1.000 1.000 8.861 5.861 3AFU 3.000 1.000 1TC202R UntouE-2(TR) til 35.425 5.424 15.19 0.894 0.o80 1.000 1.000 1.000 9.241 6.241 3AFU 3.000 1.000 ITC201R UNIQUE-2(TR) III 32.799 5.938 15.90 0.896 0.680 1.000 1.000 l 1.000 9.669 6JP 3AFU 3.000 1.000 1TC200R UntouE-1(TR) til 33.388 5.815 15.73 0.894 0.680 1.000 1.000 1.000 9.568 6.568 Cable: INVYARC507 OCD: <SLA8MCP lsen96-0020 l0.050l1.250l1TC205R l luul00E-2(TR) l 43.199 l 4.295 l 13.52 l0.894 l0.680 l1.000 l1.000 l1.000 l 8.223 l 8.173 1NVY'FS17A [1] Cable: 1NVYARC508 DCD: <sLAasL> fleR96-002u lC.050l1.250l1TC205R l l UNIQUE-2(IR) l 43.199 l 4.295l13.52l0.894l0.680l1.000l1.000l1.000l8.223l.8.173 1 vY'FS21A [1] Cable: INvvARC511 DCD: <stAseKm 3AFU 3.000 1.000 1TC205R UesleUE-2(it) (11 43.199 4.295 11.72 0.894 0.680 1.000 1.000 1.000 7.125 4.125 3AFU 3.000 1.000 1TC204R unteUE-2(TR) [1] 38.045 4.987 12.62 0.896 0.680 1.000 1.000 1.000 7.678 4.678 3AFU 3.000 1.000 1TC202R UNIQUE-2(TR) [1] 35.425 5.424 13.16 0.896 0.680 1.000 1.000 1.000 .8.007 5.007 3AFU 3.000 1.000 liC201R UeIIeUE-2(TR) III 32.799 5.938 13.77 0.896 0.680 1.000 1.000 1.000 8.378 5.378 3AFU 3.000 1.000 1TC200R L*10UE-1(TR) 111 33.388 5.815 13.63 0.894 0.680 1.000 1.000 1.000 8.291 5.291 Cable: INVTARC515 DCD: <stAseK> 3AFU 3.000 1.000 1TC200R UNIQUE-1(TR) [1] 33.388 5.815 12.26 0.896 0.680 1.000 1.000 1.000 7.456 4.456 3AFU 3.000 1.000 1TC201R u;IQUE-2(it) (11 32.799 5.938 12.39 0.894 0.680 1.000 1.000 1.000 7.535 4.535 3AFU 3.000 1.000 1TC202R UN10UE-2(TR) til 35.425 5.424 11.84 0.894 0.600 1.000 1.000 1.000 7.201 4.201 3Afu 3.000 1.000 1TC204R UNICUE-2(TR) st] 38.045 4.987 11.35 0.896 0.680 1.000 1.000 1.000 6.905 3.905 3AFU 3.000 1.000 1TC205R UntouE-2(TR) [1] 43.199 4.295 10.54 0.894 0.680 1.000 1.000 1.000 6.4aj~ 3.408 Cable: INVY8mC511 DCD: <SLANK> 1NVY-Fr.10-Mi 0.287 1.250 1CK600mA1 UuteUE-1(CD) [1] 0.000 0.000 27.00 0.896 0.620 1.000 0.860 0.500 - 6.438 6.151 1NVY-Fr.10-NT 0.287 1.250 1CK600 sea 6 UNieUE-1(CD) [1] 0.000 0.000 27.00 0.896 0.620 1.000 0.860 0.800 10.301 10.014 1 vY-Fr.10-HT 0.287 1.250 1CK600 MAT utstouE-2(CO) (1) 0.000 0.000 27.00 0.894 0.620 1.000 0.860 0.800 10.301 10.014 Cable: INVYCOC001 DCD: <SLAtsK) l30.854l 6.381 l 12.86 l1.000 l0.680 l1.000 l1.000 l1.000 l 8.732 l - 5.732 l l3.000l1.000l1TC0030 l lSTD(IR)[1] 3AFU Report No.: RP100026 55 of 94 - 07:25:11 <fe0RE >

_ _.. l E A B 8 R R R R R R R R R R R 5 9 E R B 19 } a s e s e a a a a a s s

s d

o a r s q E E B R R R R R R R R R R R R 8 9 R R 6 8. a i d a a a a a a a a a a a a d s a a a y a g g a a a a a s s a s s a s g g g g g e s 4 s 4 4 s s s s s s 4 s 3 O O O O O O <t O O O O O O O .=

• =

i g I a 3 3 3 3 3 3 3 3 3 3 3 3 3 a a a a a u O J a i d $ a $ a a $ a $ a $ aJ a J J J J J J a E 2 E E E E E E E E E E E E 9 9 9 9 8 3 d d d d d d d d d d d d d d d d d d 6 6 E a a d 5 a d d 4 d 4 8 3 8 8 8 8 8 8 8 8 8 8 8 8 8 3 A 3 R h i i d i d i d i d i d d i d i i i H E a a a a a a a a a a a a a E s 5 R 4 6 a d a d a d d i d d i i O k b.

b. $

b. b.

b. b.

b. O g a o o O o o o o o o o o a g g g l .2-8 es A ~ g ~ a = = = = = =

=

=

0 = 0 t t t t t f ? ? ? ? 7 E 8 e 8 8 8 8 8 8 8 8 8 8 8 8 8 g g g g g E E E E E E E E E E E E E E E s a a G G G G G G G G G G G G G E E E E E 8 8 2 ~ ~ ~ ~ ~ 2 E E E I E E E E a g M 5 8 I 8 8 E 8 8 8 8 8 8 8 8 8 8 8 8 R g R R E r x e e e e e a e e e e e e e e e e e e 6 ~ ~ ~ ~ ~ ~ ~ ~ i a a a a a a a a a 2 E E 2 2 2 a a a a a e a a a a a y g3 { a a a a a a a a a 2 2 i H i s a a a a a ^* M M M N N N N N N d d d N d d A N Pk M M M A A A A A A h 5-5 5 5 5 5 5 5 E t a a 5 a a 3 g w v v v v v w R R R R ~ ~ 8 8 8 8 8 8 8 8 8 8 8 8 6 o o o o o ,o 5 8 8 8 8 8 8 8 ~ 8 m 2 5 8 a a g m i f f f fr N 8 2 g 8 g g 3 9 2 e e 9 15j n a = = = e e e n = = = n s .8 ~ _3 G G G G G G U U U U U T ? ? U ? ? ? U

• E2 ]

j 2 j 2 2 j 2 2 2 j 2 2 2 E E E j s E E j 2 2 2 2 2 } ~ r8 a a a a a a a a e 3 m a a a e a a a a a a m o o o

.. _. _.-~_ _ -. -.. .- -_ ~.. -. I I River Bend Station Entergy Operations, Inc. Date: 09/30/97 Plant Data Management System (PDetS) Page: 57 Derr.ted Cables (unrter Rated) - Wrapped RWs On.y 4 lLDCD lLoadWlLF lRacewayId lRDC3 fWraptype l Fill lQ lAmpRw lCADF Load Id l1CDF lCCDF -lseCDF lDCA lst(Amps) WSDF Cable: INvYCRC004 DCD: <SLANK> l l3.000l1.000l tic 205R l l UNIQUE-2(IR) l 3AFU l 43.199 l 4.295 l 13.52 l0.894 l0.680 l1.000 l1.000 l1.000 l 8.223 l 5.2 (1] i Cable: INVYCRC006 DCD: <SLANK> l l3.000l1.000l tic 205R l l UNIQUE-2(TR) l43.199l 4.295l13.52l0.894l0.680l1.000l1.000l1.000l8.223l5.223 3AFU (11 Cable: 1NvYCRC501 DCD: <8 LANE > l l l0.050l1.250l1tC205R l luul0UE-2(IR' til l43.199l 4.295 l 13.52 l0.894 l0.680 l1.000 l1.000 l1.000 l 8.223 l 8.173 1NVY*FS21C Cable: 1MVVNOC501 DCD: <sLANE> l 1NVY*FC1C-NT 0.312 1.250 1CK0010F STD(CD) (1) 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 ' 7.0 71 1HVY*FEIC-HT 0.312 1.250 1CK0010F1 STD(CD) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 7.0 71 1NVi*FCIC-HT 0.312 1.250 1CKD010F2 STD(CO) [1] 0.000 0.000l 27.00 0.894 0.790 1.000 0.860 0.450 7.383 7.071 Cable: 1Mvf2NC501 DCD: <BLAssK> l l 0.100 l1.250 l1CC270NN1 l lUN1QUE-112(CO)l 0.000l 0.000 l 27.00 l0.894 l0.620 l1.000 l0.860 l0.800 l 10.301 l 10.201 1%VY-TIS 159 [1] Cable: INVYZNC544 DCD: <8 LANK > 1HVY-CN14-HIl l0.625l1.250l1CK600eNt1 l l UNIQUE-1(CO) l 0.000l 0.000 l 27.00 l0.894 l0.620 l1.000 {J.860 l0.450 l 5.794 l 5.169 (1) Cable: 1HVYZNC545 DCD: <8 TANK > l l 0.625 l1.250 l1CK600eNel l lUN!QUE-1(CO) l 0.000l 0.000 l 27.00 l0.894 l0.620 l1.000 l0.860 l0.450 l 5.794 l 5.169 1MVY-CX18-Ni [1] l Cable: 1HVYZNC547 DG: <SLANK> 12fVY-C213-HTl l0.625l1.250l1CK600NA1 l lUselGUE-1(CD) l 0.000l 0.000 l 27.00 l0.894 l0.620 l1.000 l0.860 l0.500 l 6.438 l 5.813 [1] Cable: IIASARC508 DCD: <8LAasK> i 1:13*P743 1.500 1.250 1TC602R STD(TR) [3] 13.999 16.161 21.60 0.966 0.560 1.000 1.000 1.000 11.690 10.190 1M139743 1.500 1.250 1TC601R STD(TR) [3] 14.879 15.043 21.60 0.894 0.560 1.000 1.000 1.000 10.819 9.319 1213'P743 1.500 1.250 tic 600R STD(TR) 131 20.863 10.109 17.97 0.894 0.560 1.000 1.000 1.000 9.002 7.502 i Cable: IIASARC513 DCD: <sLANE> Ilf.S*SOV45A 1.000 1.250 tic 600R STD(it) 131 20.863 1C.109 20.74 0.894 0.560 1.000 1.000 1.000 10.389 9.389 l 11AS*SOV45A 1.000 1.250 1TC601R STD(TR) 131 14.879 15.043 21.e4 0.894 0.560 1.000 1.000 1.000 10.819 9.819 l 1IAS*SOV45A 1.000 1.250 1TC602R STD(TR) (31 13.999 16.161 21.60 0.966 0.560 1.000 1.000 1.000 11.690 10.690 i Cable: 11CSABC001 DCD: <BLAleK> l l3.000l1.000l1CC006sA l lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.350 l 6.420 l 3.420 (31 3AFU Report to.: RPIO0026 - 57 of 94 - 07:25:11 s (840RE>

l l l 1 78 ) 0 0 0 2 0 1 2 7 7 4 9 2 7 5 1 2 2 2 2 2 4 7 6 0 8 2 4 6 5 1 M5 4 4 4 9 4 8 1 5 4 5 8 0 5 2 0 3 3 3 T. 3 2 4 5 6 5 0 8 5 8 25 3 / ( 1 1 1 9' M l l l l l l l l l 7 0 l l l 0 0 0 0 2 0 1 2 6 '0 4 9 6 6 5 ee 2 2 2 7 2 4 7 6 4 2 6 6 5 aa 4 4 4 1 4 8 1 0 4 3 8 0 0 7 t g DP A 6 6 6 9 6 2 9 8 6 8 3 8 8 0 C 1 1 1 1 1 D f l l l l l l l l l l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 5 5 5 0 5 0 0 0 0 0 0 0 0 0 D 3 3 3 5 3 7 5 0 0 0 8 0 0 0 C M 0 0 0 0 0 0 0 1 1 1 0 1 1 1 f l l l l l l l l l l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 6 6 6 6 6 6 6 0 6 6 6 0 0 0 D 8 8 8 8 8 8 8 0 8 8 8 0 0 0 CC 0 0 0 0 0 0 0 1 0 0 0 1 l l l l l l l l l l l l l 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 DC I 1 1 1 1 1 1 1 1 1 1 1 l l l l l l l l l l l l l 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 9 9 9 9 9 9 9 5 9 9 9 5 5 8 7 7 7 7 7 7 7 6 7 7 7 6 6 6 DSW l l l l l l l l l l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 2 0 0 0 F 0 0 0 0 0 0 0 0 9 0 4 0 0 0 0 0 0 0 0 0 0 0 8 0 9 0 0 0 DA C 1 1 1 1 1 1 1 1 0 1 0 1 l l l l l l l l l l l l l 1 1 0 0 0 0 0 0 0 1 0 0 0 1 1 2 w 0 0 0 0 0 0 0 4 0 0 0 4 4 8 a 7 7 7 7 7 7 7 2 7 7 7 2 2 5 p 2 2 2 2 2 2 2 1 2 2 2 1 1 1 s A l l l l l l l l l l l l l 0 0 0 0 0 0 0 9 0 0 0 9 9 8 0 0 0 0 0 0 0 1 0 0 0 1 1 7 0 0 0 0 0 0 0 6 0 0 0 6 6 8 0 0 0 0 0 0 0 3 0 0 0 3 3 5 Q l l l l l l l l l l l l 0 0 0 0 0 0 0 7 0 0 0 7 7 5 0 0 0 0 0 0 0 7 0 0 0 7 7 8 n 0 0 0 0 0 0 0 9 0 0 0 9 9 0 c 0 0 0 0 0 0 0 9 0 0 0 9 9 3 I t t 4 4 4 3 i s F n l 4 o l l l l l l l l l l l l 9 i ta 1 r 1 1 ] f E e 3 3 3 3 o R ( p 1 1 ( O O 8 M ) ) ) ) 5 1 1 ) 1 1 ] ] R ] ] ] R R R y 3 3 3 3 3 3 3 T 3 3 3 T T T g 1 1 [ 1 1 [ [ ( [ [ 1 ( ( ( r e 3 3 3 6 e p ) ) ) ) ) ) ) ) ) ) t y O O O O O O O E O O O E E E n t C C C C C C C U C C C U U U E p ( ( ( ( ( ( ( Q ( ( ( Q Q Q a D D D D D D D r I T I T i T T I D D D I I I N T T i N N N W S S S S S S u S U l l l l l l l l l S l l l U U D CD R l l l l l l l l l l l l l d I A A A c A A D P E R y a s S s s N T s R s R 8 8 B a 6 6 6 6 6 4 0 8 8 0 7 8 8 7 w 0 0 0 0 0 7 4 4 3 2 2 4 4 4 e 0 0 0 0 0 0 9 0 8 9 8 0 0 0 ly c C C C C C C C C C C C C 0 C a C C C C C C C 1 C C C T 1 1 n R 1 1 1 1 1 1 1 1 1 1 1 1 O l l l l l l l l l l l l l 1 1 s 0 0 0 0 0 0 0 0 0 0 0 3 0 0 W 0 0 0 5 0 0 0 5 0 0 0 5 5 5 R 0 0 0 2 0 0 0 2 0 0 0 2 2 2 F d l l l l l l l l l l l l l 1 1 L 1 1 1 1 1 1 1 1 1 1 1 1 ep ) p p 0 0 0 0 0 0 0 0 0 0 0 5 0 0 Sa m 0 0 0 5 0 0 0 0 0 6 0 2 0 0 Mr 4 DW d 0 0 0 2 0 0 0 5 0 7 0 0 5 5 P a 3 3 3 1 3 0 5 ) 2 0 2 3 S 0 2 2 ( - o K K K K E K 1 K K K K K K K L N N N N N N N N N N N N N m) A l A l A l A l A l A l A l A l A l A l A ed l A l A l L L L L L L t t L L L L t t e 5 8 S S S S s s B S S B 8 st ya SR 5 5 5 9 9 9 D D D D D D D D D D D D 0 D 0 0 t r C C C C C C C C ( C C C 0 C 0 0 ne D D D D D D D D D D D D ed D 6 nmn D 6 6 6 2 oeu C 4 1 4 1 3 2 7 0 1 0 5 9 8 O 9 9 9 O ig( D 0 0 0 0 0 0 0 0 0 0 1 0 R 2 R R O t a L tns l 0 l 0 l 0 l 0 l C l 6 5 l 5 l 5 l 5 l 0 l 5 l 5 M M I 0 0 0 C C c C C C C C C C P M t ae 6 8 8 S B N i B R 8 R s O R SMl A 0 C E 1 E N u N N N A e N S b S 5 S S 0 S S m B 9 C 2 V v C V 8 8 daa C C C C 0 C C S C P A P S S 5 S 5 5 ntC 1 ea 1 11 1 I P I I I J 1 J 2 L S L L 0 L 5 5 o 1 I L I I I 1 K 1 K 1 R 1 1 1 1 L L N BDd d N A A s V N N e I P R R J P P P t rtt e e e e l U e e U e e e e ena d U l U l U 1 l F t var a b F b F b F l 6 b F b A b F b C b P l e e e r l U l 8 t e C l U V l V V o b l l e o a A a A a A a C a A a D a A a J a J a L a A a L a L L e b A b F b S b S S p iRPD L C 3 C 3 C 3 C 1 C 3 C I C 5 C I C I C I C 3 C 1 C 1 1 R

River Send Station Entergy Operations, Irr. Date: 09/30/97 Plant Data Management System (PDMS) Page: 59 Dertted Cables (Under Rated) - Wrapped RWs Only lLDCD l Load 4mplLF l Raceway Id lRDCD lWraptype lFitt l0 lAspRu lCADF lWSDF lICDF lCGDF lDCA lM(Asps) Load Id MCDF Cabte: ILSVBSC607 000: <SLANKP lMR96-0059 l1.250l1.250l1TC0480 l l UNIQUE-3(TR) l 49.977 l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l6.817 Itsv*C3B [3] Cable: 1MNWARC001 DCD: < BLANK > 3AFU 3.000 e.000 1TC205R UNIQUE-2(TR) Ill 43.199 4.295 13.52 0.894 0.680 1.000 1.000 1.000 8.223 5.223 j 3AFu 3.000 1.000 1TC204R UN10UE-2(TR) til 38.045 4.967 14.57 0.894 0.680 1.000 1.000 1.000 8.861 5.861 3AFu 3.000 1.000 liC202R UNIQUE-2(TR) (1) 35.425 5.424 15.19 0.894 0.680 1.000 1.000 1.000 9.241 6.241 3AFu 3.000 1.000 1TC201R Uut0UE-2(TR) [1] 32.799 5.938 15.90 0.894 0.680 1.000 1.000 1.000 9.669 6.669 3Afu 3.000 1.000 tic 200R UNIQUE-1(IR) 11] 33.388 5.815 15.73 0.894 0.680 1.000 1.000 1.000 9.568 6.568 Cable: 1MSISSC011 DCD: < BLANK > l l3.000l1.000l1CC93900 l l$iD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 9.841 3Afu [3] Cable: 1MSte8C513 DCD: <8 TANK > l l10.000l1.000l10C93988 l lSTD(CO) 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 2.841 10AFU Cable: 1MSSAJC502 DCD: <8 TANK > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l. 9.172 l 4.172 l l5.000l1.000l1CC940JE l lSID(CD)131 SAFU Cabte: 1MSSAJC503 DCD: <SLANK> 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l L172 l 4.172 l l5.000l1.000l1CC940JE l. lSTD(CO) SAFU Cable: 1MSSAJC504 DCD: < BLANK > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l1CC940JE l lSTD(CO)[3] 5AFu Cable: 1MSSAJC505 000: <SLANKP l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l1CC940JE l lSTD(CO) (31 %Fu Cable: 1MSSAJC514 DCD: < BLANK > l l5.000l1.000l1CC940JE l lSTD(CO) 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.%0 l0.500 l 9.172 l 4.172 SAFU Cable: 1MSSAJC515 DCD: <5 LANK > 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l ' 9.172 l 4.172 l l5.000l1.000l1CC940JE l lSTD(CO) 5AFu Cable: 1MSSAJC516 DCD: < STANK > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l1CC940JE l lSTD(CO) 13] SAFu Cable: 1MSSAJC517 DCD: < BLANK > l 0.000l 0.000 l 27.'00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l1CC940JE l lSTD(CO) (3) 5Afu Report 8:o.: RPIDOO26 59 of 94 - 07:25:11 <MORE>

l River Bend Ststion Entergy Operations. Inc. Date: 09/30/97 Plant Data Management System (PDMS) Page: 60 Dersted Cables (under Rated) - Wrapped RWs only. lLDCD lLoadmap 'lRacewayId lRDCD lWraptype lFitt lAmpRu lCADF lWSDF lTCDF lCGDF lMCDF Load Id LF lM(Anys) 0 DCA-Cable: 1 MSS 8JC502 DCD: <8 LANK > l l5.000l1.000l1CC940Je l l51D(CD) l 0.000 l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l. 9.172 l 4.17 51.FU I (31 Cable: 1MSSEJC503 DCD:' <SLANE> l l5.000l1.000l1CC940Js l lSTD(CD) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 5 FU 13] Cable: IMn8JC504 DCD: <8 TANK > l l5.000l1.000l1CC940Je l lSID(CO) l 0.000l 0.000 l 27.00 l1.000 l0.79C l1.000 l0.860 l0.500 l 9.172 l 4.172 SAFU [3] Cable: 1MSSSJC505 DCD: <sLANK> l l5.000l1.000l1CC940Js l lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 SAFU [3] Cabte: 1MSSNNC011 DCD: <8 TANK > 3AFU l 3.000 1.000 1TCS29N SID(TR) 131 ' 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.1/5 6.175 l 3AFU 3.000 1.000 1TCS29N MR %-0020 STD(TR) 131 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.175 6.175 Cable: IMSSNPC014 DCD: <SLANK> 3AFU 3.000 1.000 1TC529N STD(TR) 13) 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.175 6.175 3AFU 3.000 1.000 1TC5.:9N MR 96 0020 STD(IR) 13] 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.1.3 6.175 Cable: IMSSNNC017 DCD: <8 TANK > 3AFU 3.000 1.000 1TC529N STD(TR) 131 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.175 6.175 3AFU 3.000 1.000 1TCS29N MR 96-0020 STD(IR) [3] 23.117 8.960 16.38 1.000 0.560 1.000 1.000 1.000 9.175 6.175 Cable: 'MSSNNC537 DCD: < STANK > 1821-F001-NT 0.262 1.250 1TC529N SID(TR) (3) 23.117 8.960 19.53 1.000 0.560 1.000 't.000 1.000 10.9 % 10.673 1821-F001-NT 0.262 1,.250 1TCS29N MR %-0020 STD(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9%j 10.673 Cable: 1MSSNNC538 DCD: <8 TANK > 1821-F005-NT 0.525 1.250 1TC529N SiD(IR) (31 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % 10.411 1821-F005-NT 0.525 1.250 1TC529N MR 96 0020 STD(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9% j 10.411 Cable: INMSeJC600 DCD: <8LANKP l 0.000l 0.000 l 16.40 l1.000 l0.790 l1.000 l0.860 l0.500 l 3.571 l 4.571 l l'1.000l1.000l1CC940JK l lSTD(CD)[3] 1AFU Cable: INMSCKC600 DCD: <SLANK) l 0.000l 0.000 l 16.40 l1.000 f 0.790 l1.000 l0.860 l0.500 l 5.571 l 4.571 l l1.000l1.000l1CC918KB l lSTD(CO)(1) 1*Fu Report 20.: RPIO0026 - 60 of 94 - 07:25:11 <MORE>

.mm Ri nr Bend Station Entergy Operations, Inc. Plant Cata Management System (PONi) Date: 09/30/97 Page:. 61 Derated Cables (under Rated) - Wrapped RWs Only lLDCD lLoadAmplLF l Raceway Id lRDCD lWraptype l Fill lQ lAmpaw lCADF lWSDF lTCDF-lCGDF l81CDF lDCA lse(Amps) Load Id Cable: 1NNSCKC602 DCD: <sLAaNt> l 0.000 0.000l16.40l1.000 0.790 l1.000 l0.860 l0.500 l 5.571 l 4.571 11Fu 1.000 1.000 1CC918Ka STD(CO) (11 Cable: INMSCKC604 DCD: <tLANK> l l1.000l1.000l1CC918K8 l lSTD(CO) l 0.000l 0.000l16.40l1.000l0.790l1.000l0.860l0.500l5.571l4.571 1AFU [1] Cable: IP0GNNC519 DCD: <sLANE> j 1:22*PNLP011 2.500 1.250 liC529N STD(TR) 131 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 M 8.4M II22*PNLP011 2.500 1.250 liC5294 esR W OO20 STD(TR) [3] 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 % 8.4% Cable: 1P0GNNC520 DCD: <8 LANK > 1N22*PNLP002 2.500 1.250 1TCS294 STD(TR) [3] 23.117 e.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9M 8.4M 1:22"PNLP002 2.500 1.250 tics 29N out WOO 20 S'D(TR) [3] 23.117 8.960 19.53 1.000 0.560 1.000 1.000 1.000 10.9 M 8.4M 1:2FPNLP002 2.500 1.250 1TC5324 STD(TR) [3] 9.286 26.189 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.596 1N22<PNLP002 2.500 1.250 1TC532N MR %-0020 STD(IR) 131 9.286 26.189 21.60 1.000 [0.560l1.000 1.000 1.000 12.096 9.596 Cable: 1RCSANC518 DCD: <8 LANK > 1833-D003A 1.600 1.250 liC529N STD(TR) [3] 23.117 8.960 15.20 1.000 ' O.560 1.000 1.000 1.000 8.512 6.912 1833-D003A 1.600 1.250 liC529N put 96-0020 STD(TR) (31 23.117 8.960 15.20 1.000 0.560 1.000 1.000 1.000l 8.512 6.912 Cable: 1RCSANC519 DCD: <SLANK> 1833-D003A 1.600 1.250 tics 29N SID(TR) (31 23.117 8.960 10.80

• 000 0.560 1.000 1.000 ' t.000 6.048 4.448 1833-D003A 1.600 1.250 1TC529N sat %-0020 STD(in) 131 23.117 8.960 10.60 1.000 0.560 1.000 1.000 1.000 6.048 4.448 Cable: 1RCSANC520 DCD: <SLANE>

1833 DCb3A 1.600 1.250 1TCS29N STD(TR) 131 23.117 8.960 15.20 1.000 0.560 1.000 1.000 1.000 8.512 6.912 ' 1833 D003A. 1.600 1.250,1TCS29N sut W OO20 SID(TR) (3) 23.117 8.960 15.20 1.000 0.560 1.000 1.000 1.000 8.512 6.912 Cable: 1RCSANC521 DCD: <SLANK> 1833-D003A 1.600 1.250 1TC529W STD(TR) (31 23.117 8.960 15.20 1.000 0.560 1.000 1.000 1.000 8.512 6.912 1833-0003A 1.600 1.250 tic 529N set %-0020 STD(TR) [3] 23.117 8.960 15.20 1.000 0.560 1.000 1.000 1.000 8.512 6.912 L Cable: 1RCSARCuG3 DCD: <SLANK> j 3AFU 3.000 1.000 1TC500R STD(TR) 13] 54.029 3.302 9.95 1.000 0.560 1.000 't.000 35.000 3 5.569 2.569 3Aru 3.000 1.000 tic 500R na 96-0020 STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 '.000 5.569 2.569 l 3Afu 3.000 1.000 1TC502R SID(TR) 131 j 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.100 7.879 4.87 ]9 [ Report No.: RPI00026 - 61 of 94 - 07:25:11 ) (MORE> f f a-m--

I l River Send Station Entergy Operations, Inc. Date: 09/30/97 7 tant Data Mana9ement System (PDMS) Page: 62 Derrted Cables (under Rated) - Wrapped RWs Only lLDCD lLoadmaplLF lRacewayId lRDCD lWraptype lFitt lQ l Anydtw lCADF lWSDF fiCDF lCGDF lMCDF lDCA lst(Aspa) Load Id Cable: iRCSARC003 DCD: <BLAK> l l3.000l1.000l1TC502R lMR960020 lSTD(TR) l29.950l 6.608 f 14.07 l1.000 l0.560 l1.000 l1.000 l1.000 l 7.879 l 4.8 3AFU 13] Cable: 1RCSARC007 DCD: <8 TAM > 3AFU 3.000 1.000 tic 500R STD(TR) [33 ' 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC500R MR 96 0020 STD(IR) 13] $4.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC502R STD(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFU 3.000 1.000 tic 502R na % 0020 t1D(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.rM 4.879 Cable: 1RCSARC010 DCD: <8t AM> 3AFU 3.000 1.000 tic 500R STD(TR) (31 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC500R mR 96 0020 STD(TR) 13] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.549 3AFU 3.000 1.000 tic 502R STD(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFU 3.000 1.000 liC502R MR 96-0020 STD(IR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 Cable: 1RCSARC013 DCD:'<8tAK> 3AFU 3.000 1.000 1tC500R STDiTR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1tC500R MR 96-0020 STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 tic 502R STD(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFU 3.000 1.000 1TC502R mR 96-0020 STD(IR) [3] 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 Cable: 1RCSARC300 DCD: 48 LAND 1::13?P715-D2 0.375 1.250 1CC600R8 SID(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 7.008 1H13*P715-D2 0.3 75 1.250 1TC600R STD(TR) [3] 20.863 10.109 17.40 0.894 0.560 1.000 1.000 1.000 8.717 8.342 Cable: 1RCSARC301 DCD: <SLAK> 1N13*P715-D2 0.3 75 1.250 1CC600R8 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 7.008 1C13*P715-D2 0.375 1.250 1TC600R STD(IR) (3) 20.863 10.109 15.20 0.894 0.560 1.000 1.000 1.000 7.613 7.238 Cable: 1RCSARC302 DCD: <8 LAM > 5AFU 5.000 1.000 1CC600R8 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 2.383 5AFU 5.000 1.000 1TC600R STD(YR) [3] 20.863 10.109 20.74 0.894 0.560 1.000 1.000 1.000 10.389 5.390 Cable: 1RCSARC500 DCD: <8 LAM > l54.029l 3.302l11.85l1.000l0.560l1.000l1.000l1.000l6.638l3.638 l l3.000l1.000l11C500R l lSID(IR)[3] 3AFU Report to.: RPT00026 - 62 of 94 - 07:25:11 <MORE>

River Send Station Entergy Cperations, Inc. fate: 09/30/97 Plant Esta stenagement System (P0sts) Page: 63 Dercted Cables (under Rated) - Wrapped Rus Only lLDCD lLoadmaplLF lRacewayId lRDCD lWraptype lFitt lQ lAmptu lCACF lWSDF lTCDF Load Id lseCDF lDCA st(Amps) CGDF. Cable: 1RCSARC500 DCD: <tLAasg> - 3AFU 3.000 1.000 1TC500R MR 96 0020 STD(IR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 3AFU 3.000 1.000 1TC502R STD(TR) [3] 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 3AFu 3.000 1.000 1TC502R see %-0020 SID(TR) (31 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 6.391 Cable: 1RCSAAC600 DCD: <fL AtlE > l l l5.000l1.000l1CC918RA l lSID(CO) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l1.000 l 16.407 l 11.40 5AFU (1) Cable: 1RCSesC600 DCD: <SLAssK> l l5.000l1.000l1CC918sA l lSTD(CO) l 0.000l 0.000l27.00l1.000l0.790l1.000l0.860l1.000l18.344l13.344 I 5AFU (3) Cable: 1RCS8sC601 DCD: <SL A81K> l l5.000l1.000l1CC940SF l lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 18.344 l 13.34 SAFu 131 Cable: 1RDSSRC002 DCD: <sLAasg> 3Aru 3.000 1.00C 1TC600R STD(TR) 131 20.863 10.109 17.40 0.894 0.560 1.000 1.000 1.000 8.717 5.716 3AFU 3.000 1.000 1TC601R STD(TR) 131 14.879 15.043 17.60 0.894 0.560 1.000 1.000 1.000 8.816 5.815 3AFU 3.000 1.000 1TC602R STD(TR) 131 13.999 16.161 17.60 0.966 0.560 1.000. 1.000 1.000 9.525 6.525 Cable: 1RHSARC043 DCD: <SLAsHC > 3AFU 3.000 1.000 ITC500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 5 3AFU 3.000 1.000 tic 500R stR %-0020 STD(TR) (31 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 3AFU 3.000 1.000 11C504R STD(IR) 131 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 1 3AFu 3.000 1.000 liC504R sem 9c-0020 STD(TR) (3] 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 l Cable: 1RNSARC045 DCD: <BLAmK> i 3AFu 3.000 1.000 1TC500R STD(fa) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 j 3AFU 3.000 1.000 1TC500R sen 96 0020 Sic (TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 3AFu 3.000 1.000 1TC504R STD(TR) 131 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 3AFu 3.000 1.000 1TC504R seR 96 0020 STD(TR) (3) 8.395 29.490 21.60 1.000 0.560 1.000 1.000 1.000 12.096 9.096 l Cable: 1RMSARC055 DCD: <stAssE> t 3AFU 3.000 1.000 11C500R STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 } 3AFU 3.000 1.000 1TC500R seR %-0020 STD(IR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 11C504R STD(TR) (3) 8.395 29.490 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 Report No.: RP100026 63 of 94 - 07:25:11 <se0RE > j

I-River Bend Station Entergy Operations, Inc. Date: 09/30/97 i Plant Cata Management System (PONS) Page: 64 Dercted Cables (under Rated) - Wrapped RWs only lLDCD lLoadmap lLF l Raceway Id lRDCD lWraptype lFitt l0 lAmpaw lCADF lWSDF lCGDI Load Id lDCA lM(Amps) TCDF MCDF Cable: 1RNSARC055 DCD: <SL AM> l3.000l1.000l1TC504R lMR960020 lSTD(T?) l 8.395 l 29.490 l 17.60 l1.000 l0.560 l1.000 l1.000 l1.000 l 9.856 l 3AFu (31 Cable: 1RNSARC071 DCD: <8 LANK > 3Afu 3.000 1.000 tic 500R STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFu 3.000 1.000 tic 500m MR 96-0020 STD(it) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC504R STD(TR) [3] 8.395 29.490 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 3AFu 3.000 1.000 1TC504R mm 96 0020 Sic (TR) 131 8.395 29.490 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 Cable: 1RNSARC502 DCD: < SLAM > 1E12*A0VF041 MR 96-0020 0.512 1.250 1TC500R STD(TR) 131 54.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 4.556 1E12+A0VF041 MR %-0020 0.512 1.250 1TC500m MR 96 0020 STD(TR) (31 54.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 4.556 1E12*A0VF041 MR 96 0020 0.512 1.250 1TC502R STD(TR) 131 29.950 6.608 12.81 1.000 0.560 1.000 1.000 1.000 7.1 71 6.659 1E12*A0VF041 MR 96-0020 0.512 1.250 11C502R MR @ 0020 Sit (TR) (31 29.950 6.606 12.81 1.000 0.560 1.000 1.000 1.000 7.171 6.659 Cable: 1RNSARC534 DCD: <8LANCD 5'Fu 5.000 1.000 1TC500R STD(TR) (31 54.029 3.302 10.27 1.000 0.560 1.000 1.000 1.000 5.752 0.752 5AFU 5.000 1.000 11C500R MR % 0020 STD(TR) [3] 54.029 3.302 10.27 1.000 0.560 1.000 1.000 1.000 5.752 0.752 5'Fu 5.000 1.000 tic 502R STD(IR) [3] 29.950 6.608 14.53 1.000 0.560 1.000 1.000 1.000 8.137 3.137 5Afu 5.000 1.000 liC502R MR %-0020 STD(!R) (3) 29.950 6.608 14.51 1.000 0.560 1.000 1.000 1.000 8.137 3.137 Cabte: 1RNSB80020 DCD: <SLANK> 1E::S*MCC2F-4 l l6.050l1.100l1TC0488 l luMIouE-3(TR) l49.977l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l2.016 [3] Cable: 1RNSSBCO31 DCD: < BLANK > l l3.000l1.000l1CC0068A l lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.350 l 6.420 l 3.420 13] 3AFU Cable: 1RNS80CO32 DCD: < SLAM > l l3.000l1.000l1CC006aA l lSTD(CO) (3) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.350 l 6.420 l 3.420 3AFu Cable: 1RMSasC035 DCD: < tLAM > l l3.000l1.000l1CC006BA l lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.350 l 6.420 l 3.420 [3] 3AFU Cable: 1RMS88C036 DCD: < SLAM > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.350 l 6.420 l 3.420 l l3.000l1.003l1CC006sA l lSTD(CO)[3] 3AFU

teport No.: RP100026 64 of 94 -

07:25:11 I k

Rivw Send Station Entergy Operations, Inc. Dats: 09/30/97 i Plant Data Management System (PDMS) Page: 65 Darcted Cables (Under Rated) - Wrapped Rus only lLOCD lLoadAmp lLF l Raceway Id lRDCD lWraptype lFitt l Ampt e hA07 lWSOF l1CDF lCG)F fMCDF l9CAse(W Load Id Q Cable: 1RMS88C037 D(D: <8tAht> 27.00 l1.000 l0.790 l1.000 f0.860 l0.350 l 6.420 l 3.420 l l3.000l1.000l1CC0068A l l$1D(CO) l 0.000l 3AfD 133 0.000 Cable: 1RNSNNC502 DCD: <SLANE> i l l1.250l1.250l1tC129NA l fSID(CO) l 0.000 l 0.000l27.00l1.000l0.790l1.000l0.860 0.500 l 9.172 l 7.922 11CS-PNL101 (31 Cable: 1RNSNNC503 DCD: <8 TANK > l l3.000l1.000l1CC129NA l l$fD(CO) l b.000l 0.C00 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 6.172 3AfU III Cable: 1RMSARC500 DCD: <8 TANK > 1RMS+ rex 5A 1.250 1.250 1TC600R STD(12) 131 20.863 10.109 17.40 0.894 0.560 1.000 1.000 1.000

8. 73 7 7.466 1RMS*RE x5A 1.250 1.250 tic 601R STD(IR) 131 14.879 15.043 17.60 0.894 0.560 1.000 1.000 1.000 8.816 7.565 1RMS* rex 5A 1.250 1.250 1TC602R STD(TR) 131 13.999 16.161 17.60 l0.966 ; 0.560 1.000 1.000 : 1.000 9.525 8.275 Cable: 1RMSARC501 DCD: <8 TANK >

1RMS*RE5A 1.350 1.250 11C600R STD(TR) (3[ 20.363 10.109

20. Ti.

0.894l0.560 1.000 1.000 1.000 10.389 9.040 1RMS*RESA 1M50 1.250 1TC601R STD(TR) 131 14.879 15.043 21.60 0.894 0.560 1.000 1.000 1.000 10.819 9.469 1RMS*RESA 1.350 1.250 1TC602R STD(TR) (31 13.999 16.161 21.60 0.966 0.560 1.000 1.000 1.000 11.690 10.340 Cable: 1RMSARC504 DCD: <8LANKP l l1.250l1.250l1TC602R l lSTD(TR)131 l13.999l16.161l21.60l0.966l0.560l1.000l1.000l1.000l11.690l10.440 1RMS* rex 5A Cable: 1RMSARC505 DCD: <8 TANK > l 13.999 l 16.161 l 28.80 l0.966 l0.560 l1.000 l1.000 l1.000 l 15.587 l 13.087 l l2.500l1.250l1TC6022 l lSTD(TR) 131 1RMS*CA820A Cable: 1RMSARC506 0CD: <8 LANK > IRMS*R121A 4.375 1.250 11C500R STD(12) 131 54.029 3.302 10.27 1.000 0.560 1.000 't.000 1.000 5.752 1.377 1RMS*R121A 4.375 1.250 tic 500R MR 96-0020 STD(TR) [3] 54.029 3.302 10.27 1.000 0.560 1.000 1.000 1.000 5.752 1.377 Cable: 1RMSARC507 DCD: <SLANKP 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 lJ.450 l 8.255 l 3.880 l l4.375l1.250l1CC076RA l lSTD(CO) 1RMS4Rt21A Cable: 1RMSARC508 DCD: <8 TANK) 1RMS*RE5A 1.350 1.250 ICC076aA STD(CD) [3] 0.000 0.000 36.00 1.000 0.790 1.000 0.860 0.450 11.006 9.656 1RMS*RE5A 1.350 1.250 1TC600R STD(TR) 131 20.863 10.109 28.80 0.894 0.560 1.000 1.000 1.000 14.425 13.075 1R9tS*RESA 1.350 1.250 1TC601R SID(TR) 131 14.879 15.043 28.80 0.894 0.560 1.000 1.000 1.000 14.425 13.075 1RMS*RESA 1.350 1.250 1TC602R STD(TR) I31 13.999 16.161 28.80 0.966 0.560 1.000 '.000 1.000 15.587 14.23T ' Report to. RPTOOO26 65 of 94 - 07:25:11 <MORE>

I i l River Berd Statior*. Entergy Operations, Inc. Date: 09/30/97 Plant Dats Management Systeen (PDMS) Page: 66 Dersted Cables (dnder Rated) - Wrapped RWs Only lLDCD lLoadmap lLF lRacewayId lRDCD lWraptype lFitt lQ lAgnu lCADF lWSDF l1CDF lCGDF lMCDF Load Ed lM(Reps) DCA Cable: 1RMSABC511 OCD:

• BLANK >

1RMS* rex 5A 1.250 1.250 1TC600R STD(IR) 131 20.863 10.109 17.97 0.894 0.560 1.000 5 000 1.000 9.002 7.752 1RMS* rex 5A 1.250 1.250 liC601R STD(IR) 131 14.879 15.043 21.60 0.894 0.560 1.000 1.000 1.000 10.819 9.569 e 1RMS" rex 5A 1.250 1.250 1TC602R STD(IR) 13] 13.999 16.161 21.60 0.966 0.560 1.000 1.000 1.000 11.690 10.440 Cable: 1RMSneC508 000:' < BLANK > l 3 10tS*RE13s MR %-0020 12.500 1.250 1TC0488 UnlouE-3(TR) 131 49.977 3.619 28.61 1.000 0.650 1.000 1.000 1.C00 18.598 6.098 1RMS*RE13e MR 96 0020 12.500 1.250 ICC048st STDCCO) 131 0.000 0.000 50.00 1.000 0.790 1.000 0.860 0.800 27.176 14.676 Cable: 1RMSmeC525 DCD: < STANK > l l12.500l1.250l1TC0488 l l UNIQUE-3(TR) l 49.977 l 3.619 l 17.58 l1.000 l0.650 l1.000 l1.000 l1.000 l 11.426 l -1.074 1RMS* RET 138 131 Cable: 1RMSNWC562 DCD: < BLANC) l l1.250l1.250l1CC920mJ l lSTD(CO) 131 l 0.000l 0.000l27.00l1.000l0.790l1.000l0.860l0.500l9.172l7.922 1RMS-CAB 170 Cable: 1RMSuwC587 DCD: <SLANE> l l0.469l1.250l1CC127mc l lSTD(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.800 l 14.675 l 14.206 1RMS*J8272 13] Cable: 1RMSNRC502 DCD: <8 TANK > 1RMS*RE5A-PC 27.500 1.250 1TC600R STD(IP) T3] 20.863 10.109 47.82 0.894 0.560 1.000 1.000 1.000 23.954 -3.546 1RMS*RE5A-PC 27.500 1.250 liC601R STD(TR) til 14.879 15.043 51.20 0.894 0.560 1.000 1.000 1.000 25.645 -1.855 1RMS*RESA-PC i 27.500 1.250 1TC602R STD(TR) 13] 13.999 16.161 51.20 0.966 0.560 1.000 1.000 1.000 27.710 0.210 Cable: 1RMSMRC505 DCD: <sLANK> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.450 l 8.255 l 5.755 l l2.500l1.250l1CC076RA l lS!D(CO) 131 1RMS*CAe20A Cable: 1RMSWRC506 DCD: <8LAmK> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.450 l 8.255 l 5.755 l l 2.500 l1.250 l1CC076RA l lSTD(CO)[3] 1RMS+ CAB 16A Cable: 1RMSmeC507 BCD: < BLANK > [3] l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.450 l 8.255 l 2.005 l l6.250l1.250l1CC076RA l lSTD(CO) 1RMS5CA821A Cable: 1RMSWRC514 9CD: < BLANK > 1RMS*RE111 15.000 1 250 1TC500R STD(TR) 131 54.029 3.302 27.33 1.000 0.560 1.000 1.000 1.000 15.305 0.305 1RMS*LE111 15.000 1.250 1TC500R MR %-0020 STD(TR) 131 54.029 3.302 27.33 1.000 0.560 1.000 1.000 1.000 15.305 0.305 1RMS*REllt 15.000 1.250 1TC503R STD(TR) 131 13.736 16.526 51.20 1.000 0.560 1.000 1.000 1.000 28.672 13.672 1RMS*RE111 15.000 1.250 1TC503R MR 96-0020 Sio(TR) 131 13.736 16.226 51.20 1.000 0.560 1.000 1.000 1.000 28.672 13.672 Report tio.: RPT00026 66 of 94 - 07:25:11 r <MORE>

River Send Stetfon Entergy Operations, Inc. Date: 09/30/97 Plant Data Management Systese (PDMS) Page: 67 Dersted Cables (under Rated) - Wrapped RWs Only lLDCD lLoadamp lLF lRcewayId lRDCD lWraptype lFitt l0 lAspRu lCADF lWSDF liCDF lCGDF lDCA lm(Amps) Load Id MCDF Cable: 1RMSWC519 DCD: <sL Aw > l l2.500l1.000l1CCO) ORA l. fSID(CO) l 0.000 l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.450 l 8.255 l 5.755 1RMS*RE125 (31 Cable: 1RuswC520 DCD: <tLAw > l l 2.500 {1.000 l1CC076RA l l(STD(CO) [3] l 0.000l 0.000l36.00l1.000l0.790l1.000l0.860l0.450l11.006l8.506 1RMS*RE125 Cable: 1RmSmRC525 DCD:' <SL AM P l l l 0.625 l1.250 l1CC076te l lSTD(CO) [3] l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 18.344 l 17.719 1RMS*Js270 Cable: 1RMSNRC534 DCD: <sLAu> 1RMS*RE112 15.000 1.250 1TC500R STD(TR) 131 54.029 U 3.302 27.33 1.000 0.560 1.000 1.000 1.000 15.305 0.305 1RMS'RE112 15.000 1.250 1TC500R NR %-0020 ' STD(TR) 131 54.029 3.302 27.33 1.000 0.560 1.000 1.000 1.000 15.305 0.305 Cable: 1RMSmRC547 DCD: <BLAWD 1RMS*f;E111-J 2.500 1.000 liC500R - STD(IR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 4.134 1RMS+RE111-J 2.500 1.000 tic 500R na 96 0020 STD(ini 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 4.138 Cable: 1RPSARC601 DCD:'<BLAK > SAFU 5.000 1.000 1TC500R . STD(TR) 131 l 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 1.638 SAFU 5.000 1.000 1TC500R mR 96-0020 STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 1.638 5AFu 5.000 1.000 1TC502R STD(TR) 131 29.950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 4.391 5AFu 5.000 1.000 1TC502R mR 96-0020 . pa'L s (31 '950 6.608 16.77 1.000 0.560 1.000 1.000 1.000 9.391 4.391 Cable: 1RPSAIC500 DCD: <sL Aw> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l1CC940iD l lSTD(CO)[3] Sifu Cable: 1RPSATC531 DCD: <8LAK > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172

• l l 5.000 l1.0('O l1CC9401D l lSTD(CO) 131 5AFU Cable: 1RPSAIC502 DCD: < slam >

l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l10C94010 l l$iD(CO)131 5AFU Cable: 1RPSATC503 DCD: < SLAM > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 l l5.000l1.000l100940fD l lSTD(CD) 131 SAFu Cable: 1RPS8JC500 DCD: <8 taw > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.560 l0.700 l 12.841 l 6.641 l 6.200l1.250l1CC940JA l lSTD(CO) 131 1RPS*HCu Report No.: RP100026 - 67 of 94 - 07:25:11 1 <noRE, i

] Diver Send Station Entergy Operations Inc. Data- 09/30/97 Plant Data Management System (PD8tS) Page-' 68 Dereted Cables (Under Rated) - Wrapped RWs Only lLDCD lLoadhap lLF lRacewayId lRDCD lWraptype lFitt l0 lAmpRm lCADF fWSDF liCDF lCEDF l8ECDF lDCA lte(W) Load Id Cable: 1RPSsJC507 DCD: <BLAasK> l l6.200l1.250l1CC960JA l lSTD(CO) l 0.000 l 0.000 l 27.C0 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 6.661 1RPS$NCU 131 Cable: 1RP$sJC590 DCD: <9tAssE> l l6.200l1.250l1CC960JA l lSTD(CO) [3] l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l ' 6.M1 1RPS*MCU f Cable: 1RPS8JC591 DCD: <SLAseK> l l6.200l1.250l1CC960JA l lSTD(CO) l 0.000l 0.000l27.00l1.000l0.790l1.000l0.860l0.700l*.2.841l6.641 1RPS*NCU 131 Cable: 1RPSSTC500 DCD: <SLAtsK> l l5.000l1.000l1CC960iA l lSTD(CO) l 0.000l 0.000l27.00l1.000l0.790l1.000l0.860l0.700l12.841l7.861 5AFU [3] Cable: 1RPSeiC501 DCD: <sLAssE> l l5.000l1.000l1CC960TA l lSTD(CO) 131 l 0.000l 0.000l2/.00l1.000l0.790l1.000l0.860l0.700l12.841l7.861 5AFU s Cable: 1RPSSTC502 DCD: <sLAesE> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 7.841 l l5.000l1.000l1CC940iA l l$fD(CO)13] SAFU Cable: 1RPSaiC503 DCD: <0LAfsE> l 0.000 l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 7.861 l l5.000l1.000l1CC940fA l lSTD(CD) 131 5AFU Cable: 1RPSBTC511 DCD: <8tAssK> l l5.000l1.000l10C94010 l lSTD(CO) 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 4.172 SAFU Cable: 1RPS8TC515 DCD: <SLAfdK> l l5.000l1.000l1CC960TF l lSTD(CO) 131 l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 18.344 l 13.344 SAFU Cable: 1RPSCKC500 DCD: <stAssK> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 6.641 l l6.200l1.250l1CC918KA l lSTD(CD)[1] 1RPS*HCU Cable: 1RPSCKC543 DCD: <SLANs' l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 6.641 l l6.200l1.250l1CC918KA l lSTD(CD)[1] 1RPS*NCU Cable: 1RPSCKC588 DCD: <sLAasE> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.841 l 6.641 l l6.200l1.250l1CC918KA l lSTD(CO) [1] 1RPS*NCU Cable: 1RPSCKC589 DCD: <3LAIIK> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.700 l 12.e41 l 6.641 l l6.200l1.250l1CC918KA l l$10(CO)[1] 1RPS*MCU Cable: 1RPSCUC511 DCD: <8LAalE> l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l1.000 l 18.344 l 13.344 l l5.000l1.000l1CC918uA l lSTD(CO) [1] 5AFU Report No.: RPT00026 - 68 of 94 - ,07:25:11 _J <pe0RE >

River Bend Station Entergy Operaticns, Inc. Date: 09/30/97 Plant Data Management System (PDMS) Page: 69 D2 rated Cables (under Rated) - Wrapped R.1 (%iy ltDCD lLoadAmp lLI lRDCD lWraptype lFitt lQ lAmpRw lCADF lWSDF lICDF lCGDF lMCDF lDCA lM(Amps) Load Id Raceway Id Cable: 1RPSNRC502 DCD: < BLANK > t IC11*A0vf010 1.275 1.250 tic 500R STD(TR) 13] $4.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 3.794 1C11*A0Vf010 1.275 1.250 11C500R MR 96 0020 SID(TR) 131 54.029 3.302 9.05 1.000 0.560 1.000 1.000 1.000 5.069 3.794 Cable: 1RPSNRC507 DCD: <BLANE> 1C11*A0VF010 1.275 1.250 tic 500R STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.294 1C11*A0Vf010 1.275 1.250 tic 500R MR 96-0320 STD(TR) (3) 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.294 1C11*A0VF010 1.275 1.250 1tC502R STD(TR) (31 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 6.604 1C11*A0vf010 1.275 1.250 1TC502R MR %-0020 STD(TR) [3] 29.950 6.d *6 14.07 1.000 0.560 1.000 1.000 1.000 7.879 6.604 Cable: 1RPSNRC513 DCD: <SLANK> 1C11*AOe 010 1.275 1.250 1tC500R STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.294 1C11*A0VF010 1.275 1.250 1TC500R NR %-0020 STD:iR) 13] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.294 i Cable: 1RSSNNC501 DCD: <SLANKP l l6.250l1.250l1CC127NC l lSTD(CD) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.R60 l0.800 l 14.675 l 8.425 131 1RSS*PNL102 Cable: 15CCARC527 DCD: < BLANK > 13CC'J0067-1.800 1.250 11C200R UNIQUE-1(TR) [1] 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 7.306 5.506 ISCC'J80067-1.800 1.250 11C201R UNIQUE-2(TR) III 32.799 5.938 12.14 0.894 0.600 1.000 1.000 1.000 7.383 5.583 ISCC*Js0067-1.800 1.250 1TC202R UNIQUE-2(TR) (13 35.425 5.424 11.60- 0.894 0.680 1.000 1.000 1.000 7.056 5.256 ISCC*JS0067-1.800 1.250 tic 204R UNIQUE-2(TR) til 38.045 4.987 11.13 0.894 0.680 1.000 1.000 1.000 6.766 4.966 ISCC*Jt0067-1.800 1.250 liC20'R UNIQUE-2(TR) (1) 43.199 4.295 10.32 0.894 0.680 1.000 1.000 1.000 6.279 .4.479 Cable: ISCCARC532 OCD: <stANE> 1 SCC *Js0067-2.100 1.250 1TC200R UNIQUE-1(TR) [1] 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 7.306 5.206 1 SCC *Je0067-2.100 1.250 1TC201R UNIQUE-2(TR) III 32.799 5.938 12.14 0.894 0.680 1.000 1.000 1.000 7.383 5.283 ISCC*JS0067-2.100 1.250 1TC202R UW100E-2(TR) til 35.425 5.424 11.60 0.894 0.6 *0 1.000 1.000 1.000 7.056 4.956 ISCC*Js0067-2.100 1.250,11C204R UNIQUE-2(TR) [1] 38.045 4.987 11.13 0.894 0.680 1.000 1.000 1.000 6.766 4.666 1 SCC *J80067 -

• 1 1.250I1TC205R UNIQUE-2(TR) (13 43.199 4.295 :

10.32 0.894 0.680 1.000 1.000 1.000 6.279 4.179 Cable: ISCCARC566 DCD: < BLANK > 1 SCC *J88078-0.600 1.250 1TC205R UNIQUE-2(TR) (11 43.197 4.295 14.52 0.894 0.680 1.000 1.000 1.000 8.830 8.230 ISCC*JB8078-0.600 1.250 1TC204R UNIQUE-2(IR) [1] 38.045 4.987 15.64 0.894 0.680 1.000 1.000 1.000 9.515 8.91% Report Bo.. RPf00026 - 69 of 94 - 07:25:11 <MORE>

I l Rivir Berd Station Entergy Operctions, Inc. Date: 09/30/97 U Plant Data Management System (PDMS) Page: TO D;rcted Cables (under Rated) - Wrapped RWs Only lLDCD lLoadAsp lLF l Raceway Id lRDCD l Wrapt,pe l Fill lQ l Angas fWSDF Load Ed lMCDF lDCA M(Asps) CADF TCDF CCDF l Cable: ISCCARC566 DCD: < BLANK > l 1 SCC *J88078-0.600 1.250 1TC2022 UNIQUS-2(TR) (1) 35.425 5.424 16.31 0.894 0.680

1. 'K)0 1.000 1.000 9.922 9.323 ISCC*J88078-0.600 1.250 1TC201R UNIQUE-2(TR) til 32.799 5.938 17.07 0.894 0.680 1.000 1.000 1.000 10.382 9.782 l

ISCC*J88078-0.600 1.250 1TC200R UNIQUE-1(TR) til 33.388 5.815 16.89 0.894 0.680 1.000 1.000 1.000 10.274 9.674 Cable: 1SCCARC579 DCD: <8LANKS 3AFU 3.000 1.000 1TC200R UNIQut-1(TR) [1] 33.388 5.815 13.63 0.894 0.680 1.000 1.000 1.000 87.1 5.291 3AFU 3.000 1.000 1TC201R UN!QUE-2(TR) (1) 32.799 5.938 13.77 0.894 0.680 1.000 1.000 1.000 8.3'S 5.378 3AlU 3.000 1.000 1TC202R UNIQUE-2(IR) [1] 35.425 5.424 13.16 0.894 0.680 1.000 1.000 1.000 8.007 5.007 l 3AFU 3.000 1.000 1TC2042 UWlOUE-2(TR) [1] 38.045 4.987 12.62 0.894 0.680 1.000 1.000 1.000 7.678 4.678 3Afu 3.000 1.000 lic205R UNIQUE-2(TR) til 43.199 4.295 11.72 0.894 0.680 1.000 1.000 1.000 7.125 4.125 l Cable: ISCCARC582 DCD: <8 LANK > 1HVY*CH6A 1.250 1.250 1TC205R UNIQUE-2(TR) [1] 43.199 4.295 13.52 0.894 0.680 1.000 1.000 1.000 8.223 6.9 73 i 1MVY*CH6A 1.250 1.250 liC204R UNIQUE-2(TR) [1] 38.045 4.987 14.57 0.894 0.680 1.000 1.000 1.000 8.861 7.611 i 1HVY*CH6A 1.250 1.250 1TC202R UNIQUE-2(TR) [1] 35.425 5.424 15.19 0.894 0.680 1.000 1.000 1.000 9.241 7.991 1HVT2CH6A 1.250 1.250 tic 201R UN!QUE 2(TR) til 32.799 5.938 15.90 0.894 0.680 1.000 1.000 1.000 9.669 8.419 1HVT*CH6A 1.250 1.250 1TC200R UNIQUE-1(IR) [1] 33.388 5.815 15.73 0.894 0.680 1.000 1.000 1.000 9.568 8.318 Cable: ISCCARC587 DCD: < BLANK > i 1H13*P731 1.250 1.250 1TC200R UN12uE-1(TR) [1] 33.388 5.815

15. 73 0.894 0.680 1.000 1.000 1.000 9.568 8.318 1H139731 1.250 1.250 1TC201R UNIQUE-2(TR) [1]

32.799 5.938 15.90 0.894 0.680 1.000 1.000 1.000 9.669 8.419 1::13rP731 1.250 1.250 lic202R UNIQUE-2(TR) [1] 35.425 5.424 15.19 0.894 0.680 1.000 1.000 1.000 9.241 7.991 1:313f P731 1.250 1.250 1TC204R UNIQ K-2(TR) til 38.045 4.987 14.57 0.894 0.680 1.000 1.000 1.000 8.861 7.611 1H13'P731 1.250 1.250 1TC2054 UNIQUE-2(IR) (1) 43.199 4.295 13.52 0.894 0.680 1.000 1.000 1.000 8.223 6.9 73 Cable: ISCCBBC500 DCD: <8 LANK > 1 SCC *J80068-l l2.400l1.250l1TC0488 l l UNIQUE-3(TR) l 49.977 l 3.619l 9.67l1.000l0.650l1.000l1.000l1.000l6.286l3.886 [3] Cabic: 1 SCC 88C501 DCD: <8 TANK > 1 SCC *J80068-l l2.700l1.250l1TC0488 l l UNIQUE-3(TR) l49.977l 3.619l 9.67l1.000l0.650l1.000l1.000l1.000l6.2c4l3.586 131 Cable: 15C088C505 UCD: <8 LANK) l l3.000l1.000l1CC154BF l lSTD(CO) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.350 l 5.742 l 2.743 3Afu til Report No. RPT00026 70 of 94 - 07:25:11 <MORE>

River Send Station Entergy Operations, Inc. Date: 09/30/97 Plant Data Mana9ement System (Poess) ' Page: 71 Dertted Cables (under Rated) - Wrapped aus Only lL*)CD lLoadmaplLF lRacewayId lRDCD lWraptype lFitt lQ lCADF liCDF lCGDF-lMCDF lDCA es(Asys) Load Id WSDF w Cable: 1 SCC 83C507 DCD: < BLAK > l l3.000l1.000l1CC1548F l lSTD(CD) l 0.000 l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.350 l 5.742 l 2.743 3AFU [1] Cable: 15C038C508 DCD: < sL ANet > l l3.000l1.000l1CC154CF l lSTD(CO) l 0.000l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.86C l0.350 l 5.742 l 2.743 3AFU f1] Cabte: ISCCasC510 DCD: <sLAK> ISCC*Js0069-l l2.100l1.250l1TC0488 l luse!QUE-3(TR) (31l49.977l 3.619l 9.95l1.000l0.650l1.000l1.000l1.000l'6.452l4.352 Cable: ISCCesC511 DCD: <SLA8eK> l l3.000l1.000l1TC048R l l UNIQUE-3(TR) l 49.977 l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.286 l 3.286 l 3AFU 131 Cable: 1SCCesC512 DCD: <sLANK> ISCC*JB0069-l l3.600l1.250l11C0488 l l UNIQUE-3(ta) 131 l49.977 3.619l 9.93l1.000l0.650l1.000l1.000l1.000l6.452l 2.852 Cable: ISCtesC513 DCD: <aL AM> l l3.000l1.000l11C0488 l lUN10UE-3(TR) 133l 49.977 l 3.619l 9.48l1.000l0.650l1.000l1.000l1.000l6.160l3.160 3AFU Cable: 15C088C518 DCD: <BLANE> f 0.000 l 0.000 l 27.00 l0.894 l0.790 l1.000 l0.860 l0.500 l 8.204 l 5.204 l l3.000l1.000l1CC1548A l lSTD(CO) [1] 3AFU Cable: 15CC88C538 DCD: <BL AseK > l 49.977 l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.286 l 5.006

• 1 SCC *JB0069-l l1.200l1.250l1TC0488 l

l UNIQUE-3(TR) 131 Cable: 15C088C544 DCD: < BLANK > ISCC*Ja0069-l l2.100l1.250l1100488 l l UNIQUE-3(TR) (31l 49.977 l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.286 l 4.186 Cabte: 15CCBsC545 DCD: <SLANE> 1 SCC *Je0069-3.000 1.250 1100488 uut0UE-3(TR) 131 49.977 3.619 9.93 1.000 0.650 1.000 1.000 1.000 6.452 3.452 1 SCC *Js0069-3.000 1.250 1TC047s UNIQUE-6(TR) (31 33.085 5.878 10.80 1.000 0.680 1.000 1.000 1.000 7.344 4.344 Cable: ISCCssC551 DCD: <sLAesE > l 49.977 l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.286 l 3.286 l l3.000l1.000l1TC0488 l lUu!QUE.3(TR) (3) 3AFU Cable: ISCCasC552 DCD: < BLANK > l 49.977 l 3.619l '.67l1.000l0.650l1.000l1.000l1.000l6.286l3.286 l l3.000l1.000l11C0488 l luut0UE-3(TR) 131 3AFU Cable: ISCCasC553 DCD: <sLAesE> l49.977l 3.619l 9.93 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.452 l 3.752 1 SCC *JB0139-l l2.700l1.250l1TC0488 l { UNIQUE-3(TR) L3] Report to.: RP100026 71 of 94 - 07:25:11 <MORE> l

River send Station Entergy Cperations, Inc. Date: 09/30/97 Ptant Data teenagement System (P0 pts) Page: 72 Dertted Cables (under Rated) - Wrapped RWs only lLDCD lLandamp lLF lRacewayId lRDCD lWraptype l Fill lQ lAsgdw lCADF liCDF ffECPF lDCA lpe(Aqu) Lead Id WSOf CGDF Cable: ISCCasC563 OCD: <BLAIIKP l5.000l1.000l11C048s l lUutouE-3(IR) l49.977l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.0ul3.02 5AFU 131 Cable: 15CC88C566 DCD: <sLAseK> 5Afu 5.000 1.000 1CC1548F STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 0.743 5Afu 5.000 1.000 liC0488 UN10UE-3(TR) 131 49.977 3.619 12.41 1.000 0.650 1.000 1.000 1.000 8.0u 3.066 g Cable: 15CCBSC567 DCD: <5LAleK > l l5.000l1.000l1TC0488 l luNlaut-3(TR) l 49.977 l I619l13.33l1.000l0.650l1.000l1.000l1.000l8.662l3.662 5Afu [3] Cabte: 1SCCBSC568 D(D: <SL AIIK > l l3.000l1.000l1TC048s l l UNIQUE-3(TR) l49.977l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.286 l 3.286 3AFu (31 Cable: 15C088C578 DCD: <8LAttK) l l3.000 1.000l1TC0488 l l UNIQUE-3(TR) l 49.977 l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l5.067 3AFu 131 Cable: ISCC88C579 DCD: <SLANKP l l1.250l1.250l11C0488 l l UNIQUE-3(fa) l 49.977 l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l6.817 1CIS*PNL288 (3) Cable: ISCC88C580 DCD: <8 LANK > l l1.250l1.250l11C0488 l l UNIQUE-3(it) (33 l 49.977 l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l6.817 1:13*P730 Cable: 1SCCBSC584 DCD: < BLANK > l l3.000l1.000l1TC0488 l lUstIQUE-3(IR) l49.977l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l5.067 3AFU 131 Cable: ISCC88C585 DCD: <5 LANK > l l3.000l1.000l1TC048s l lUlsIQUE-3(TR) l49.977l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l5.067 3AFU (31 Cable: ISCCasC586 DCD: <SLANK> 1 EMS *MCC2N-5l l1.250 1.250l11C048s l lUM10UE-3(TR) l49.977l 3.619l10.75l1.000l0.650l1.t40l1.000l1.000 6.990l5.740 (31 Cable: 1SCCasC587 DCD: <utA81KS l l3.000l1.000l11C0488 l lUutouE-3(TR) 131l49.977l 3.619l12.41l1.000l0.650l1.000l1.000l1.000l8.066l5.067 3AFu Cable: ISCCC0C001 DCD: <SLA4K> 1.000l0.790 3Afu 3.000 1.000 1CC0030s STD(CO) (1) 0.000 0.000 27.00 1.000 0.860 0.350 6.420 3.420 3Afu 3.000 1.000 1100030 STD(TR) [1] 30.854 6.381 14.28 1.000l0.680 1.000 1.000 1.000 9.710 6.710 Cable: ISCCCOC500 900: < BLANK > l l3.000l1.000ltCC0020C l l$1D(CO) l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.350 l 6.420 l 3.420 3AFU [1] Report sco.- RPI00026 72 of 94 - 07:25:11 <st0RE>

= ~ $ e x a e e = ~e t it a 5 s H. 9 n. 8 8 m 9 8 8 c. 5 ~ ~ g 3 4 m o e 9 e e e e o M = p e e e e s 1-t u-a R s u u s e e p g e e u e 2 e .s.f. 9 1 5 a ~. 5 ~ g = = g e = I E a 3 a a a a a a a a a a a a a a Q J d a J J J J J J J J J J J J J J a l a 3 a a a a 3 3 a a l a a a a a a a J J J J J J J J J a a a a a a a a a a a a a a a a a f J J J J J J J J J J J J J J J J J J H E l E a 3 3 3 E l 3 a E E 3 3 3 3 d d d d d d d d d d d d d d d d d d a a a a a a i i s s i a f 5 E 1 5 i J J J J J J d d d d i d 2 8 2 8 S S S 8 8 e 4 8 8 S S S S f d d d d d 5 6 6 d d d d d d 6 d d = a. 9

a. : a.

a s.

a. a.

,a a.a. a a. ,s 8 e n c s 4 o e o 4 4 g g o o g m o o o a y e G g E 6 6 E a $ a 3 I f E a ~, d 5 d d d d i d i ~ g g 6 5 o e

=

.

= m m a a a m m a a a m a g '? 8 8 2 g E 8 2 8 = 8 8 E t E E E E E E E E E E E E E E E E E s a a a a a a a a a 5 a a a a a 8 9 = ~ g ~ 2 R 4 2 R 5 8 I I f g f f f I 8 g g 8 8 8 3 g f g f 5 5 3 j ! ! x s s 5 = = x x = s e x = = = E a a a f a a R B E E 2 2 2 a a a f J J J J J J J 3 ^* e c e c c c gs

a. 8 a.

a.a.a. a.a. a.a. a.a. e e s s s A M M M A m M M A M M A o o A o A N A o o A M M A M M h d-5 5 5 5 5 5 l 5 S a, a, a a a. a a a g; v v v v v v 8 8 8 8 8 8 8 R 8 -u o o a o o o a 25 a g a 8 a a a 8 5 a a a ff a a c e G B B t ry m ad_ 3 9 9" .E e 1:.1 e e 9 s e a 3 = 5 ~. e e ~ ~ = 4 e = e e --i 2 e E E e e t 2 2 a a s t z s s x a s t m

2..g :t i

= = = m m 2 S 4 4 4 4 4 S a .S

• a 4

3 S E 1 a a S .b .o m a a a a 4 4 4

• e m

e m

l River Send Station Entargy Operations, Inc. Date: 09/30/97 Plant Data Management System (PDMS) Page: 74 Dercted Cables (under Rated) - Wrapped RWs Only lLDCD l Load 4splLF l Raceway Id lRDCD l Wrap!ype lFitt lQ lAmpfw lCADF lWSDF-lfCDF fCCDF lMCDF l0CA M(Asps) Load Id Cable: 1SNS8SC500 DCD: <8 TANK > l 0.000l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 6.15 1C41*PNLP001l l3.000l1.000l1CC006aC l lSTD(CO) 131 Cable: ISLSANC002 DCD: 48 TANK > 2AFU 2.000 1.000 1TC529N SID(TR) (3) 23.117 8.960 16.38 1.000 0.560 1.000 1.000, 1.0*0 9.175 7.175 2aFu 2.000 1.000 1TC529N MR % 0020 57D(IR) 131 23.117 8.960 16.38 1.000 0.560 1.000 1.000: 1.000 9.175 7.15 Cable: 1SLSARC003 OCD: <8 LANK > 3AFU 3.000 1.000 1TC500R STD(TR) 131 54.029 5.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1tC500R MR W OO20 STD(TR) [3] 54.029 3.302 9.95 - 1.000 0.560 1.000 1.000 1.000 5.569 2.569 Cabts: 1SLSARC005 DCD: < BLANK > 3AFU 3.000 1.000 tic 500R STD(IR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 3AFU 3.000 1.000 1TC500R MR 96-0020 STD(TR) [3] 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 3.638 Cable: 1SLSARC007 DCD: <8 TANK > 3AFU 3.000 1.000 1TC502R STD(TR) 131 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFU 3.000 1.000 tic 502R MR 96-0020 STD(it).31 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFU 3.000 1.000 1TC500R STD(TR) [3] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFU 3.000 1.000 1TC500R MR W OO20 STD(TR) [3] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 Cable: ISLSARC010 DCD: <BL7JHCP 1M22fPNLP011 0.675 1.250 IIC502R STD(TR) [3] 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 T.204 IM22*PNLP011 0.675 S.250 1TCSC2R MR 96-0020 STD(TR) 131 29.950 6.609 14.07 1.000 0.560 1.000 1.000 1.000 7.879 T.204 1M22*PNLP011 0.675 1.250 liC500R STD(TR) [3] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.894 1N22*PNLP011 0.675 1.250 tic 500R MR 96-0020 STD(TR) [3] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.894 Cable: 1SLSARC012 DCD: < BLANK > 1SLS'F001A 0.675 1.250 tic 500R STD(TR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 5.963 ISLS*F001A 0.675 1.250 1TC500R MR %-0020 STD(IR) 131 54.029 3.302 11.85 1.000 0.560 1.000 1.000 1.000 6.638 5.%3 Cable: 1SLSARC014 DCD: <SLANK> IC41*VENF004 0.675 1.250 !IC500R STD(TR) 13] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.894 1C41*VExF004 0.675 1.250 1TC500R Me M-0020 STD(TR) [3] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 4.894 Report No.: RP100026 74 of 94 - 07:25:11 <MORE>

I R R R R R R R Rg g R R

• R R R

C g. ~c ~ t 8 8 a m n m 9 9 9 1 m R e e m m m m c m m o c e m n ~g _r o.:: a.}". f R R R R R R R R R R R R 0 R R R R g m m m m m m m m m m 5 5 a d d a a a a a d d a d d a a u 4 g [ R R g g. a 8 8 8 R R 8 R 8 g 8 8 9 9 9 9 x e o o o o o o o e o o o o o o o. 9 o a a 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 8 6 4 d d d d d d d 6 6 6 6 d d 6 E a a a a a a a a a a a a a a a a a a 9 a 3 3 E E E E E E E E E E E E E E E E E a d d d d d d d d d d d d d d d d d d d 9 a a a a a a a a a a a a a a a a a a l _3 i s's 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 f d d d d d d d d d d N N N d d d d d d R R a a a a a a a a a a a a a a a a a A A d 5 5 5 5 4 5 4 d 2-g G H a a a a a a a a a a a a a a a a a j j d 5 5 5 i 4 d d 6 ( i ^ h h O C a a a = R R m m a a m E E R m g g A a g g E 2 2 8 8 8 88 8 8 8 8 8 8 8 8 8 8 8 8 E E E E E E E E E E E E E E E E E E E s n a G 3 a 3 G G G a a a 3 m n R R R R R R 8 8 8 8 8 8 8 N N N N N N N 8 E I E E E E f e g a a g

3 3 g

a 3 3 g 5 3 g = a a a a a a a a a a a a a C C E C g C C E C C C C g C g C C C g 5 = = u u u u u u s u u u u u u 5 E E a a a a a a a $ a a a a a a a a ^p S S a a a a a a a a a a a a a a f G a A A A M A A A A A A W M M 5 5 5 s 1 M E 5 5 ~.j 5 t. ? ? ? ? ? ? ? ? ? a 5 5 5 5 5 5 5 5 5 o a o o o o o a o g 5 u a a a 8 8 8 3:g3 8 8 _ I u o u u _ v v 4 a 3 a o i.1 0 0 9 0 t%" g g 0 0 2 2 a "aY 2 t t 3 L L 3 3 3 3 3 3 3 A 3 3jE i 2 = m a 2 s 2 m = 3 2

• =

m s = = [ o 4 d 9 4 4 4 A"

• 1 4

S 4 4 4 4 1 1 1 1 4 t ~ A a A A A A -mo a v u u m u m o m m m m u o u o m

fI !i (h f ?l l y !Eh,[! 76 ) 0 8 8 0 0 8 s 8 8 8 0 0 5 5 8 8 3 3 6 6 1 97 s 2 3 3 2 2 3 3 3 3 3 2 2 7 7 3 3 2 2 4 4 1 / p 4 3 3 4 4 3 3 3 3 3 4 4 1 1 3 3 6 6 8 8 0 m 5 3 A 3 4 4 3 3 4 4 5 4 4 3 3 7 7 6 6 7 7 8 8 2 / ( 9 D f 7 0 l l l ll l l 0 a 0 8 8 0 0 8 8 8 8 8 0 0 5 5 8 8 0 0 3 3 ee 2 3 3 2 2 3 3 3 3 3 2 2 7 7 3 3 6 6 8 8 t g 4 3 3 4 4 3 3 3 3 3 4 4 1 1 3 3 5 5 7 7 aa DP A 6 7 7 6 6 7 7 7 7 7 6 6 9 9 7 7 8 8 9 9 CD l l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 5 0 0 5 5 0 0 0 0 5 5 0 0 0 0 5 5 0 0 D 3 4 4 3 3 4 4 0 4 4 3 3 0 0 4 4 3 3 4 4 Ce = l 0 0 0 f 0 0 0 0 l 0 0 0 0 1 1 0 l 0 C 0 0 f 0 l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F e 6 6 6 6 6 6 6 6 6 6 6 0 0 6 6 6 6 6 6 D 8 8 8 8 8 8 8 8 8 8 8 8 0 0 8 8 8 8 8 8 G C 0 l 0 l 0 0 0 0 0 0 0 l 0 0 0 0 1 1 0 l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C l l1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 f l l l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 9 9 9 9 9 9 9 9 9 9 9 9 6 6 9 9 9 9 9 9 D 7 7 7 7 7 7 7 7 7 7 7 7 5 5 7 7 7 7 7 7 S W 0 0 0 0 0 0 0 l 0 0 0 0 0 0 l l 0 0 0 0 0 0 0 l 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 F 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 D 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 A C l l l l 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 8 8 0 0 0 0 0 0 w 0 0 0 0 0 0 0 0 0 0 0 0 3 3 0 0 0 0 0 0 a 7 7 7 7 7 7 7 7 7 7 7 7 6 6 7 7 6 6 6 6 p 2 2 2 2 2 2 2 2 2 2 2 2 1 1 2 2 3 3 3 3 m A l l l l 0 0 0 0 0 0 0 0 0 0 C 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 8 8 0 0 0 0 0 0 0 l l l l 0 0 0 0 0 0 0 0 0 0 0 0 7 7 0 0 0 0 0 0 ~ 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 c 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0 n I t 0 0 0 0 0 0 0 0 0 0 0 0 3 3 0 0 0 0 0 0 t 2 2 i s F 4 no l l l l 9 i t a f E r o R e O ~ p 6 M O 7 ) 1 1 1 1 ) 1 1 1 1 1 ] ] 1 ] 1 1 ) 1 1 r 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 g ( ( 1 ( 1 ( 1 1 1 1 1 [ [ 1 [ 1 1 ( 1 1 r e e p ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) t y 0 O O O O D O O D O O O R R O O O O O O n t 0 C C C C C C C C C C C T T C C C C C C E p ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( a 0 D o D D D D D D D D D D D D D D D D D r 1 I t I T T T T T T T T T t T T T T T T W S S S l S S S S S S S l S S S S S S l l S S S S 0 0 0 0 0 0 0 0 0 2 2 2 2 2 2 2 2 2 O O 9 O O 0 0 O O O O O O O 0 0 O O W W W .W W W W D C t es M e D u t R t R R R t R u R o s f l M M M l l f M dI s 9 s s s s s J s 8 8 S J J 8 8 e 8 3 3 3 3 3 3 3 3 y a 0 e e e e e s e 8 8 S u u S 8 8 9 B 8 a 4 4 4 4 4 4 0 4 4 4 4 9 9 0 0 4 4 4 4 w 0 0 0 0 0 0 0 4 0 0 0 0 2 2 4 4 0 0 0 0 e 5 5 5 5 5 5 5 9 5 5 5 5 5 5 9 9 5 5 5 5 y c C C C C C C C C C C C C C C C C C C C C l a C C C C C C C C C C C C T T C C C C C C n R O l 1 1 1 1 1 1 1 1 1 1 I 1 1 1 1 1 1 1 1 1 l l l .s 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 u 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 0 5 5 5 5 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 0 2 2 2 2 a F d l L 1 1 1 1 1 1 1 1 e l 1 1 1 1 1 1 1 1 1 1 1 1 p l l ) p p 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 8 8 8 8 Sa m 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 3 3 3 3 Mr A 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 9 9 9 DW d P a 3 3 3 3 3 3 3 2 3 3 3 3 2 2 1 1 0 0 0 0 ( - o K K t t K K K K e N u L ts s e s s l l A l A e s s f m) l A A A A A A l l l ed L t L L L L L L .t e 5 8 8 B s B B 8 st ya SR D 0 D D D D D D t r C 0 C C C C C C ne D 0 D D D D D D 6 ed 2 nmn D 0 oeu C 0 2 5 6 2 0 1 4 0 i g( D 1 1 1 1 0 0 0 0 0 t ae l 0 0 0 l 0 0 5 l 5 l 5 T t a L ans C C C C C C C C P S s s 8 ss s B s R SMl S e e 4 e a e S S H b S S S A S S S i H M H s al s daa L t L L L L L L 8 8 8 8 ntC S s S 0 S S S S S 1 1 1 1 o ea 1 1 I 1 I I 1 I 1 0 0 0 0 N SDd d 7 0 0 0 0 e I P C C C C t rtt e e e e e e e e r ena d U U U U U U U U U U U l l l 3 l U U U l U l 1 1 1 1 o l l var a t F F F b F F F F b 1 b F F F F b F F b F b F b 4 4 4 4 p il e o a A A A a A A A A a N a A A A A a A A a A a A a C C C C e 2PD L C 3 3 3 C 3 3 3 3 C 1 C 3 3 3 3 c 2 2 C 1 C 1 C 1 1 1 1 R f

~ River Send Station Enter 3y Operations, Inc. Date: 09/30/97 Plant Data Management Systeen (PDMS) Page: TT Dercted Cables (under Rated) - Wrapped Rus Only lLDCD lLo W lLF lRacewayIt". lROCD lWraptype lFitt l0 hmw lCADF lWSDF liCDF lCGDF lMCDF l0CA lN(Amps) Load Id Cable: 1SLSmRC501 DCD: <BLAmK> 1AFU 1.000 1.000 1TC502R STD(TR) 131 29.950 6.608 14.53 1.000 0.560 1.000 1.000 1.000 8.137 7.137 + 1AFU 1.000 1.000 1tC502R MR 96-0020 STD(TR) 131 29.950 6.608 14.53 1.000 0.560 1.000 1.000 1.000 8.137 7.137 1AFU 1.000 1.000 1TC500R STD(TR) [3] 54.029 3.302 10.27 1.000 0.560 1.000 1.000 1.000 5.752 4.752 1AFU 1.000 1.000 1TC500R MR 96 0020 STD(TR) 131 54.029 3.302 10.27 1.000 0.560 1.000 1.000 1.000 5.752 4.752 Cable: 1SLSNRC504 DCD: <SLANK) 1AFU 1.000 1.000 1TC500R STD(TR) [3] 54.029 3.302 10.27 1.000 0.560 1.000 1.000 T.000 5.752 4.752 1AFU 1.000 1.000 1TC500R mt %-0020 STD(TR) [3] 54.029 3.302 10.27 1.000 0.560 1.000 1.000 1.000 5.752 4.752 Cable: ISLSmRC513 DCD: <SLANK> 1AFU 1.000 1.000 1TC500R STD(IR) [3] 54.029 3.302 14.46 1.000 0.560 1.000 1.000 1.05 8.100 7.100 1AFU 1.000 1.000 1TC500R MR 96 0020 SID(TR) 131 54.029 3.302 14.46 1.000 0.560 1.000 1.000 1.000 8.100 7.100 Cable: 1SSRNNC519 DCD: <8 TANK > l l 5.000 l1.000 l1CC807mA l lSTD(CO) l 0.000l 0.000l27.00l0.894l0.790l1.000l0.860l0.700l11.485l6.485 SAFU [1] Cable: ISWPABC005 000: <8 TANK > 3AFU 3.000 1.000 1CC504881 SID(CO) [3] 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.500 9.1 72 6.1 72 3AFU 3.000 1.000 1C05048a1 na 96-0020 STD(CO) 131 0.000 0.000 27.a0 1.000 0.790 1.000 0.860 0.500 9.1 72 6.172 3AFU 3.000 1.000 1CC504ss3 STD(CO) (31 0.000 0.000 27.00 1.0M 0.790 1.000 0.860 0.400 7.338 4.338 3AFU 3.000 1.000 1CC504ss3 na %-0020 STD(CO) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.400 7.338 4.338 3AFU 3.000 1.000 1CC504ss STD(CO) [3] 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 3.4b 3AFU 3.000 1.000 ICC504es na %-0020 SID(CD) 131 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.350 6.420 3.420 Cable: ISWPARC002 DCD: < BLANK > 3AFU 3.000 1.000 1TC20$R UNIQUE-2(TR) [1] 43.199 4.295 10.80 0.894 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 tic 204R UNtouE-2(TR) (11 38.045 4.987 10.80 0.894 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 1TC202R UNIQUE-2(TR) [1] 35.425 5.424 10.80 0.894 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 1TC201R UNICUE-2(TR) til 32.799 5.938 10.80 0.894 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 1TC200R UNIQUE-1(TR) Ill 33.388 5.815 10.80 0.894 0.680 1.000 1.000 1.000 6.569 3.569 3AFU 3.000 1.000 1CC200RA STD&UN10-1(CO) (13 0.000 0.000 27.00 0.894 0.620 1.000 0.860 0.350 4.507 1.507 3AFU 3.000 1.000 1*Js2119 STD(JB) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 Report 100.: 9PT00026 77 of 94 - 07:25:11 <MORE>

.~. River Bend Stati M Entercy Operctions, Inc. Date: 09/30/97 Plant fata Management System (PDMS) Page: 78 Dertted Cables (under Rated) - Wrapped Rus Only lLDCD lLoadanplLF lRacewayId lRDCD lWraptype lFitt lQ lAgRu lCADF lWSDF lfCDF lCCDF Load Id lDCA St( Augss) MCDF Cable: 1SWPARC002 DCD: <BLANKP 3AFU 3.000 1.000 1CC200RA2 SID(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.T43 3AFU 3.000 1.000 1*J82118 STD(J8) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA4 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*Js2116 STD(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860: 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA5 STD(CO) Ill 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*Js2114 STD(JB) Ill 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350

5. 742 2.743 3AFU 3.000 1.000 1CC200 RAT STD(CO) [1]

0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 Cable: 1SWARC003 DCD: <SLANK> 3AFU 3.000 1.000 1TC205R UNIQUE-2(TR) (11 43.199 4.295 11.34 0.894 0.680 1.000 1.000 1.000 6.899 3.899 3Afu 3.000 1.000 lic204R UNIQUE-2(TR) (1) 38.045 4.987 12.22 0.894 0.680 1.000 1.000 1.000 7.434 4.434 r 3AfD 3.000 1.000. ITC202R UNIQUE-2(TR) [1] 35.425 5.424 12.75 0.894 0.630 1.000 1.000 1.000 7.753 4.753 3ATU 3.000 1.000 lic203R UNIQUE-2(TR) (13 3.215 91.175 17.60 0.894 0.680 1.000 1.000 1.000 10.705 7.705 3AFU 3.000 1.000 1CC203RC STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 4.383 3AFU 3.000 1.000 1*Js2149 STD(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.'L83 4.383 0.700l11.485 3AFU 3.000 1.000 1CC203RC1 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 8.485 Cable: ISWPARC005 DCD: <8tANKP l3.000 1.000 1TC205R UNIQUE-2(TR) (1) 43.199 4.295 13.52 0.894 0.680 1.000 1.000l1.000 8.223 5.223 3AFu 3Afu 3.000 1.000 1TC204R UNIQUE-2(TR) til 38.045 4.98. 14.57 0.894 0.680 1.000 1.000 1.000 8.861 5.861 3AFU 3.000 1.000 1TC202R UNIQUE-2(TR) (1) 35.425 5.424 15.19 0.894 0.680 1.000 1.000 1.000 9.241 6.241 3AFU 3.000 1.000 1TC203R UNIQUE-2(it) (1) 3.215 91.175 21.60 0.894 0.680 1.000 1.000 1.000 13.137 10.137 3AFU 3.000 1.000 1CC203AC STD(CO) 111 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 4.383 3AFU 3.000 1.000 1*Je2149 STD(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 7.383 4.383 i 3AFU 3.000 1.000 1CC203RC2 STD(CO) (Il 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.500 8.204 5.204 Cable: 1SWPARC014 DCD: <sLANK> i 3AfD 3.000 1.000 1TC205R UNIQUE-2(TR) [1] 43.199 4.295 11.72 0.894 0.680 1.000 1.000 1.000 7.125 4.125 3ATU 3.000 1.000 1TC204R UN!QUE-2(TR) [1] 38.045 4.987 12.62 0.894 0.680 1.000 1.000 1.000 7.678 4.678 3AFU 3.000 1.C00 lic202R UNIQUE-2(TR) 11] 35.425 5.424 13.16 0.894 0.680 1.000 1.000 1.000 8.007 5.007 Report No.. RPIOOO76 78 of 94 - 07:25:11 <MORE> [

River Send Station Entergy operations, Inc. Date: 09/30/97 Plant Data Management System (POMS) Page: 79 Derated Cable = (under Rated) - Wrapped RWs only lLDCD lLoadAmplLF lRecewayid lRDCD lWraptype lFilt l0 lAapRw lCADF lWSOF liCDF lCGDF lMCDF lDCA lM(Amps) Load Id Cable: 1SWPARC014 DCD: <8L AK> 3AFU 3.000 1.000 tic 201R UNIQUE-2(TR) (Il 32.799 5.938 13.77 0.894 0.680 1.000 1.000 1.000 8.378 5.378 3AFU 3.000 1.000l1TC200R UNIQUE-1(TR) 11] 33.388 5.815 13.63 0.894

r. 680 1.000 1.000 1.000 8.291 5.291 Cable: 1SWPARCO20 DCD: <SLANE>

3AFU 3.000 1.000 1TC205R UNIQUE-2(TR) [1] 43.199 4.295 11.34 0.894 0.680 1.000 1.000 ! 1.000 6.899 3.899 3AFU 3.000 1.000 1TC204R UNIQUE-2(TR) til 38.045 4.987 12.22 0.894 0.680 1.000 1.000 1.000 7.434 4.434 3AFU 3.000 1.000 1TC202R UNIQUE-2(TR) II) 35.425 5.424 12.75 0.894 0.680 1.000 1.000 1.000 7.753 4.753 3AFU 3.000 1.000 1TC201R UNIQUE-2(TR) (1) 32.799 5.938 13.34 0.894 0.680 1.000 1.000 1.000 8.112 5.112 3AFU 3.000 1.000 tic 200R UNIQUE-1(TR) [1] 33.388 5.815 13.20 0.894 0.680 1.000 1.000 1.000 8.028 5.028 Cable: ISWPARCO20 DCD: ER 96-0660 3AFU 3.000 1.000 1TC205R UNIQUE-2(TR) (1) 43.549 4.255 11.29 0.894 0.680 1.00G 1.000 1.000 6.866 3.866 3AFU 3.000 1.000 1TC204R UNIQUE-2(TR) (1) 38.045 4.987 12.22 0.894 0.680 1.000 1.000 1.000 7.434 4.4% 3AFU 3.000 1.000 1TC202R UNIQUE-2(TR) [1] 35.425 5.424 12.75 0.894 0.680 1.000 1.000 1.000 7.753 4.753 3AFU 3.000 1.000 1TC20lR UNIuuE-2(IR) [1] 32.799 5.938 13.34 0.894 0.680 1.000 1.000 1.000 8.112 5.112 3AFU 3.000 1.000 1TC200R UNIQUE-1(TR) [1] 33.388 5.815 13.20 0.894 0.680 1.000 1.000 1.000 8.028 5.028 Cable: ISWPARCO21 DCD: <8 LAND 3AFU 3.000 1.000 1CC200RA7 ~ STD(CO) [1] 0.000 0.000 27.00-0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*J82114 STo(JS) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200 RAS STD(CO) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*J82116 STD(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA4 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742

2. 74 3 3AFU 3.000 1.000 1*J82118 SID(JS) [1]

0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA2 STO(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*J82119 SID(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA STD& UNIO-1(CD) [1] 0.000 0.000 27.00 0 894 0.620 1.000 0.860 0.350 4.507 1.507 3AFU 3.000 1.000 1TC200R UNIQUE-1(TR) [1] 33.388 5.815 12.26 0.894 0.680 1.000 1.000 1.000 7.456 4.456 3AFU 3.000 1.000 tic 201R UN10UE-2(TR) [1] 32.799 5.938 12 39 0.894 0.680 1.000 1.000 1.000 7.535 4.535 3AFU 3.000 1.000 liC202R UNIQUE-2(TR) [1] 35.425 5.424 11.84 0.894 0.680 1.000 1.000 1.000 7.201 4.201 Report No.: RPTOOO26 79 of 94 - 07:25:11 <MORE> t

-~. 2iver Bend Station Entstgy Operst ions. Inc. Date: 09/30/97 Plant fata Management System (PDMS) Page: 80 Dercted Cables (under Rated) - Wrapped RWs Only llDCD lLoadnaplLF l Raceway Id lROCD lWraptype l Fill lQ lAmpRw lCADF lWSOF l1CDF lCGDF lMCDF lDCA lW(Amps) Load Id Cable: 1SWPARC021 OCD: <8 LANK > 3AFU 3.000 1.000 1TC204R UNIQUE-2(TR) [1] 38.045 4.987 11.35 0.894 0.680 1.000 1.000 1.000 6.905 3.905 3AFU 3.000 1.000 liC205R UNIQUE-2(TR) 111 43.199 4.295 10.54 0.894 0.680 1.000 1.000 1.000 6.404 3.408 Cable: ICWPARCO22 DCD: <SLAmK> l l3.000l1.000l1TC205R l lUN10UE2(TR) l43.199l 4.295l11.34l0.894l0.680l1.000l1.000jt.000l6.899l3.899 1AFU [1] Cable: 1SWPARCO22 DCD: ER 96 0660 l l3.000l1.000l11C205R l l UNIQUE-2(TR) l43.549l 4.255l11.29l0.894l0.680l1.000l1.000l1.000l6.866l3.866 3AFU (1) Cable: 1SWPARC032 DCD:'<SLANK> 3AFU 3.000 1.000 1TC205R UNIQUE-2(TR) [1] 43.199 4.295 10.32 0.894 0.680 1.000 1.000 1.000 6.279 3.279 3AFU 3.000 1.000 liC204R UNIQUE-2(TR) (Il 38.045 4.987 11.13 0.894 0.680 1.000 1.000 1.000 6.766 3.766 3AFU 3.000 1.000 11C202R UNIQUE-2(TR) [1] 35.425 5.424 11.60 0.894 0.680 1.000 1.000 1.000 7.056 4.056 3AFU 3.000 1.000 1TC201k UNIQUE-2(TR) [1] 32.799 5.938 12.14 0.894 0.680 1.000 1.000 1.000 7.383 4.383 3AFU 3.000 1.000 1TC200R UN10UE-1(TR) [1] 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 7.306 4.306 Cable: 1SWPARCO33 DCD: <sLANK> 3AFU 3.000 1.C30 lic205R UNIQUE-2[TR) (11 43.199 4.295 11.34 0.894 0.680 1.000 1.000 1.000 6.899 3.899 3AFU 3.000 1.000 tic 204R UNIQUE-2(TR) (1) 38.045 4.987 12.22 0.894 0.680 1.000 1.000 1.000 7.434 4.434 3AFU 3.000 1.000 1TC202R UNIQUE-2(IR) (11 35.425 5.424 12.75 0.894 0.680 1.000 1.000 1.000 7.753 4.753 3AFU 3.000 1.000 ITC201R UNIQUE-2(TR) (11 32.799 5.938 13.34 0.894 0.680 1.000 1.000 1.000 8.112 5.112 I 3AFU 3.000 1.000 lic200R UNIQUE-1(it) [1] 33.388 5.815 13.20 0.894 0.680 1.000 1.000 1.000 8.028 5.028 3AFU 3.000 1.000 1CC200RA STD&UNIQ-1(CO) [1] 0.000 0.000 27.00 0.894 0.620 1.000 0.860 0.350 4.507 1.507 3AFU 3.000 1.000 1*Js2119 STD(J8) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA2 STD(CD) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*Js2118 STD(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA4 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 i 3AFU 3.000 1.000 1*JB2116 STD(JS) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 l 3AFU 3.000 1.000 1CC200RA5 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*J82114 STD(JB) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1CC200RA6 STD(CO) [1] 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.500 8.204 5.204 Report No.- RPf00026 - 80 of 94 - 07:25:11 <n0RE> [ f

.. ~. _... ..m m.. Rivtr Send Station Entergy Operations, Inc. Date: 09/30/97 Plant Eata Management System (PDesS) Dercted Cables (under Rated) - Wrapped aus only Page: 81 lLOCD -l Lad =plLF lRacewayId lROCD lWraptype lFitt lQ lAmyRW lCADF Load Id liCDF lCCDF lsICDF lDCA(es(Asps) WSOF Cable: ISWPARC034 DCD: <8t AssE > 3AFu 3.000 1.000 1TC205R UulGUE-2(TR) [1] 43.199 4.295 10.32 0.894 0.680 1.000 1 000 1.000 6.279 3.2M 3Afu 3.000 1.000 11C204R UselquE-2(TR) [1] 38.045 4.987 11.13 0.894 0.680 1.000 1.000 1.000 6.786 3.766 3AFU 3.000 1.000 liC202R UntouE-2(TR) [1] 35.425 5.424 11.60 0.894 0.680 1.000 1.000 1.000 7.056 4.056 3AFU 3.000 1.000 1TC201R untouE-2(in) (11 32.799 5.938 12.14 0.894 0.680 1.000 1.00'1 : 1.000 7.383 4.383 3AFU 3.000 1.000 tic 200R uu!QUE-1(TR) [11 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 7.306 4.306 I Cable: ISWPARCO35 DCD: <sLAssK> I 3AFU 3.000 1.000 1TC20$R UnlouE-2(TR) [1] 43.199 4.295 11.34 0.894 0.680 1.000 1.000 1.000 6.899 3.899 3AFU 3.000 1.000 1TC204R UuteuE-2(TR) [1] 38.045 4.987 12.22l0.894 0.680 1.000 1.000 1.000 7.434 4.434 Cable: 1SWPARCO38 DCD: <SLANE> 3AFU 3.000 1.000 1TC500R STD(TR) (3) 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 I 3AFU 3.000 1.000 tic 500R sea %-0020 STD(TR) 131 54.029 3.302 9.95 1.00e 0.560 1.000 1.000 1.000 5.569 2.569 3AFu 3.000 1.000 tic 503R SID(TR) [3] 13.736 16.526 17.60 1.000 0.560 1.000 1.000 1.000 9.856 6.856 3AFU 3.000 1.000 1TC503R set 96-0020 STD(IR) 131 13.736 16.526 17.60 1.000 0.560 6.000 1.000 1.000 9.856 6.a56 Cabte: ISWPARC039 DCD: <8LAssE> 3AFU 3.000 1.000 11C205R UNIQUE-2(TR) (1) 43.199 4.295 10.32 0.894 0.680 1.000 1.000 1.000 6.279 3.279 3AFu 3.000 1.000 1TC204R untouE-2(TR) [1] 38.045 4.987 11.13 0.894 0.680 1.000 1.000 1.000 6.766 3.766 t 3Afu 3.000 1.000 tic 202R UNIQUE-2(TR) (1) 35.425 5.424 11.60 0.894 0.680 1.000 1.000 1.000 7.056 4.056 3AFU 3.000 1.000 tic 201R UntouE-2(TR) til 32.799 5.938 12.14 0.894 0.680 1.000 1.000 1.000 7.383 4.383 3AFU 3.000 1.000 1TC200R UntouE-1(TR) [1] 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 7.306 ' 4.306 l l Cable: 1SWPARC040 DCD: <0 LANK) 3Afu 3.000 1.000 liC205R UNIQUE-2(TR) [1] 43.199 4.295 11.34 0.894 0.680 1.000 1.000 1.000 6.899 3.899 3AFU 3.000 1.000 1TC204R UuteuE-2(TR) [1] 38.045 4.987 12.22 0.894 0.680 1.000 1.000 1.000 7.434 4.434 3Afu 3.000 1.000 1TC202R UIsIQUE-2(TR) (1) 35.425 5.424 12.75 0.894 0.680 1.000 1.000 1.000 7.753 4.753 [ t 3AFU 3.000 1.000 1TC201R UntouE-2(TR) [1] 37.799 5.938 13.34 0.894 0.680 1.000 1.000 1.000 8.112 5.112 3AFU 3.000 1.000 1TC200R untouE-1(TR) [1] 33.388 5.815 13.20 0.894 0.680 1.000 1.000 1.000 8.028 5.028 l 3AFU 3.000 1.000 1CC200RA STD&uulo-1(CO) [1] 0.000 0.000 27.00 0.894 0.620 1.000 0.860 0.350 4.507 1.507 t ^ 3AFU 3.000 1.000 1*J82119 STD(JS) 111 0.000 0.000 5.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 Report 100.. RPIOOO26 - 81 of 94 - 07:25:11 [ <se0RE> [

Jiver Send sty, ion Entergy Operst eens, Inc. S te: 99/30/97 Plant Data semnagement sFstem (Posts) Page. 32 Derated Cat >tes (Uruler Rated) - wrapped RWs Only fLOCO lL W lLF lRaccesey Id lRDCD lWraptype lFitt l0 lCADF lWSDF lT*DF fC25 luGF l0CAlse(Asps) Load Id gRu Cat >te: 1steASC060 DCD: <8 LASE > 3Aru 3.000 1.000 1CC200RA2 STD(CO) til 0.000 0.000 27.00 0.896 OI790 1.000 0.860 0.350 5.742

2. 74 3 3Pfu 3.000 1.000 1*Js2118 sTD(Je) **;

0.000 0.000 27.00 0.896 0J90 1.o*1 0.sA0 0.350 5.762 2.743 3AF3 3.000 1.000 1CC200RA3 STD(CD) Ill 0.000 0.000 27.00 0.896 OJ90 1.000 0.860 OJB0 11.485 { S.465 Cat >(e: 1sWPARCG64 DG: <stasE> 8 l l3.000l1.000l1CC155tA l lsTD(CO) l 0.000l 0.000 l 27.00 l0.896 l0.790 l1.000 l0.860 l0.700 l 11.4M l 8.685 3AF3 111 Catzte: ISWPARC047 DCD: <SLAmK> 3AFu 3.000 1.000 tic 500R STD(TR) 131 56.029 3.302 9.95 1.000 0.560 't.000 1.000 1.000 5.5e* ;f 2.569 3Aru 3.000 1.000 1TC500R set 96-0020 sTD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.000 1.000 2.000 5] 2.569 3Afu 3.000 1.000 1TC503R 51D(TB) 131 13.736 16.526 17.50 1.000 0.560 't.000 1.000 1.000 d.856 : 6.856 3AFU 3.000 1.000 1TC503R est %-0020 FTD(TR) [3] 13.736 16.526 17.60 1.000 0.560 t.000 1.000 1.0'A 9.856 6.856 Catzte: 1sWPARC068 DCD: <SUnmKm 3AFu 3.000 1.000 ifC205R uu!QUE-2(TR) [1] 43.199 4.295 10.32 0.896 0.680 1.000 1.000 1.000 6.279 3.279 3AFu 3.000 1.000 tic 204R unleuE-2(it) [1] 38.065 4.987 11.13 0.896 0.680 1.000 1.000 1.000 6.766 - 3.766 3Afu 3.000 1.000 1TC202R UntouE-2(TR) til 35.425 5.426 11.60 0.894 0.680 1.000 1.000 1.000 T.056 4.056 3AFu 3.000 1.000 1TC201R unteUE-2(TR) 111 32.799 5.938 12.14 0.896 0.680 1.000 1.000 1.000 T.383 4.3a3 3AFu 3.*10 % MO 1TC200R UnteUE-1(TR) til 33.388 5.815

12. ?

0.896 : 0.680 1.000 1.000 1.000 i T.306 4.306 Cat >te: 1snFARC069 DCD: <SLAnK> 3AF2r 3.000 1.000 1TC205R untoun 2(TR) [1] 43.199 4.295 11.34 0.896 0.680 1.000 1.000 1.000 6.399 3.899 MF3 3.000 1.000 1TC204R untouE-2(TR) Ett 38.065 4.987 12.22 0.896 0.680 1.000 1.000 1.000 T.434 4.634 3AFU 3.000 1.000 1TC202R untouE-2(TR) [1] 35.425 5.426 12.75 0.896 0.680 1.000 1.000 1.000 T.753 4.753 3AFu 3.000 1.000 1TC203R unleuE-2(TR) til 3.215 91.175 17.60 0.896 0.680 1.000 1.000 1.000 10.795 T.795 3AFu 3.000 1.000 1CC203RC STD(CO) III 0.000 0.000 27.00 0.886

0. M 1.000 0.860 0.650 T.383 4.353 3AFu 3.000 1.000 1*Je2169 sTo(Je) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.450 T.383 4.383 3AFU 3.000 1.000 1CC203RC2 STD(CO) til 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500, 8.206 5.206 Cat >te: 1sWPARC049 DCD: sat 96-0023 3AFu 3.000 1.000

1. 205R unteuE-2(it) III 43.569 4.255 11.29 0.896 0.680

,1.000 1.000 1.000 6.366 3.366 3AFu 3 *WO 1.000 1TC204R unteuE-2(TR) 113 38.045 4.967 12.22 0.896 0.680 1.000 1.000 1.000 T.434 4.434 Ceport No.: RPT00026 - 82 of 96 - 07.25:11 <wJE>

i i 2iver send station Entergy operations. Inc. Data: 09/30/97 Plant Data stenagement system (PDws) Page: 83 Derated C btes (tmider Rated) - Wrapped WWs Only lLDG lLoadmap ltf lRacewayEd leDCD lWraptype lFitt l0 lAspeu lCADF lICDF lCEDF fmCDF lDCA{se(Augus) Load Id mF Catde: 1sWPaeC049 DCD: aan W OO23 3AFU 3.000 1.000 tic 202R unteUE-2(it) Ill 35.425 5.424 12.75 0.8% 0.680 1.000 1.000 1.000 T.753 4.53 3AFU 3.000 1.000 1TC203e unt C -2(Ta) [1] 3.215 91.175 17.60 0.896 0.680 1.000 1.000.1.000 10.M5 T.735 3AFU 3.000 1.000 1CC203eC STD(CD) 111 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.450 T.383 4.383 MFU 3.000 1.000 1*Js2149 sto(Je) (11 0.000 0.000 27.00 0.8% 0.790 1.000 0.860' O.450 T.383 4.383 3AFU 3.000 1.000 1CC203eC2 sio(CD) III 0.000 0.000 27.00 0.8% 0.790 1.000 0.860 0.500 8.2e6 5.296 Cable: 1suraAC059 D m : <stamKm 3AFu 3.000 1.000 1TC500R STD(Tr> 131 I 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3AFu 3.000 1.000 1TC5een set W 0020 STD(TR) 133 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2_569 3AFU 3.000 1.000 1TC502a sfo(Ta) 131 29.950 6.60s 16.07 1.000 0.560 1.000 1.000 1.300 T.sM 4.879 3AFU 3.000 1.000 1TCSC2a cut W 0020 STD(TR) 133 29.950 6.60s 14.07 1.000 0.560 1.000 1.000 1.000 T.879 4.iF9 Cable: 1sWPARCOT4 DCD: <stamKm 1;13 4 731-s7 0.625 1.250 1TC205a untout-2(TR) 111 43.199 4.295 11.34 0.8% 0.680 1.000 1.000 1.000 6.899 6.274 1:134 731-87 0.625 1.250 1TC206a unteUE-2(TR) til 38.065 4.987 12.22 0.896 0.680 1.000 1.000 1.000 T.434 6.309 1:13 4 731-s7 0.625 1.250 1TC202R uut0UE-2(in) (13 35.425 5.424 12.75 0.896 fr.o80 1.000 1.000 1.000 T.753 T.128 1:139731-sT 0.625 ' 1.250 1TC201a untauE-2(TR) [1] 32.FC9 5.938 13.34 0.896 0.680 1.000 1.000 1.000 8.112 T.487 1:134T31-s7 0.625 1.250 1TC200R unleuE-1(TR) til 33.388 5.815 13.20 0.896 0.680 1.000 1.000 1.000 8.028 7.403 Cable: 1SWPARCOTT 03: <SLAsIK* 1213 4 731-37 0.625 1.250 ' 1TC205a unleuE-2(TR) (11 43.199 4.295 11.72 0.8% 0.680 1.000 1.000 1.000 T.125 6.580 1 134 731-s7 0.625 1.250 1TC206a unteut-2(Ta) 113 18.045 4.987 12.62 0.894 0.680 1.000 1.000 1.000 7.678 T.053 1:13 4 731-57 0.625 1.25C 1TC202m unteuE-2(it) 111 35.425 5.424 13.16 0.896 0.680 1.000 1.000 1.000 8.907 T.382 1213 4 731-s7 0.625 1.250 1TC2012 uul0UE-2(TR) (11 32.799 5.938 13.77 0.896 0.680 1.000 1.000 1.000 8.378 T.753 1;134 731-57 0.625 1.250 1TC200R unleUE-1(TR) 113 33.388 5.875 13.63 0.896 0.680 1.000 1.000 1.000 8.291 7.666 Cable: 'isWPAGCos2 DCD: <sLANK> l 0.000l 0.000 l 27.00 l0.896 l0.790 l1.000 l0.860 l1.000 l 16.407 l 13.407 l l3.000l1.000l1CCs38R0 l lsTD(CD)111 3AFM Cable: 1SWPARC006 DCD: SIR W OO23 3AFU 3.000 1.000 1TC205a UutouE-2(TR) (11 43.549 4.255 10.28 0.896 0.680 1.000 T.000 1.000 6.250 3.250 3AFU 3.000 - 1.000 1TC204a untouE-2(TR) til 38.045 4.987 11.13 0.8% 0.680 1.000 1.000 1.000 6.766 3.766 Ceport No.: RPT00026 - 83 of 94 - 0,7:25:11 <seanE m

2iver Send Statieri - Entergy Wat so% inc. Cate: 99/M97 Plant Data sannagemmt System (PDees) Page: 86 9erated Cables (uw Rated) + urapped RWs Only lLDCD lLomettapltf lRacemoy Id ' lROCD lWraptype lFilt le lanyRu lCACF lwsDF lTCDF lCEDF laeCDF lDCA la(Amyn) Load Id Cable:.1sWPARC006 DCD: sut 96-0023 3ArJ. 3.000 1.000 1TC202R unteUE-2(18) til 35.425 5.424 '11.60 0.896 0.600 1.000 1.000 1.000 T.0% - 4.3% 3AFU 3.000 1.000 1TC201R unteuE-2(TR) til 32.799 5.938 12.14 0.894 0.680 1.000 1.000 1.000 T.3s3

4.383 3AFU 3.000 1.000 tic 200R unletE-1(!E) (11 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 T.306 4.306 Cable: 15MPARC006 DCD: sut 96-0023-FCm02 l

3AFu 3.000 1.000 lic205R untoLE-2(TR) 111 43.549 4.255 10.28 0.894 0.680 1.000

1.000 1.000 6.250 3.250 3Afu

'3.000 1.000 1TC206R unleUE-2(TR) (1) 38.065 4.967 11.13 0.896 0.680 1.000 T.000 1.000 6.7e6

3. 706 3Aru 3.000 1.000 1TC202R uuteLE-2(TR) 111 35.425 5.424 11.60 0.896 0.680 1.000 1.000 1.000 T.0%

4.0% 3AFU 3.000 1.000 1TC2018 umlauE-2(TR) 111 32.799 5.938 12.14 0.896 9.680 1.000 1.000 1.000 T.383 4.383 3AFU 3.000 1.000 1TC200R unleuE-1(TR) (13 33.388 5.815 12.01 0.894 0.680 1.000 1.000 1.000 T.306 4.306 q Cabte: 1SWPARC009 DCD: est 96-0024 3ATU 3.000 1.000 1TC205R IuesteuE-2(TRh (11 43.549 4.255 10.76 0.896 0.680 1.000 1.000 1.000 6.54 3.54 3AFU 3.000 1.000 1TC206R unteuE-2(TR) (13 38.045 4.967 10.80 0.896 0.680 1.000 1.000 1.000 6.569 3.569 3Afu 3.000 1.000 tic 202R unleuE-2(TR) til 35.425 5.44 10.80 0.896 0.680 1.000 1.000 1.000 6.569 3.569 3AFu 3.400 1.000 liC201R unleuE-2(TR) (11 32.799 5.938 10.60 0.896 0.600 1.000 1.000 1.000 6.569 3.549 3Afu 3.000 1.000 1TC200m unteUE-1(TR) (1) 33.388 5.815 10.80 0.896 0.680 1.000 1.000 1.000 6.569 3.569 3Afu 3.000 1.000 ICC200RA STDauste-1(CD) [1] 0.000 0.000 27.00 0.896 0.620 1.000 0.860 0.350 4.507 1.567 3AFU 3.000 1.000 1*Jt2119 STD(JS) 111 0.000 0.000 27 00 0.896 0.790 1.000 0.860 0.350 5.742 2.743 3AFu 3.000 1.000 1CC200RA2 sf0(CO) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.742

2. 743 3AFU 3.000 1.000 1*JS2118 STD(JS) (II 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.TM LT43 3AFU 3.000 1.000 1CC200RA4 STO(CD) (1)

C.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*Js2116 STD(JS) [11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.742 2.743 3AFD 3.000 1.000 1CC200 RAS STD(CD) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350

5. 74 2 LT43 3ArJ 3.000 1.000 1*Je2114 STD(JS) (13 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.742 2.743

~3Afu 3.000 1.000 1CC200 RAT STD(CD) 11] 0.600 0.000 27.00 2.896 0.790 1.000 0.860 0.350 5.742 2JJ Cable: 1SWPARC090 DCD: set 96-0024 l 43.549 l 4.255 l 13.46 l0.896 l0.600 l1.000 l1.000 l1.000 l 8.1% l 5.186 l l3.000l1.000l1TC205R l lunteuE-2(TR) 111 3Afu Eeport no.: RPTOOO26 - 84 of 96 07:25:11 <squRE >

_. = =. m m.._ m t 2iver send station Entergy Operations. Inc. Date: 09/30/97 . Plant Data leanagemmt system (PDets) Page: 85 e,.. C ( ~ a.t.e} --a., ~, lLDCD lLoadness lLF lRatewayId laDCD lWaptype lFitt f4apam lCADF Load Id fCGDF 0 WSDF TCDF aeGF DCA se(ay9ps) Cable: 1sWPARC302 DCD: <SLAleKm l 1.3bI.I.250.DC200R IuuleuE-1(TR) 111 33.388 5.815 15.T3 0.896 0.680 1.000 1.000 1.000 9.568 8.193 I isWPassov40A-i fte!QUE-2(Ts) j 1sWP*ssow404-1.375 1.'50 1TC201e (11 32.799 5.938 15.90 0.894 0.680 1.000 1.000 1.000 9.6eo 8.2% l 1sWP*Isow40A-1.3 75 1.250 1TC202R untouE-2(TR) III 35.425 5.424 15.19 0.894 0.680 1.000 1.000 1.000 9.241 T.8e6 [ 1sWPassov404-1.375 1.250 1TC206R uulouE-2(TR) (11 38.045 4.987 14.57 0.896 0.680 1.000 1.000 1.000 8.861 T.486 { 1sWP*ssov404-1.375 1.250 1TC205a uutetE-2(ta) til 43.199 4.295 13.52 0.894 0.680 1.000 1.000 1.000 8.223 6.868 t Cabte: 1sWPARC531 DCD: 48LAmK> i 1sWP*P2A-uit 4.750 1.250 1TC200m uu!QUE-1(TR) (11 33.388 5.815 22.28 0.896 0.680 1.000 1.000 1.000 13.553 8.893 q; 1 1sWPv2A-uim 4.750 1.250 1TC201R uuIQUE-2(TR) 111 32.799 5.938 22.52 0.896 0.680 1.000 1.000 1.000 13.606 8.966 1sWP*P2A-uim 4.750 1.250 1TC202a useleUE-2(TR) (11 35.425 5.424 21.52 0.894 0.680 1.000 1.000 1.000 13JI90 8.360 I 1 1sWPv2A-uTR 4.750 1.250 lic204a untauE-2(TR) 111 38.045 4.987 20.64 0.894 0.680 1.000 1.000 1.000 12.552 T.802 1sWPv2A-uia 4.750 1.250 1TC205e unteUE-2(TR) (11 C 199 4.295 19.15 0.896 0.680 1.C;:S 1.000 1.000 11.665 6.898 Cable: 1sWPAaC553 DCD: <SLANK* isWPvmL5994 0.262 1.250 1TC205a unleuE-2(TR) (11 43.199 4.295 13.52 0.894 0.680 1.000 1.000 1.000 8.223 T.961 j r 1sWPvmL5994 0.262 1.250 1TC204e untouE-2(TR) til 38.045 4.987 14.57 0.896 0.680 1.000 1.000 1.000 8.861 8.599 4 1sW*PNL599A 0.262 1.250 1TC202a uu!GUE-2(TR) 111 35.425 5.424 15.19 0.896 0.680 1.000 1.000 1.(M0 9.241 8.978 1sWPvetS994 0.262 1.250 1TC203e unIGUE-2(Ta) (11 3.215 91.175 21.60 0.896 0.680 1.000 1.000 1.000 13.137 12.875 i IsWP*PesL5994 0.262 1.250 1CC203aC sio(CO) 111 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.450 T.383 T.121 1sWP yseL599A 0.262 1.250 1*JS2149 STD(J8) 111 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.450 T.383 T.121 1sWPvutS99A 0.262 1.250 ICC203RC2 STD(CO) (*I 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0 Sa* 8 8.2% T.961I 1 i C#2te: 1sWPARC559 DCD: <SLAmK> [ 4 i 1:13*P750 5.060 1.100 1TC500m STD(Ta) 131 54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 0.250 1:13*P750 5.060 1.100 1TC500m set 96-0020 sio(TR) [31 54.029 3.302 9.48 1.000 0.560 1.000 1.000 1.000 5.310 0.250 p 1P134 750 5.060 1.100 1TC503a STD(Ta} [31 13.736 16.526 10.80 1.000 0.560 1.000 1.000 1.000 6.068 0.988 a ~;;134750 5.060 1.100 1TC503a sen 96-0020 STD(TR) [3] 13.736 16.526 10.80 1.000 0.560 1.000 1.000 1.000 6.068 0.988 y Cable: 1sWPARC567 DCD: <8LAdIK> 3Aru 3.000 1.000 1TC205a untouE-2(TR) til 43.199 4.295 12.04 0.896 0.680 1.000 1.000 1.000 7.326 4.324 k i 3Afu 3.000 1.000 1TC204R uu!QUE-2(TR) III 38.065 4.987 12.98 0.896 0.680 1.000 1.000 1.000 7.892 4.892 i 1 l [ lleg art Clo.: RPT00026 - 85 of 96 - 07:25:11 l l i t <se0aE

• Oswer send Station Entergy operations, Inc.

Date: 09/3e/97 Plant Data scenessment System (PONS) Peer: 86 Derated Cables (under Rated) - Wrapped Aws Only lLDCD lLoadamplLF laacewayId leDCD lwraptype l Fill l0 lAmyces lCADF fWSDF lTCDF lCEDF feCDF lDCA lst(Amps) Load Id Cable: 15MPARC567 DCD: <sLAseK> 3AFU 3.000 1.000 1CC958eC1 STD(CD) til 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 8.296 5.296 l 3AFD 3.000 1.000 1CC958mc STD(CD) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 5.296 5.296 Cable: 1sWPARC602 DCD: < slash 3AFU 3.000 1.000 1TK203t STD(Ta) 111 41.341 4.523 14.10 0.896 0.680 1.000 1.000 1.000 8.575 5.57T 3AFU 3.000 1.000 1CE200ael STD(Con [1] 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 8.296 5.206 3AFU 3.000 1.000 1*Je2106 STD(Je) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 8.206 5.206 3AFU 3.000 1.000 1CK958tA STD(CD) (1) 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.800 13.126 10.126 d 3AFU 3.000 1.000 1*Je2102 STD(Je) Ill 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.800 13.126 10.12f 3AFU 3.000 1.000 1CK958aA2 STD(CD) [1] 0.000 0.00C 27.00 0.896 0.790 1.000 0.860 1.000 16.40T 13.4GT C.Wie: 1SWPeeC006 DCD: < stark > 3AFU 3.000 1.000 17C047B untouE-6(it) 13] 33.085 5.878 13.27 1.000 6.68C 1.000 1.000 1.000 9.023 6.023 3AFU 3.000 1.000 1CC843eA STD(CD) [1] 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.742 2.743 3AFU 3.000 1.000 1*Je8174 STD(Je) [1] 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5. 74 2 2.743 3AFU 3.000 1.000 ICC843eA1 STD(CD) [1] 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 8.206 5.206 Cable: 1SWPeeC006 DCD: ER 97-0232 3AFU 3.000 1.000 1TC047s Uul0UE-6(TR) 131 33.085 5.875 13.27 1.000 0.680 1.000 1.000 1.000 9.023 6.023 3AFU 3.0C0 1.000 1CC8435A STD(CD) [1] 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.TQ Z.743 3AFu 3.000 1.000 1*Je8174 STD(Je) (13 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.7Q 2.763 3AFU 3.000 1.000 1CC8635A1 sfD(CD) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.500 8.206 5.206 g Calte: 15aeseC009 DCD: <stAssE> 3AFU 3.000 1.000 1CC843e4 STD(CD) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5. 742

2. 743 3AFU 3.000 1.000 1*Je8174 STD(Je) (11 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.350 5.TQ

2. 76 3 3AFU 3.000 1.000 1CC843eA2 STD(CD) [1]

0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.700 11.405 J.485 Cable: 1SWPeeC011 DCD: <sLAsIK> 3AFU 3.000 1.000 1CC843eA STD(CD) 111 0.C7J 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.7Q

2. 743 3AFU 3.000 1.000 1*J08174 STD(Je) (1) 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.TQ 2.743 3AFU 3.000 1.000 1C8435E STD(CO) til 0.000 0.000 27.00 0.896 0.790 1.000 0.860

0. M T.383 4.383 g

Report blo.: RPT00026 - 86 of 94 - 07:25:11 <squRE S

h E E 0 E E i i 0 5 0 5 I E E i i EE ^ A A A d 4 4 6 6 M d A 4 A 4 4 4 6 6 n l a g r e gh" 4 E E A G E E i i E G H S E I E E E i 4 A A 4 e 4 i n a a a 4 i 4 s i a a g %.%.%. I %.%.a E 3 3 3 3 3 3 R.R.3 E. 9 s 4 4 4 4 a 3 3 4 3 3 4 % % 5 4 .= I E E E I E I I E I E E I I g a a a a a a a a a a a a E E E E I E EE E I E E E E E d d d d d d d d d e d 6 d d d d d d 1 $ I E E E E I I I I I E 8 4 e 8 e a a a a a a a a d a a a 8 8 8 8 4 8 8 8 8 8 h 3 4 3 8 8 8 8 8 f d d d d d d d d d d d d d d d d d d d I I I I E R H H I 5 5 5 I I I I I d 6 A d d a d i i d i A d d i O p p p g g 3 l 8 A A A A 5 A. i g M M M M N m M sual m W W W

sum, m

m m m a = = = = c c c c e e o e t f ? 4 4 ? ? ? E 8 8 4 8 g 8 8 8 8 g g g g g 8 8 8 8 8 li g a x x a x x x x x g a a m a a a s a a a a -s s s s s a a a a e e e e s 2 E I t I = X X $ 3 g 9ll l 9 9 6 5 5 E ! } l [ [ e e e e I l s 9 9 0 9 9 t x g i I I I I I I a f I I I I I I I I a a H a a a a [m { I $ 4 3 4 4 4 3 4 3 % 3 4 4 3 ^ 4 M A M M M A M A M M M M A M A M M A M M M A M M M M ii = 1 1 1 - 1 1 5 1 [ i a a s a g; v v v v v v 8 8 8 8 8 8 8 8 i O Q Q Q Q Q Q 4l 5 g M g ~ ~ a a g g - a a s m g " j. ..i u a a u e -u a u arz ]. j 2 g 2 2 2 j 2 j 550 = = 2 2 2 g 2 2 2 2 2 a= 2 a,a a a 3 a 3 a a a a a 3 a a a a a a a a m e e e e W i

Es g 5 5 @ R E E E E 4 E S 2 2 9 9 A A ?. e d d d 6 d h 4 d p f A e s 1-n. 5E k k k k k E E k k k k k k k ! k k a e e N A e o y y e c e e g y g om b k b. o o o o o o o o o o o a 3 3 3 3 3 3 3 3 I I I 3 3 3 8 3 3 J &. o' d a d a J J J d J d d I a f f I I I I I E R H H I I E a 3 3 J J J J J J J J J J J J J J J J J k k k k k k k k h k k k k k k a d d d d d a d d d I I I I I I I I a H I 1 1 i E I J J J J J J J J J J J J d d J J J 8 8 8 8 8 8 8 8 8 4 9 9 8 8 8 8 8 u n n n n n n n n ~ c = n n n c n n } s I a a a a a a a 5 s s a a a s a s d d d d d a d d a d d d a 5 p o o o o o o o o g g g o o o y o o j g g ~~ 4 5 5 5 5 5 a 8 i R O C C C C C C C O O O O O C t } ? T ? ? 4 a -g 8 8 8 8 8 8 8 8 g g g 8 4 8 g 8 8 E E 5 3 y 5 X X 5 5 s a a a a a a a s K K y a a X 5 s s a a s I i i i _b I E E E n l l l l l l h h n i n ! n i g n n n n 5 5 g n 5 5 9 s I a I I I I E I I I I I I I I I I 4 J J J J J J J J J J J J J J J J J g i H a I I I a a a a a a a I I I a a I E 1 { ~ - s-i,i, 1 - 1 1 1 1 - 1 1 1 = l i o 4~ k = w n 1 o a, l f 3 .'d 5 .. E

• 1 2

!5E ]. j 3 3 j j 3 3 2 j [ 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 a 3 a a a a a a a a 3 a a a 3 a a a 3 a 3 a a ara m o o o

River Berwl stttion Entergy Operctions. Inc. Date: 09/30/97 Plant Data Isenesement System (PDetS) Derated Cables (Uruter Reted) - Wrapped RWs Cht y Pose: 89 lLDCD lLa W lLF lRacemey Id lROCD lWraptype l Fill l0 lAspaw lCADF Load Id li(DF lMEDF lDCA W50F CGDF se(g) Cable: 1SWPeeC006 DCD: <8tAssE> 1.000l10C843881 3AFu 3.000 STD(CD) [1] 4.000 0.000 27.00 0.894 0.790 1.000 0.860 0.800 13.126 10.126 1.000l1*Je8174 3AFu 3.000 ! SID(Je) 111 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 Cable: 1SnPSBC087 DCD: <SLAeK* 3AFU 3.000 1.000 1CC843en siD(CD) (13 0.000 0.000 27.00 0.894 0.790 1.000 0.860' O.800 13.126 10.126 3AFU 3.000 1.000 1*Je8174 STD(J8) til 0.000 0.C00 27.00 0.894 0.790 1.000 0.860 0.350 5.742 2.743 Cable: 1stresC091 DCD: <SLAmKm l 3.000l1.000l1CC070eD l lSTD(CD) l 0.000 l 0.000 l 27.00 l1.000 l0.790 l1.000 l0.860 l0.500 l 9.172 l 6.172 3AFU (3) Cable: 154FesC300 DCD: <stAss[> 1:13*P730-Cml l2.925l1.250l1TC0488 l lUnleut-3(TR) l49.977l 3.619l 9.93l1.000l0.650l1.000l1.000l1.000l6.452l3.527 (M Cable: 15treeC503 DCD: <stAmK> 1SWP*P38-NTRl l0.625l1.250l1TC047s l lUul0UE-6(TR) l 33.085 l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l 10.13 131 Cable: ISWPOSC526 DCD: <stAssE> l lC.625l1.250l1TC0473 l l UNIQUE-6(TR) l33.085l 5.878l15.82l1.000l0.680l1.000l1.000l1.000l10.755l10.130 1SWP*P38-MTR 13] Cable: 1SWPBSC569 DCD: *SLAssKP l l3.000l1.000l1TC0475 l l UNIQUE-6(TR) 131l33.085l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l T.755 3Aru Cabte: 1SWP90C600 DCD: <SLAssE> 1:13*P743-E5l l0.188l1.250l1TC0488 l luuteUE-3(TR)131 l 49.977 l 3.619 l 10.41 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.768 l 6.500 Cable: ISWPSRC005 DCD: <sLAnK> 3AFu 3.000 1.000 1TC502R STDtTR) (31 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 7.879 4.879 3AFu 3.000 1.000 1TC502R set 96-0020 STD(TR) (3) 29.950 6.608 14.07 1.000 0.560 1.000 1.000 1.000 T.879 4.879 3AFu 3.000 1.000 1TC500R STD(TR) [3] 54.029 3.302 9.95 1.000 0.560 1.000 1.000 1.000 5.569 2.569 3Aru 3.000 1.000 1TC500R set 96-0020 STD(TR) 131 54.029 3.302 9.95 1.000 0.560 1.00G 1.000 t.000 5.569 2.569 Cable: TSWPC0C003 DCD: <sLAssC> 2*.Fu 2.000 1.000 1CK0010F STD(CD) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 T.383 5.383 l 2AFu 2.000 1.000 1CK0010F1 STD(CD) til 0.000 0.000 27.00 0.894 0.790 1.000 0.860 0.450 T.383 5.383 2AFu 2.000 1.000 1CK0010F2 STD(CD) (1) 0.000 0.000 27.00 0.896 0.790 1.000 0.860 0.450 T 383 5.383 Report me.: RPTD0026 - 89 of 94 - 07:25:11 <840RE

• 6 6

II I I I I D h O O O 8 k k k E. E,8 ^ h h l a a 4 4 4 4 4 4 4 4 d a a J d a e a a 10 1 s ,Ej @ k. k, @ $ Q Q s, @ @ ~ ~ ~ ~ n = ~ ~ L I I 6 3 6 h I

• [

d J d J J J J J J a a a a a 3 3 -$ 3 3 3 3 3 I I I d a a a a d a J J d a J J J J J J \\ i $ I J J J J J J J J J J J J J J J J J J J J E l E l E l E E E E l R E E I l l i l 9 -l d i a d d a d a d a d d .i a d i E k U I J J J J J J d a J J d d a d a 1 8 2 8 2 8 8 8 8 8 8 8 8 8 2 3 b Q 8 d i d d d d i i d d d d d d d $ k $. S. $. $. $. S. k N. N. a e a a a a a a a a o e e e e _E E. E. R 3 3 3 G R A 4 A A g' 5. t ..~* = =

.

=- = m m m m m m m m M M M M M E E E E E E a; O 0 t g ? ? ? ? 7 Y E 8 8 8 8 8 8 8 8 8 8 g g g g g g E E E E g E E E E E E E E E 1 3 a m u 3 5 5 5 5 a 3 3 3 3 3 a 5 5 8 8 2 ~ ~ ~ ~ I R I E E-U 4 I E E 5 e I l 8 l 8 8? 8 8 8 6 j i = 5 5 9 x 5 5 5 I 6 6 6 6 6 6 6 6 6 6 $ I t J J J J J J J J J J J J J J J J J J J !t j $. I $. I k k k k k k k

b. k k

~ ~ ~ ~ E-4 5 5 5 1 g; v mE g g g g 6 g g g ~ 8 2 g 8 r 3 v.9 5 5 8' 8' 8' 5 5 E" E" E" j*s" 2 2 2 2 i 2 ~ ~ j $ $ i )h ) J $ x x ~ li.j l i 2 e e e h h 3 $ $ 3 h $ $ 3 a i e; it e a='e e e a a a z n o a a a o a. o E

2iver Bend 5tction Entergy Operations. Inc. Date: 09/30/97 Plant Data Management System (PDMS) Page: 91 Derated Cables (under Rated) - Urapped RWs (hty lLDCD lLoadmaplLF lRacewayId lRDCD lWraptspe lFitt lQ lAmpRm lCADF lWSDF lTGF fCLDF lnCDF lDCA Load 18

1. (Rays)

Cable: ISWDSC006 DCD: <SLAmKm l l3.000l1.000l1TC067s l l 33.085 l 5.878 l 13.70 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.319 l 6.31 3Atu untouE-6(TR) 131 Cable: 1SWPDOCOOT DCD: <8 TANKS l l3.000l1.000l1TC0673 l luulouE-6(TR) l 33.085 l 5.878 l 13.70 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.319 l 6.319 3AFU (3) Cable: ISWP9eC009 DCD: <sLAuKm l l3.000l1.000l1TCD673 l luu!QUE-6(TR) l33.085l 5.873 l 13.27 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.023 l 6.023 3AFu [3] Cable: 1SWPDeC012 DCD: <sLAmKm l l3.000l1.000l1TC0673 l luutouE-6(TR) l33.085l 5.878 h 13.27 l1.000 l0.680 l1.000 l1.000 l1.000 l 9.023 l 3AFU 131 Cable: 1SWP0eC300 DCD: *SLAmK> 1413*PT30-CNl l2.925l1.250l1TC068s l luutouE-3(TR) l49.977l 3.619l 9.67 l1.000 l0.650 l1.000 l1.000 l1.000 l 6.236 l 3.361 131 Cable: 1SWPoeC500 DCD: <SLAmK> l l0.625l1.250l1TC047s l luuteuE-6(TR) l33.085l 5.878l15.82l1.000l0.680l1.000l1.000l1.000l10.755l10.130 ISWP*P30-uTR 131 Cable: 1SWPDSC501 DCD: <5LAmK* 1SWP*P'3-uTRl l0.625l1.250l1TCD6/B l luulGUE-6(TR) [3] l33.085l 5.878 l 15.82 l1.000 l0.680 l1.000 l1.000 l1.000 l 10.755 l 1e.130 Cable: ISWPDeC507 DCD: <BLAmK> l l3.000l1.000l1TC0475 l lUntouE-6(TR) l33.085l 5.878l15.82l1.000l0.680l1.000l1.000l1.000l10.755lT.755 3Afu 131 Cabte: 1SWERC001 DCD: <sLAmt> 3AFu 3.000 1.000 1TC205R UntouE-2(TR) III 43.199 4.295 11.72 0.894 0.680 1.000 1.000 1.000 T.125 4.125 3AFU 3.000 1.000 1TC204R unteuE-2(TR) [1] 38.065 4.987 12.62 0.896 0.680 1.000 1.000 1.000 T.678 4.678 3AFU 3.000 1.000 1TC202R uu!GUE-2(TR) 111 35.625 5.424 13.16 0.896 0.680 1.000 1.000 1.000 8.007 5.007 3AFU 3.000 1.000 1TC201R unleuE-2(TR) (11 32.799 5.938 13.77 0.896 0.680 1.000 1.000 1.000 8.3 78 5.378 3AFU 3.000 1.000 1TC200R unieuE-1(TR) [1] 33.388 5.815 13.63 0.894 0.680 1.000 1.000 1.000 8.291 5.291 Cable: ISWPGRC001 DCD: <SLAmKm 3AFu 3.000 1.000 1TC205R uu!QUE-2(TR) [1] 43.199 4.295 11.72 0.894 0.680 1.000 1.000 1.000 7.125 4.125 3Afu 3.000 1.000 1TC204R unteuE-2(TR) (11 38.065 4.987 12.62 0.804 0.680 1.000 1.000 1.000 T.678 4.678 3AFu 3.000 1.000 1TC202R unleLE-2(TR) til 35.425 5.424 13.16 0.996 0.680 1.000 1.000 1.000 8.007 5.007 3AFU 3.000 1.000 1TC201R unsetE-2(TR) (1) 32.799 5.938 13.77 0.894 0.680 1.000 1.000 1.000 8.378 5.378 3AFU 3.000 1.000 1iC200R umieuE-1(TR) [1) 33.388 5.815 13.63 - 0.896 0.680 1.000 1.000 1.000 8.291 5.291 Report no.: RPT00026 - 91 of 96 - 07:25:11 <MORE*

3iver Send Station Enterey Operctions, Inc. Dete: 09/30/97 . Plant S.ete nonegsmurst Syst.em (PDNS) e,.t. Cable.(u,e.e,R...). ,a Page: 92 lLDCD lLoestepltr lpecemeyId lRDCD lWraptype lFitt lG fWu lCADF lW50F lTCDF fCGDF fmCDF fDCA la(Amps) Load Id Cablo: ISWPJRC001 DCD: <stAmKm 3AFU 3.000 1.000 1TC205R unleuE-2(TR) (11 43.199 4.295

11. 72 0.896 0.680 1.000 1.000 1.000 T.125 4.125 3AO 3.000 1.000 1TC2064 unleuE-2(TR) 111 38.065 4.987 12.62 0.896 0.680 1.000 1.000 1.000 T.678 4.678 3AFU 3.000 1.000 1TC292R unteuE-2(TR) 113 35.425 5.426 13.16 0.896 0.680 1.000 1.000 1.000 8.807 5.907 3AF3 3.000 1.000 1TC201R untouE-2(TR) (1) 32.799 5.938 13.77 0.896 0.680 1.000 1.000< 1.000 8.378 5.378 3AFU l

3.000 1.000 1TC200R untouE-1(TR) (13 33.388 5.815 13.63 0.896 0.680 1.000 1.000 1.000 8.291 5.291 Cabta: ISWPLRC002 DCD: <StANKP 3AFU 3.000 1.000 1TC205R unieuE-2(TR) 113 43.199 4.295 11.72 0.896 0.680 1.000 1.000 1.000 7.125 4.125 3AG 3.000 1.000 1TC2064-unteuE-2(TR) til 38.065 4.987 12.62 0.894 0.680 1.000 1.000 1.000 7.678 4.678 3AFU 3.000 1.000 1TC202R UNieuE-2(TR) (11 35.425 5.424 13.16 9.896 0.680 1.000 1.000 1.000 8.007 5.007 3AG 3.C30 1.000 1TC201R unseuE-2(TR) (11 32.799 5.938 13.77 0.896 0.680 1.000 1.000 1.000 8.378 5.378 3AFU' 3.000 1.000 1TC200R unleuE-1(TR) (11 33.388 5.8T5 13.63 0.896 0.680 1.000 1.000 1.000 8.291 5.291 Cable: 1SWPusC500 DCD: <SLAmKm ISWP*Pvf32s na %-0020 0.025 1.250 1TC068s untouE-3(TR) 131 49.977 3.619 ( 17.58 1.000 0.650 1.000 1.000 1.000 11.426 11.401 1SWP*PVY329 tut 96-0020 0.025 1.250 'TC0473 uuleuE-6(IR) 131 33.085 5.878 22.40 1.000 0.680 1.000 1.000 1.000 15.234 15.210 Cable: 1SWPWOC600 DCD: <BLAmKm 1:13*PT12-Cm 1.375 1.250 1CC0020L2 STD(CD) 111 0.000 0.000 27.00 1.000 0.790 1.000 0.860 0.450 8.255 6.800 1:13*PT12-tm 1.375 1.250 1TC0020 STD(Ta) til 40.773 4.597 13.99 1.000 0.680 1.000 1.000 1.000 9.512 8.137 Cable: 15we0C601 DCD: <stAmK> 1:13*P751-Cm 1.375 1.250 1CC0010s sTD(CD) 113 0.000 0.000 23.00 1.00 0.790 1.000 0.860 0.800 12.501 11.126 1:13*P751 tm 1.375 1.250 1TC0010 STD(TR) til t 3.570 80.611 18.40 1.000 C.680 1.000 1.000 1.000 12.512 11.137 1:13*P751-tm 1.375 1.250 1CC0010m sic (CO) til 0.000 0.000 23.00 1.000 0.790 1.ON 0.860 0.800 12.501 11.126 1:13*P751-Cm 1.375 1.250 1TC003o sTo(TR) (1) 30.854 6.381 12.18 1.000 0.680 1.000 1.000 1.000 8.285 6.910 Cable: 1SWPuRC002 DCD: <sLAmKm 3AO 3.000 1.000 1TC205R UmlauE-2(TR) 113 43.199 4.295 11.72 0.896 0.680 1.000 1.000 1.000 T.125 4.125 3AF3 3.000 1.0GO 1;C206R UuteUE-2(TR) til 38.065 4.987 12.62 0.896 0.680 1.000 1.000 1.000 7.674 4.678 3AfU 3.000 1.000 1iC202R UNIQUE-2(TR) til 35.425 5.424 13.16 0.896 0.680 1.000 1.000 1.000 6.007 5.007 3AFU 3.000 1.000 1TC201R UmlauE-2(TR) til 32.799 5.938 13.77 : 0.896 0.680 1.000 1.000 1.000 8.378 5.378 Ceport No.: RP100026 - 92 of 94 - 07:25:11 <n0RE*

I 4 i l Tiwer Send Station Enter 9y Operatsons, Inc. Date: 09/30/97 Plant Data menessment System (PDNS) Page: 95 Derated Cables (under Reted). Wrapped Rus onty t 'lLDCD lLa W lLF lRacewayId lRDCD lWraptype lFitt lQ fAmpRm fCADF lWSDF liCDF lCEDF Load to lDCA

1. (5) n(:DF Cab (2: 1SWPuRC002 DCD: <SLANK*

I r l l3.000l1.000l1TC200R l luulouE-1(TR) [1] l33.388l 5.815 l 13.63 l0.896 l0.680 l1.000 l1.000 l1.000 l 8.291 l 5.291 j 3AFU Cabts: 1SWPuRC502 DCD: <sLAmK> I 1 ENS *uCC1(A-1.250 1.250 1TC205R untouE-2(TR) 111 43.199 4.295 11.34 0.896 0.680 1.000 1.000 1.000 6.899 5.649 1EuS*mCC16A-1.250 1.250 tic 206R untouE-2(TR) (11 38.045 4.987 12.22 0.896 0.680 1.000 1.000 1.000 T.434 6.186 l f IEusanCC16A-1.250 1.250 1TC202R uuteuE-2(TR) 113 35.425 5.424 12.75 0.896 0.680 1.000 1.000 1.000 T.753 6.503 1 ENS *RCC16A-1.250 1.250 1TC201R unieuE-2(it) [1] 32.799 5.938 13.34 0.896 0.680 1.000 1.000 1.000 8.112 6.862 s j 1 ENS *nCC16A-1.250 1.250 1TC200R uuteuE-1(TR) til 33.388 5.815 13.20 0.896. 0.600 1.000 1.000 1.000 8.028 6.T78 I 1 Cabta: ISWPGRC002 DCD: <sLAmK> l I 3AFU 3.000 1.000 1TC205R unteuE-2(TR) 111 43.199 4.295 11.72 0.896 0.680 1.000 1.000 1.000 T.125 4.125 l I 3AFU 3.000 1.000 1TC206R unleLK-2(TR) (1) 38.045 4.987 12.62 0.896 0.680 1.000 1.000 1.000 T.678 4.678 3AFU 3.000 t.000 1TC202R untouE-2(TR) 111 35.425 5.424 13.16 0.896 0.680 1.000 1.000 1.000 8.007 5.007 i 34Fu 3.000 1.000 lic201R unteuE-2(TR) [1] 32.799 5.938 13.77 0.896 0.680 1.000 1.000 1.000 8.378 5.378 3AFU 3.000 1.000 1TC200R untouE-1(TR) [1] 33.388 5.815 13.63 0.896 0.680 1.000 1.000 1.000 8.2f1 5.291 Cable: 1SWPSRC002 DCD: <sLANK> 3AFu 3.000 1.000 1TC205R unleuE-2(TR) 111 43.199 4.295 11.72 3.894 0.680 1.000 1.000 1.000 T.125 4.125 3AF3 3.000 1.000 1TC204R unleuE-2(TR) [1] 38.045 4.987 12.62 0.896 0.600 1.000 1.000 1.000 T.678 4.6?Is 3AF3 3.000 1.000 1TC202R untouE-2(TR) [1] 35.425 5.426 13.16 0.894 0.680 1.000 1.000 1.0C3 8.007 5.007 3 ara 3.000 1.000 1TC201R unteuE-2(TR) (11 32.799 5.938 13.77 0.896 0.680 1.000 1.000 1.000 8.3 78 5.378 i 3AFU 3.000 1.000 1TC200R untouE-1(TR) (11 33.388 5.815 13.63 0.894 0.680 1.000 1.000 g 900 8.291 5.291 Cable: ISWPURC002 DCD: <sLAmKm 3Asu 3.000 1.000 1TC205R untouE-2(TR) (11 43.199 4.295 11.72 0.896 0.680 1.000 1.000 1.000 T.125 4.125 l l 3AFU 3.000 1.000 1TC204R unteLK-2(IR) 111 38.045 4.987 12.62 0.896 0.680 1.000 1.000 1.000 T.678 4.678 3AFU 3.000 1.000 1TC202R unIGUE-2(TR) [1] 35.425 5.424 13.16 0.896 0.680 1.000 1.000 1.000 8.007 5.007 ( 3AF3 3.000 1.000 1TC201R unteuE-2(TR) [1] 32.799 5.938 13.TT 0.896 0.680 1.000 1.000 1.300 8.378 5.378 I { 3AFU 3.000 1.000 1TC200R unteuE-1(TR) [1] 33.388 5.815 13.63 go.896 0.680 1.000 '.000 1.000 8.291 5.291 Cabte: 1SYDeeC450 DCD: <8tAuKm l l1.250l1.250l1CC154aC l lSTDU) l 0.000l 0.000 l 27.00 l0.896 l0.790 l1.000 l0.860 l0.350 l 5.742 l 4.492 (1) 1E GS* Pat'J Y 2eport no.: RP100026 - 93 of 94 - 07:25:11 1 <MORE>

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E - 8 te kv.1 Aharn,ent s RECORD OF TELEPHONE CONVERSATION DATE: 12 19 96

SUBJECT:

Power Requirements for bioisture Control Unit IRhtS*REYl3B (hifg. by General Atomic Co., hiodel No. 03821201) PREPARED BY: is A hiadero, KCN #1025. DE/ Fire Protection, x3625 i TELEPHONE CONVERSATION WITH: hir. Art Evans (619) 457 8984 Nuclear Engineer, Customer Service hianager Fax (619) 453-4675 Sorrento Electronics.10240 Flanders Court, San Diego, CA 92121 A. Related Documents / Drawings:

1. Loop Calibration Report 1.lLRhis.019

2. VThi 0292 005 [VTD 0292 0129 (Vendor Publication #E Il51213)]

B. Discussion Per conversation with hir Art Evans of Sorrento Electronics,10240 Flanders Cotut, San Diego, CA j 92121,(619) 457 8984. Fax (619) 453-4675, the subject General Atomic Co. unit has a Sorrento assembly no. of 03821201001, hir. Evans quoted note two on drawing 03821200: the nominal power requirement is 25A 120V. Air. Evans stated that the power requiremet of the heat trace is listed as 10 Watts per foot with a total of 10 feet on the unit skid. I inquired about the actual loading requirements of the unit vs. the published rating upon inspection of document A.2 above which shows as the unit as a skid mounted equipment comprised of the following loads: a compressor motor, a heat trace circuit, and five control relays. Upon request, hir. Evans gave me pwer requirements for the heat trace. I commented to Mr. Evans that, per review of document A.2 above, the worst case motor amps available with the unit is less than 5 amperes and that the combined loading of the relays would not be more than two or three amperes hir. Evans concurred with my assessment of the combined relay loadings. Note: It is wothwhile to mention that a 15 A breaker is allowed as protection for the unit compressor whose worst case load is 5 Amps and the existence of a 25A breaker serving as the overall skid incoming protective device (from which the 25A power requirement may have as its basis). Based on the current requirement of the compressor (5 Amps), the heat trace circuit (100W/120V or 0.83 Amps), and the combined assessed loading of the relays (3 Amps), the subject moisture control unit operating load is approximately 10 Amps.

E-r is, Rev. i klinc.hrnand 5 P

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-,-=u. + m mnumm a 10240 FLANC4RS Covat stoon M2264 - r.AN o:EM CA 82'21 FAX (818348WS FAX TRANSMISSION DATE: December 19,1996 To: LUIS MADERO FAX.504 3815626 PHONE. 504 3613625 g THE NUMBER OP PAGE(S) IPC'_OED FROM: ART EVANS IN THIS TRANSMITTAL IS 1 l FAX: (619) 457 8933 dNCLuotNG THl3 CGTR PAGE l PHONE: (619) 457 8964 l CLIENTELE cat.L Caller: LUIS MADERO RIVER BEND ENTERGY Phone: 504 3813625 Summary: POWER REOUIREMENTS FOR SKl0 12/19/961:16 32 PM ARTE Neede power requiremente for the skid and host trace. Assy No. 03821201 001 The overall power requirement for the skid is 25 A 120V. These power requirements are listed as note two on drawing 03621200. The power requirements for the heat trace is listed as 10W/Ft. with t o ft on the sk6d. If you have any questone, please contact me at the above numbers. Sincerely; jf~ Art Evans Nuclear Engineer Manager, Customer Service

6 -2(8 RGV. l ATrFicHMOUT G M6s 1 0F 6 1 Walkdown Record Date: 1/22/97

Subject:

Fire Wrapped Conduits Configuration A walkdown was conducted by Joe Yang and Luis Madero on 1/21/97 to inspect the conduit grouping configuration of the conduits listed below. These conduits were identified by PDMS as being wrapped by Thermo lag (T L) material in the listed Fire Area / Zone (the existing T L material may have been applied either throughout the conduit's routing or a ponion ofits routing within the fire area). Conduit Fire Area / Zone ICl{0030A C 6/Z 1 1CC040BC C 24/Z I ICK920BB C-17/Z 1 ICK600NAl PT 1/Z 1 ICK600NMI PT l/Z 1 ICK921NA C 24/Z 1 For the thermo lagged portion of the conduits, the conduit routing configurations in the fire area / zones were inspected for conduit spacing between the subject conduit and adjacent conduits running in parallel. Attached are sketches that show the spacing between the conduits. Note 1: A ponlon of conduits ICK600NAl and ICK600NMI was not accessible for inspection due to the congestion of pipings and the large Thermo Lag structure for the cable tray stacks in the area. Note 2: There is no Thermo Lag wrapping installed on conduit 1CK921NA. rehed by : %UCd (55] D h */1 7 x L t/st/97 $ed by ( L u A /- M aolu e Dk, i[z2 9 '7 K c tJ lozr

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E.-ZtO,Rt.v.\\ Art e rn n+ 7 Pg \\.5 \\ Walkdows Record

Subject:

Tray ITK512N in Containment Elev.114 fl. Per visual inspection of Tray 1TK512N on 2 6 97, no thermo lag (T L) fire banier material is installed in or around the tray. There was no evidence that T L was i previously installed in the tray. l It should be noted that a solid block (-5 ft length) of an off ohite material was observed occupying the total inner area of tray (width, height). It appet ts to be a material called OYPSUM The tray cables are completely covered by or "emtedded"in this material. Prepared By: Date: p 7 / M /7 KcNt /025" verified ay:t6at'~% Date: 27.,, 1 kc.: e wn s tws 1 e +.. 7 y--- ...,-*.-.y. ---_.w., ,,,v- -,,,+,..,-,--_ry, .-y

8-CALCULATION WORK SIIEET CAM'. NO.. REV. ADDENDUM E 218 Rev.1 ENGINEERING DEPARTMENT Ariuhment s MTERGY RIVER IlEND STATION ast No",, ace or This attachment is being used to further justify the ampacity for cables ICMSNRC507, ICMSNRC508,1CMSNRC509 and lCMSNRC510 due to their larger operating currents of 12.78 A,10.01 A,10.01 A and 1318A in tray section ITC500R. Thisjustification will use Stolpe's fmdings in his published paper (reference 5 3.1). The approach will be to detennine a new percent fill based on spare and noncontinuous loads and then to recalculate the above cables ampacity using Stolpe's equation number 9 (also see section 4.2.3 of this calculation) given as follows: 0 G" l# = 2 nR where: n = number of ecnductors in cable Q = heat generated per unit area of the tray (watts /R/in ) D= cable diameter (inches) R= a.c. resistance of conductor at 90'C (Ohms /R) From section 4.2.3 the following equation for Q will be used: C Tray G = 360 * (%Fillraus

• 0.5)4 "' watts /n/in 2

where: %Fillraws

• 0.5 - new calculated percent fill TI e information in Table 8,1 is derived exclusively from PDMS for all cables in tray ITC500R. All loads, cable types, cable sizes, cable area and continuous or intermittent loads are in the data base. From Table 8.1, the total cross sectional area of the cables that are continuously energized is 22.62 in'. This fills a 3in x 18m tray to:

2 22.62 in /(3 x 18 )in* = 41.89 % The new Q value is: Q = 360 * (41.89)4'"' = 4.45 The new ampacit/ for the #12 AWG cable is: D = 0.49 in (reference PDMS) n = 2 (reference PDMS) R = 2 2154 ohms /1000 R (reference PDMS) I = 0.49/2 *((4.45*3.14159)/(2*0.0022154)) = 13.7 Amps

CALCl'LATION WOltK SilEET C^'C * * ~ " " ^'"' " " ". raiu un.i ENGINEEltlNG DEPAllT51ENT Anuhmeni u ~~~ ENTERGY 11IVEll llEND STATION i Aco o <>r it should be noted that cables ichtSNRC507, IChtSNRC508, !ChtSNRC509 and IChtSNRC$10 are used in heat trace circuits. These heat trace circuits are not continuously energized, but cycle on and off due to thermostats on the piping. An example of how long the circuit is energized is given in attachment 9. This intermittent loading of the circuit does not allow the cable to heat up to its maximum operating temperature due to the thermal constants of the cable and cable mass in the tray Also, as suggested in Stolpe's paper (reference $11), it takes about 6 hours for cables to rise to their maximum temperature from room ambient temperature. In the case of the above l eables, it would take less time for the cables to heat up since the tray would already be l heated by the other cables.13ut with 5 to 10 minuets on and 15 to 20 minuets otT, the cables would not heat up much and would be allowed to cool some before the circuit was teenergized I i

Pa0elof Table 8.1 Calculatien E.218 Rev 1 I NO.OF CABLE CONTIN, CABLE LOAD CABLE CABLE CONDUCTORS SIZE OR INTR AREA CURRENT! RESISTANCE NUMBER -~ 1ADSARC601 2/C 12 AWG C 0.1886 0.5 2 2154 1 ADS RC503 ~2/C ~~~i2^WG C 0.1886 0 ~5 2 2154 ~ ~~~ 1 ADS' RC505~ 2/C 12 AWG C 0.i886 6 $~~~2T2i5i 1 ADSBRC603.. 2/C~~~.12'.VVG .. - - C 6 856 0.5 2.2154 1 ADSBRC607 2/C 12 AWG C 0.1886 0.5 2.2154 1ADSCRC601 1 DSCRC5'03 ~2/C 12 AWG C 0.1886 0.5 2.2154 ~ 2/C~ 72~ %T6 C OtiB6 0.5 2.2154 1ADSCRC601 2/C~~ ~12 AWG C 0.1886 0.5 2 2154 1 DSCRC665~ '2/C 12' VVG C 0.1836 0.6 2.2154 1ADSDRC603 2/C 12 AWG C 01886 0.5 2.2154 1 ADSDRC605 2/C 12 AWG C 0.1886 0.5 2.2154 1 ADSERC601 2/C _12 AWG C 0.1d86 0.5 2.2154 1 ADSERC603 _ 2/C 12 AWG C 0.1886 0.5 t 2.2154 ~-~ 1 ADSFRC601 ~2/C~l2' WG C 0.1ti86 i 0.5 2.2154 1 ADSFRC603 2/C 12 AWG C 0.1886 0.5 2.2154 1ADSGRC601 2/C 12 AWG C 0.1886 0.5 2.2154 1CCPARC011 5/C 12 AWG C 0.3318 3 2.2154 1CCPCRC011 5/C 12 AWG C 0.33t8 3 2.2154 iCCPNRC508 2/C 12 AWG C 0.1686 3 2.2154 1CMSARC522 5/C 12 AWG C 03318 3 2.2154 1CMSARCS23 12/C 12 AWG C 0.7238 3 2.2154 1CMSARC537 7/C 12 AWG C 0.3848 3 2.2154 1CMSARC538 12/C 12 AWG C 0.7238 3 21154 1CMSARC543 5/C 14 AWG C 0.2463 3 3.4179 1C_MSARC549 _5/C___14 A_WG C 0.2463 3 3.4179 1CMSARCS$$ 7/C 12 AWG C 0.3848 3 2.2154 1CMSARC556 12/C 12 AWG C 0.7238 3 2.2154 1 cps WC55_8 _ 2./C 12_A_WG C _ 0.1886 12.78 2.2154_ 5/C_ 14_AWG C 02463 3 3 4179 1CMSNRC507 1CMSNRC508 _2/.C_ 12 AWG C_ 0.1886 10.01 2.2154 1CMSNRC509 2iG 12 AWG .C 0:1886 10.01 2.2154 1CMSNRC510 2/C 12 AWG C 0.1886 13.18 i 2.2154 1CMSNRC512, 2/C 12 AWG SPARE, 0 0 2.2154 1CMSNRC515 2/C 12 AWG SPARE O O 2.2154 1CMSNRC518 i 2/C 12 AWG SPARE O O 2.2154 1CMSYRC506 l 2/C 12 AWG C 0.1886 5 2.2154 1CPMARC003 I 2/C 12 AWG C 0.1886 1 3 2.2154 1CPMARC008 i 5/C 12 AWG C 0.3318 3 2.2154 1CPMARC024 5/C 12 AWG C 0.3318 3 2.2154 1CPMAR.CS07 _ _. 2/C.- __.10_AWG C - 02376 1 1.3911 ICPMCR'C603' 5/C~ '12 WG C 03318 3 2.2154 ~ ~ ~ ~ 1CPMCRC005~ 5/C '12 AWG "C ~ 03318 3 2.2154 ~ 1CSLNRC501 7/C 12 AWG C 0.3848 0.41 2.2154 1CSLNRC503 3/C 12 AWG C 0.2124 1 2.2154 1HCSARC401 2/C 10 AWG I O O 1.3911 1HCSARC532 2/C 12 AWG l 0 0 2.2154 1HCSARC536 2/C 12 AWG I O O 2.2154

Page,,d., of Table 8.1 Calculation E 218 Rev 1 I NO.OF CABLE CONTIN. CABLE ' LOAD ! CABLE CABLE NUMBER ;COND]CTORS _12 AWG l 0 0 2 2154 1HCSARC544 2/C - pgE OR INTR AREA CURRENTf RESISTANCE 1 HCS4RC550 ---- _2/_C_ ,12_A_WG _ l 0 f0 2.2154_ 1RCS RLC557 2/C 12 AWG l 0 0 2.2154 1HC_SARC573 2/C 12 AWG l 0 0 2.2154 1HCSARC574 _2/C _,_12_A_WG _ l 0 0 2.2154 1HCSARC575 _2/C _,12 AWG I O O 2.2154 1HCSARC_581 2/C 12 AWG. 1 0_ 0 2.2154 1HCSARC582 2/C 12 AWG I 0 0 2.2154 1HCY ~RC563 2/C 12 AWG l 0 0 2.2154 ~ 1H65 56584 2/d - ~ 12' W G l 0 0 2.2154 ~ 1H65IRd585~~ ~ 2/C' ~12 AWG~ ~ ~~ T~ ~0 0 2 215i i 1HCSARC586 2/C 12 AWG I O O 2 2154 1HCSARC587 2/C 12 AWG l 0 0 2 2154 1HCSARC588 2/C 12 AWG l 0 0 2.2154 1HCSARC595 2/C 12 AWG 1 0 0 2.2154 1HCSARC596 2/C 12 AWG 1 0 0 2.2154 1HCSARC597 2/C + 12 AWG I O O 2.2154 1RORINdOO3 5/C 12AWG C 0.3318 3 2.2154 ~ 1HVNARC503 2/C 12 AWG SPAREi 0 O i 2.2154 1EVR ECT04 1/C 1)AWG C O.3848 i 3 i 2.2154 f 1.HVR_A.RC 568 2/C_, _ _ 10_AWG C 02376 i 2 I 1.3911 IICSNRCS23 7/C 12 AWG SPARE O 0 2.2154 1RC5'IRB~ 03 $/C ~ "i2~ WG~ C 03318 i 3 2.2154 0 1RCSARC007 ... $/C". _ '12 XWG_ D 0.3318 3 2.2154 j 1RCSARC013 5/C 12 AWG C 0.3318 3 2.2154 1RC5XRdido ~ ~ TD ~ ~" T2 A'W G C 0.1886 3 t 2 ~ 2.2154 1RH5 'RC043 ~ Id "i2'4WG C 0.1886 3 2 2154 2 1RHSARC045 2/C 12 AWG C 0.1886 3 2.2154 5 ~ i ~ IC 12 4'WG C 0.3318 3 2.2I5i 1RHSARCOS$ ~ 1RHS Fid071 5/,C _12_A_WG _ C 0.3313 i 3 2.2154 1RHSARC502 7/C 12 AWG C 0.3848 0.41 2.2154 1RHSARC534 3/C 12 AWG C 0.2124 5 2.2154 1RNSNRC521" 2/C '12 AWG 5 PARE O ~0' 2 2154 ^ ~ 1RMSARC506 3/C 12 AWG C 0.2124 3.5 2.2154 1RNiS5W6514 27C 8AWG C 03959 12 0.875 1RMSRRC515 i 2/C 12 4WG5 PARE o 0 2.215i 1RM55RC534 l '2/C I8fWG' C 0.3959 i 12 0.8Y5 1RMSNPC5471 2/C 12 AWG C 0.1886 t 2.5 i 2.2154 1RMSNRC548 i -2/C 12 AWG SPARE O I O i 2.2154 1RPSARC601 2/C 12 AWG C 0,1886 i 5 1 2.2154 i 1PlRlNR1502 7/C 12 AWG C 0.3848 i 1.02 2.2154 1RPSNRC507 $/C 12_A_WG C i 0.3318 1.02 2.2154 1RPSNRC513 5/C 12 A.WG C 0.3318 1.02 2.2154 1SLSARC003 5/C 12 A_WG C 0.3318 l 3 i 2.2154 ISLSARC005 2/C _12 AWG C 0.1886 1 3 i 2.2154 1SLSARC007 5/C 12 AWG C 0.3318 ! 3 2.2154 1SLSARC010 _ 5/C_ _,12 A_WG _C 03318 ' O.54 i 2.2154 ISLSARC012 2/C 12 AWG C 0.1888 0.54 2.2154

i Pago1of _5 Table 8.1 Calculation E 318 Rev 1 CABLE l NO.OF CABLE CONTIN. CABLE ' LOAD CABLE iCONDUCTORS SIZE OR INTR AREA CURRENT: RESISTANCE NUMBER ~ ISESlRC014 $/C 12 AWG C 0.3318 0.54 2.2154 15[SXWC016 -- 2TC if4WG C 0.1886 0.54 2 2154 1SLSNRC501 3/C 12 AWG C 02124 1 2.2154 1 SLSNRC504.--.. _ 3/C .12 AWG__ C--- 0.2124 1 2.2154 SWP RM~~"~ ~~ $/6 ~ ~ ~ ~MM C m8 3 m 1SWPIRC00 $/C '12 AWG C OI33i8 3 2.2154 1SWPARC059 5/C 12 AWG C 0.3318 3 2.2154 1SWPARCS21 2/C 12 AWG SPARE O O 2.2154 1SWpIRD559 12/C 12TWG C 0.7238 4.6 2.2154 1S_WPBRC005_ 5/C 12 AWG C _,03318 3 2.2154 TOTAL ?2.6229 TOTAL e 1 4

Caled d % d'll6 $N I h 4 b c_k d C) Walkdown Record

Subject:

Ammeter Measurement of Load Currents for Cables IChtSNRC501 thru 505. The load current of the cables listed below were determined via ammeter measurement: Load Device Cable \\feasured Current I ICMS*ESil0A (Cl 1) IchtSNRC501 12.5 Amps ICMS'ESill A (Ci _, ICMSNRC502 10.1 Amps ICMS*ESil2A (Cl 3) ICMSNRC503 10.1 Amps ICMS*ESil3A (Cl 4) ICMSNRC504 13.5 Amps ICMS*ESI14A (Cl 5) ICMSNRC505 12.9 Amps ICMS*ESil5A (Cl 6) Load on cable was not measured The time elapsed between initial and final current measurements was approximately 30 minutes. The Load Devices cycled on/off, as determined by a green indicating light on the load device that lit up when it was pperating and a load reading on the ammeter. In the case ofload device ICMS*ESill A, it was on for approximately 5 minutes and off for approximately 20 minutes. The Load Devices appeared to energize at a temperature of approximately 272 'F as determined by a display on device 1 CMS *Til25A. Ammeter measurement performedby:Ied& /d30 KCN: Date: 9 5-97 Witne d/ Verified y:,, KCN: Date: h 0925 S -/6 * ? 7 $ AMJuo pu ej onc w n A -J m m :,s n

E-2ie, R u.i, % 1..m 4 g -yb,_s ATTACHMENTI ES P 002-00 ~- ENTERGY Page i of 2 Typical Design Verification Record i Page of Document Number h\\ c kk ioo E '21A Revision i SETHOD Verification methods to be used: Design Review Qualification Testing Alternate Calculations DOCUMENT (S) REVEWED: (Attach Additicaal Sheet (s),.f needed) Document Number Revision Document Title AnucoYg Orts a h~cbers h7]<rn.br i 6 iS.it.M.0-198 O noILdurs ER 46 oss1 0 'l en:nmed"Losirn ud schwed%) bh ~ _tg es-o s27 eresi1 o } Uida.k. _gR %-os21 0

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SUMMARY

OF REVEW: (Attach Additional Sheet (s),ifneeded) /trMer gem /.%g //,4 deft rwE.f 4 echo;.sl qma,4 gears] ?rewfdim/de 'rn n

• b dePA r w L d nesol 8 ~. J y/oatsp;0s p<Jlows. & & A ftr%3 b (4$0Ivt k e 0 o'ns$ & prsble w s.

rv, Aa d tut.A M4 MAMr h ~r"r A' aur ~" A i ekorMar lr gener d sk le hty is ice-o'n]ebm5N*dpitsc$a res*IN Cf4 5. o 74ermidh.s Jrec.ww L a,e d,... ) aior pe k t. yesign Verification Completed By G80 Date: F- /9-97 Comment Resciutions Accepted B (AW Dh!. : T-/&97 ) Engineenng Supervi 8/I[ Date: 9,, fo, 7 1 n ES P@2, Form No.1, Rev. o

e - z. ie, te_v. t, ALA. A '/t3 ATTACHMENT I m ES P@2@ ENTERGY Page 2 of 2 Typical Design Verification Record CMNT ACPT IbTT/ { NO COhj MENT RESOLUTION Y/N DATE Q/,k$5CY I r W dr M lPf C4Woffx Y$ d.) O ) 3 t w 1 ES P 002, Form No 1. Rev. O l

,m s ,1 i ';Q;;Q3 Ebfmany Technical Review Comments Domment Rev. Subjectfrille: "Ampacity Verification Of Cables Within m.ceways Wrapped Number E-218 I With Appenuix R Fire Protection 11arrier" Docuneemt Type: Special Notes or Instreet.eas: Electrical Calculation 'Ihis is a Rev. I drafi submittas from IMe Engineering & Services. Inc. for m.mergy acfeptance review. Comment Page or Comment Response / Resolution Accept Number Section Initials' I De calcu!ation lacks the required Design Verification Record fone. ,pv 307,3,n,__1vAe_d I Use the DV form in ES-P-002-00 Attach. I. 2 Pg. I - Cover sheet: In block 10, check "N" for QAPA. N% 3 Pg.y l Section 4.0, second paragraph, second to Int sentence: repfsce g p. 1 "(Reference 5.2.2)" whh "(taken from References 5.1.1 and 5.2.2)" D" g% 4 Pg.g7 Section 4.0, second paragraph, add after last sentence: "The p applicable ACF is dependent upon the type of thermo-lag / raceway ti configuration in PDMS. The basis for the thenno-lag / raceway m cenfiguration is Reference 5.1.4." Q 5 Pg.)] Section 4.0, third paragraph, first sentence: State clearly whether Do rm p*j the "various" cable types in Tables 4-1 & 4-2 aie only those cables 4 routed through T-L'd raceways. Do the tables contain all C cable } mark cos. (except those 700 & 900 series cables) in T-L? v f 6 Pgjir1 The following sections contain the words. and verified"and gigAg g gP "..has been verified" in relation to PDMS data input: Section 4.0 <3PC-V "T'. "d

• c n t

(third paragraph) Section 4.1, Section 4.2.2, 4.3.2, 4.3.3, 4.4.0, 4.4.4: liow was the verification done? Where is it documented? Ab 3d. Does it need to follow RBNP-041 requirements? The RBS PDMS coordinator may provide direction. A representative sample of C& K Tray cas;,ilatcd r.mpacities (via m. hand method, ICEA standard tables, etc.) should be compared with 4 those computed by PDMS to determine PDM 5's ac., racy. E "C3 Reviewed /. Date Resolved 11y/gg-gg_gp fly: Luis A Madero 1025 12-31-96 Date: //zq/yr, ,/m /<fy Organization: Entergy Operations, Inc., River llend Station Organiiation: p E g.5 ( W / d,6 #) Depanment: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l '770 (4/- 62 S'5 hg S tl'1 WOMMI N I MW l'AGli I OF I4

O = sansmer Technical Review Comments l l Document Rev. Subjectfril e: "Ampacity Verification Of Cables Within Raceways Wrapped With l l Number E-218 1 Appendix R Fire Protection llarrier" Docessent Type: Special Notes or tastructions: Electrical Gniculation ~Ihis is a Rev. I drall submittal from Duke Engineering & Services, Inc. for f>tergy acctptance review. Comment Page or Comment Respon>e/ Resolution Accept Number Section initials 7 Pgfg Section 4.0, last sentence on first bulleted paragraph regarding "...provided as a check.": The sentence is confusing and Md 74 MA h*N ambiguous. Reword to say that if the ampacities resulting from the method in Section 4.23 (Equations 4.23a,b.c) exceed 80% of the open air ampacities (in Table 4-2), then the applicable impacities sh< ue established using Equation 4.23d. Same comment applies to e a lars sentence of bulleted paragraph "Trav " on Pg.17. 8 Pg.% Section 4.0, third bullet, first sub-bullet "# 8AWG in Tray": g 9 e cp replace references "A.533" and "A.5.1.14" with "533" and g 3 "5.1.8", respectively. N' 9 Pg/9 Section 4.0, third bullet, second and third sub-bullets: replace b BON 7*e i/7 /'37 fax.. 4 7 Section "43.2" with "4.2.2" and copy the table alluded to (Table 43.2), aiocg with the bulleted paragraph " Tray " on Pg.17, to } Section 4.2, possibly as a new section right before Section 4.23. } Make the necessary text change; to address the correlation of MCDF, Table 4-2 ampacities, and PDMS for trays. 10 Pg.J# Section 4.1, last paragraph: add "is done" after the word "CADF". ' h> py-Sc,my " g, p g/z4 Reviewed Date Resolved By/ By: Luis A Madero 1025 12-31-96 Date: f 7 Organization: Entergy Operations, Inc., River llend Station Organization: 3#gS "Ol Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l % irl 4 OMMI N 1 IM K' PAGt 203'34

8= j = ENT N Y Technical Review Comments Document Rev. Subject / fille: "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 i Appendix R Fire Protection llarrier" ] Docusment Type: Special Notes or lastructiocs: ) Electrical Calculation This is a Rev. I draft subrnittal frorn Duke Engineering & Services, Inc. for Fntergy acceptarne review. Cr > ment Page or Comment Response / Resolution Accept Nuniber Section Initials iI Pg.J5 2-Section 4.2.2, first paragraph: Capitalize " multiple" and replace 1 63 "Section 2.D" with "Section II.D". f 12 Pg. J4 lb Section 4.2.3, last paragraph: replace "Section 11.2" with "Section 2.2". 13 Pg.PTlb Section 4.2.5: Please make clear that the ACF (WSDF) factor is the g j one input into and used by PDMS. E'" 14 Pg.JS 11 Table 4.2.5: The -UNIQUE-3 (TR) [ l j" and " UNIQUE-6 (TR) [ l j" ACFs/WSDFs are not in PDMS. They should be input into PDMS. 3 15 Po.)5 O Table 4.2.5: the word "above" appears four times in the table and in Note 4. Its use is not clear. Please clarify its usage. k Y 7 16 Pg. J76 Section 4.3.2 second bullet (paragraph " Tray..."), next to last h M b) FM ' [ [ 7-sentence: add "for C and K Service Code trays" after " Note that the } nominal ampacity in tray". s I 17 Pg. W 1Ai Table 4.3.4: please state why were the third, fourth, and fifth piwod ,n %bg no6 conduit / barrier configurations not analyzed by Ref. 5.1.1. , 7_ cmd 3, 55 Reviewed a $6Pn Date Resolved By/ gpg lly: Luis A Madero 1025 12-31-96 Date: //z4 97 Org inization: Entergy Operations, Inc., River llend Station &ganization: 3 f/ S ' Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l Urt COMMI NI IXK' PAGE301'34

O EAffracy Technical Review Comments Document Rev. SubjectKille: "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 i Appendix R Fire Protection llarrier" Docuneemt Type: Special Notes or Instrections: Electrical Calculation This is a Rev. I draft submittal from Duke Engineering & Services, Inc. for Enter:;y acceptance review. Comment Page or Comment Response / Resolution Accept Number Section Dj M Initials 18 Pg.192 g Table 4.3.4, Notes I and 5: state the basis for the conservatism. ALVu, ny,91 19 Pg.19 ta Table 4.3.4, Note 2: provide the basis / Reference for this statement. IQe.bc ? ve y ; _, d. Section 4.5, second paragraph: Please clari y the statement " higher 20 Pg.,21pg power to volume ratio" \\ e i c, 7 FAX. 21 Pg.JU(, Reference 5.1.8: Per the recommendation of the PDMS Qwc. vd pw Ih ( coordmator, delete mention of the PDMS version. I v4 E Pg.y 23 [ Section 6.0: Presentation ofcalculation results need to be modified '(=[')7 FM. k 22 by reworking the " Methodology" Sections 4.4 and 4.5, and the k(.,ohd pv " Conclusion" Section 6.0 as recommended below. g, Sections 4.4 and 4.5: } Renumber Section 4.5 to 4.4. Renumber Section 4.4 to 4.5 and retitle it "Derated Current Ampacity and Maximum Load Current Equations" In new Section 4.5.4 (old Section 4.4.4) and throughout calculation, 'p, PDMS needs update. PDms<hany b b mA kbr.[4f (' replace "I.oad" with " LOAD" as the maximum load current. p SC Reviewed Date Resolved By/ ggg 4 7 4 /97 O fly: Luis A Madero 1025 12-31-96 Date: e Organization: Entergy Operations, Inc., River llend Station Organization: 3 ff 5 Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: I % \\PI \\Ct MMI N IMK' PAGs. 4 0l' l4

A....-..... 5. . =. e -=== sansacy Technical Review Comments Document Rev. Subjectfritle: "Ampacity Verification Of Cables Within R:>aways W.qped With Number li-218 i Appendix R Fire Protection llarrier" Docuament Type: Special Notes or lastructions: Electrical Calculation His is a Rev. I draft submittal from Duke Engineering & Services. Inc. fbr Entergy acceptance review. Comment Page or Comment Response / Resolution Accept Number Section Initials 22 New Section 4.6: (Cont'd) Renumber Section 4.4.5 to 4.6 and bold existing title "Ampacity g, Acceptance Criteria." Add "Section 4.6.1 Iteration #I","Section 4.6.2 Iteration # 2","Section 4.6.3 Iteration #3" h In new Section 4.6.1, discuss that adequacy of cable ampacities are g established via the following ampacity criteria (as it is presently shown in old Section 4.4.5): DCA > FLA using the LFs per old Section 4.4.4. Delete last paragraph ofold Seeion 4.4.5. In new Section 4.6.2 " Iteration #2", discuss that cables screened out by lleration #1 were handled by a generic and comprehensive criteria: the removal of thermo-lag from the affected raceway, i.e., f the ampacities shall be established / calculated without thermo-lag ADF factor. This approach is applicable only for raceways whose existing T-L barrier is no longer required per review of References 5.1.12 and 5.1.14. Add as new Reference 5.1.14 MR 91-0075 (the MR that upgrades T-L'd raceways). Y 2

l. -

J Reviewed Date Resolved 13y/ g' 4p fly: Luis A Madero - 1025 12-31-96 Date: 24 97 Organization: lintergy Operations, Inc., River llend Station Organization: D E ~/ 5 Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l s Ti tousu ni toc rM a. 5 or 14

8 -=== F.ARYsany Technical Review Comments ~ Document Rev. Subjectfritle: "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 I Appendix R Fire Protection 13arrier" Document Type: Special Notes or Instructions: i Electrical Calculation This is a Rev. I draft submittal from Duke Engineering & Services, Inc. for Entergy acceptance review. I Comment Page or Comment Response / Resolution Accept Number Section initials ' 22 In new Section 4.6.3 " Iteration #3", discuss that adequacy of cable (Cont'd) ampacities are established by a conservative but less stringent Do rw_. 97 fax. ampacity criteria: cable ampacities whose DCA > l.10 of Fl.A are acceptable for loads capable of operation at 90% voltage and who>e l equipment / circuits do not operate overloaded, e.g., control circuitry, motors whose llP or KVA do not exceed rated, etc. Pg.2(43 In Sectbn 6.0: I Designate existing text (frcm Section 6.0 up to existing Section 6.1) t' '8V'b3 as new Section 6.1.2. Add new Section 6.1 titled as"Ampacity Results" before Section 6.1.2. Add new Section 6.l.1 with the following ice. "All cables met the ampacity acceptance criteria of Section 4.6. The majority of cable 7 ampacities were deemed acceptable via Iteration #1. Those cables T whose ampacities were deemed acceptable via tierations #2 and #3 Y are listed in Table 6.1 below with applicable Notes." r ,l ~ Reviewed Date Resolved By/ gg9%4 Ily: 1.uis A Madero 1025 12-31-96 Da:e: //zg/97 Organization: Entergy Operations, Inc., Riser llend Station Organization: )E'/s Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l 3 S Ti WOMMI N I IX C PAGL 6 Ol~ 14

8 ENTm2y j Technical Review Comments Document Rev. Subje IS'ille: "Ampacity Verification Of Cables Within Raceways Wrapped With j Number E-218 I Appendix R Fire Protection llarrier" l Documeni Type: Special Notes or lastructions: Electrical Calculation 1his is a Rev. I drail submittal from Duke Engineering & Services, Inc. for Entergy acceptance.eview. Comment Page of Comment Response / Resolution Accept Number Section Initials 22 Pg.25 include Table 6.1 and add the following text before it:"In some (Cont'd) cases, cable ampacities were found to be less than the load (or circuit) rated current requirements, i.e., DCA < FLA. These cases occurred in Iteration #1 IX'As due to the presence of thermo-lag on certain raceways of the cables' routing. These thermo-lagged cable segments may have been subject to temperatures higher than their d normal insulation operating temperatures. These cases are noted in g Table 6.1 with notation similar to: DCA = 0.97xFLA. Additional evaluation is required to determine the effect ofincreased operating Q temperatures on the thermo-lagged ponion of the cables." t. ~ Modify the existing text now under new Section 6.1.2 (existing DC'N Section 6.0) as follows: dele e the first sentence in the first paragraph and the " Recommended solutions..." paragraph along with the remainder of the existing text (up to existing Section 6.1). f 23 Pg.26 Existing Sections 6.1,6.2,6.3, and 6.4: These are no longer needed g thru 32 due to Table 6.1. Please delete. 24 Pg.32 FYl: In existing Sections 6.4.6 and 6.4.7, the applicable WSDF is

1. N 0.56, not 0.79 as shown.

$D s s Reviewed Date Resolved By/ g..~ Ily: Luis A Madero 1025 12-31-96 Date: i z4 97 Organization: Entergy Operations, Inc., River Bend Station Organization: 2)W5 Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l $ SPI 4 OMMI N I IM)C PAGt: 7 Ol' t4

ALh EnlT N Y Technical Review Comments Document Rev. SubjectA ille: "Ampacity Verification Of Cables Within Raceways Wrapped With . Number E-218 l Appendix R Fire Protection llarrier" Docuanent Type: Special Notes or lastructions: Electrical Calculation This is a Rev. I draft submittal from Duke Engineering & Services, lac. for Entergy acche review. Comment Page or Comment Response / Resolution Accept Number Section initials 25 Pg.26,27, The following loads are coil heaters or unit heaters, not motors, and 28 their load factors should be changed fro 1.25 to 1.1: Ati v c.v.::4 p .v-p f'M CW - 0 5 ?r7. E isting x Section Cable No. Load ID. 6.2.I lilVCittlK200 & 201 lilVC*Ciliti l 6.2.3 IllVYNNK037 lilVY-Cill3 { 6.2.4 lilVYNNK042 tilVY-Clll4 d l 6.2.5 tilVYNNK043 tilVY-CllI8 6 2.6 lilVYNNK044 lilVY-UllI5* 3 6.2.7 lilVYNNKU45 tilVY-Ulil6' Q 6.2.8 IIIVYNNK046 tilVY-Ulll7' s 6.2.9 tilVYNNK047 t ilVY-Ulil8*

• lhe listed of DCA of 0.88 should have been 0.85 T.)

For those cables in existing "ections 6.1,6.2,6.3, & 6.4 that had an f 26 Pg.26 Iteration # I DCA (i.e., a DCA with the T-L barrier on the raceway) Do% thru 32 less than the FLA of the load / equipment, please determine all reasonable options to reduce the number of cables in this category via analysis before they are deemed inadequate in Rev. I of E-218. This determination should be done now as a normal activity in an [ analytical effort to establish the adequacy of cable ampacities. For g-example-a Reviewed Date Resolved 11y/ g ,gg fly: Luis A Madero 1025 12-31-96 Date: , z4 Jy-7 Organization: lintergy Operations, Inc., River llend Station Organization: Dffs Department: l Design Engineering / Fire Protection l lixt. l 504 381-3625 Department / Ext.: l 7 S iPIMUMMI NI tX)C PA68:8OF14

8 ERfrERGY Technical Review Comments l Document Rev. Subject /fitle: "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 i Appendix R Fire Protection llarrier" Document Type: Special Noter er Instructions: Electrical Calculation This is a Rev. I draft submittal from Duke Engineering & Services. Inc. for Entergy acceptance review. Comment Page or Comment Response / Resolution Accept Number Section Initials 26a Sections 6.1.2,6.2.10,6 2.I1,6.2.I3,6.2.I5,6.4.5,6.4,7: Forthe transformer feeder, distribution panel feeders, feeders going to skid mounted units, etc., please model more realistic (actual) Ioad currents than the worst case approach of using, e.g., rated transfonner full load currents, rated distribution panel incoming i protective device current ratings, etc. gd For skid mounted ecuipment, determine the actual load requirements of sne components in the circuit fed by the cable (use g cLt. block diagrams, schematics, etc.) rather than simply using the M E rated power /tvad requirement listed on a drawing / manual. With proper engineeringjudgment, a more realistic load requirement can be considered in the analysis. 26b For the coil heater and unit heater cables in existing Sections 6.2.1, Qg7 ifd, A}} 6.2.3,6.2.6 thru 6.2.9, investigate if the are used only during the N winter and how often: can they be conddered as intermittent loads j during winter and over the life of the plant? 27 Pg.30,31 Section 6.4.1 thru 6.4.3, Control Cables: Please use actual / realistic g0" load currents rather than rated protective device ampere ratings. Recommendations are listed below. y( ~ S p/zy/97pg Reviewed Date Resolved 13y/ 0 Ily: 1.uis A Madero 1025 12.11-96 Date: i Organization: Entergy Operations, Inc., River llend Station Organization: 35-fs Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l s tra romti N t tw I'm 9 0F 8 4

8 ~~~-? Hrfsar.Y Technical Review Comments Document Rev. Subjectflitle: "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 I Appendix R Fire Protection llarrier" Document T)pe: Specia! Notes or lastructions: Electrical Calculation This is a Rev. I draft submittal from Duke Engincring & Services, Inc. for Entergy accdptance review. Ccmment Page or Comment Response /Resolutien Accept Number Section Initials 27a lPg.30 Section 6.4.1: SLS cables are part of the Standby Liquid Control system that is used only during a control rod drive system failure. D c n <_. I Imd requirements should be much lower than the 10A fuse. Also, Csil cables: this system is ofinfrequent use, see ifcircuitry can be 1 considered as an intennittent load. 27b Pg.30 Section 6.4.2: the RPS system buses is normally fed by vohage b n <-- Q regulated transfonners m which case, a 1.1 LF may be used. The loads may be control circuits whose load requirements (relays, SOVs, etc.) are wcli defined and do not experience occasional g i overload conditions (e.g., such as increased current due to increased ,G process fluid loadings in the case of pumps). Determine a realistic load current for the llVC cable. I 27c Pg.30,31 Section 6.4.3: The RMS cables may feed circuits that, when the contribution of each circuit component is accoun;ed for, the total g M current requirement is much !awer than the loading requirement of the equipment as a whole as quoted on vendor dwgs. and manuals, which sometimes use vendor provided protective device ratings as load requirements. Determine a realistic load current for the JPD, LAC, and SilS cables. ,F ) ~ Reviewed Date Resolved By/ Y f g.4 97 (D I y: Luis A Madero 1025 12-31-96 Date: Organi/ation: lintergy Operations, Inc., River Hend Station Organization: 98 fg Department: l Design lingineering/ Fire Protection l lixt. l 304 381-3625 Department / Ext.: l N PAGt.10 ol' I4 S 'PI '.COMMI N i lxr L-. -- -- --

8 EAffsany Technical Review Comments Document Rev. Subject /

Title:

"Ampacity Verification Of Cables Within Raceways Wrapped With Number li-218 1 Appendix R Fire Protection 11arrier" i)ocumeent Type: Special Notes or lastructions: Electrical Calculation 'lhi,is a Rev. I draft submittal from Duke Engineering & Services Inc. for Entergy acceptance review. Comment Page or Comment Response / Resolution Accept Number Section 27d Pg.30,31 in Sections 6.4.1 thru 6.4.3, rated fuse sizes are used as the initials circuit / equipment full load amperes and compared to calculated Dono Oc cable derated current ampacities (DCAs) w hich are all below the gt,$ cd % mY us ed, fuse ratings. Since these DCAs are lower than the " full load" requirements (i.e., fuse ratings), the cables ampacity appear inadequate. te Tojustify the cable ampacity, the argument is made in these Sections that the NEC allows the use of the next higher fuse size g and, therefore, the existence of fuse ampere ratings gr-ater than the calculated cable DCAs are acceptable conditions for the determination of adequate cable ampacities. This approach is not valid because the NEC vowance is applicable when determining the adequacy of cable / load overcurrent h protection, rather than for attempts tojustify a cable's ampacity using the fuse rating as a load value. Rese are different issues. For these cables, research is required to determine more realistic loadings (much lower than the fuse [ ratings) and establish the adequacy of the calculated DCAs (derated cable ampacities). %3 s Reviewed Date Resolved By/ p wa.CJ lly: 1.uis A Madero 1025 12-31-96 Date: 24 /97 i Organization: lintergy Operations. Inc., River llend Station Organization: 38 f $ Department: l Design lingineering/ Fire Protection l lixt. l 504 331-3625 Department /lixt.: l S il'i 'foMMI N I lM C f*AGl.ti Ot'14 g

8 -2:2-nnrar-y Technical Review Comments Document Rev. Subject /I'itle: "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 i Appendix R Fire Protection llarrier" Doerment Type: Special Notes or Instructioas: Electrical Calculation ~Ihis is a Rev. I draft submittal from Duke t'nqineering & Services, Inc. for Entergy accchance review. ~ Comment Page or Comment Response / Resolution Accept Number Section initials 28 Pg.33 Renumber and retitle existing Section 6.5 to "Section 6.2 Summary D"' h of Recommendations". Put existing text and table under new Section 6.2.1. M B Under new Section 6.2.2, add "The following cables from Table 6.1 3 should be evaluated to determine any temperature effects on cable D e m <- g insulation since the cables may have been subjected to load currents greater than the thermo-lagged ampacities (Iteration #1 DCA)as established in Table 6.1. It should be noted that only a particular thermo-lagged portion of a cable's routing may be involved rather than the complete cable route." include a table showing the cable no. and the raceway that adversely affects the cable's thermo-lagged ampacity. 1 r q vs M ~} o fa M 29 Attach. I Please insure that all hand corrections presently shown in the hQ ER thru 4: PDMS printouts are incorporated in PDMS end that the K and C g g p cable lists on Attachments 2 (page 14) and 3 (page 5) are mcluded b0 in the PDMS printout. MM 30 Pg.2 Update the Table of Contents as required. Do % 31 Pg.4 State the references of the Rev. 0 & I Wrap Status data in the table. T) o e -/tYy M V p/zff yy Reviewed Date Resolved By/ SA f Ily: Luis A Madero 1025 12-31-96 Date: Organization: Entergy Operations, Inc., River llend Station Organization: 23d '$ ' -L Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l $ WI WoMMI Ni doc I*AGI 32 0f 14

l l 1 Table 6.1 l lieration iteration I.O A D,

FLA, leeration #3:

Catde Tensperatere ENetts H Calde No., Raceway No.,

1. 1DCA,
2. 2 DCA Amps Amps Ratio of Amapseity :

Evaluation Reg *d If Noses Load ID. Fire Aren/ Zone Amps w/o T-L. (Section (Section tieration #2 Acceptable Iteration #1 DCA < FLA Amps 4.5.41 4 5.4) DCA to FLA (Y/NI ICSHCOH300, ICil0030 A, 393.4 497.9 441.1 401 N/A Y DCA = 0.98xi-LA I IE22*S00lGIC C-6/Z-1 I ENS 88h300, ICl1012BA, 195.0 2463 228.8 208 N/A Y DCA= 0.94xi'LA ! I IE3S*X 1 B C-6/Z-1 I HVCBBK200,

ICK920BB, 35.7 45.2 48.9 39.12 1.15 Y

DCA = 0 9txFLA I tilVC*CillB C-17/Z-1 IHVCBBK201,

ICK920BB, 35.7 45.2 48.9 39.12 I.15 Y

DCA = 0.91xFLA I tilVC*CillB C-17/Z-1 4 IHVRNOK901,

ICK9390A, 77.2 N/A 65.0 52 N/A Y

N/A 2,3 h lilVR*UC5 A B-7//Z-I IHVRNOK901

ICK9390A, 77.2 N/A 71.3 62 N/A Y

N/A 2.3 N( IllVR*UCS A B-7/Z-1 IHVYNNK037 IL K600NA l, 29.5 50.0 39,71 36.1 N/A Y DCA = 0.82xFLA I tilVY-Clll3 PT-l/Z-I I HVYNN K042, ICK600NMI, 19.8 M/A 18.74 17.04 N/A Y N/A p lilVY-Clll4 PT-l/Z-I IHVYNN K043, IllVY-Cill8 I g IHVYNNK944, ICK600NM I, 10.2 17.3 13.2 12 N/A Y DCA = 0.85xFLA I a lilVY-Ulll5 PT-l/Z-1 l H VCBBL201,

ITLO12B, 98.1 158.22 106.3 85.04 N/A Y

N/A 4 tilVC* ACU2B C-16/Z-I IHVCBBL291,

ITLOI2B, 105.0 N/A 106.3 85.04 N/,~5 Y

N/A 4,5 lilVC*ACU2B C-16/Z-1 IHVRCNL291,

ITL507N, 210.3 N/A 211.3 169.04 N/A Y

N/A 5 tilVR-UCIC RC-4/Z-7 I ENBBBC604,

ICC040BC, 61.8 78.2 80.0 64.0 1.22 Y

DCA = 0.97xFLA I ? C-24/Z-I I HCSARC532,

ITC500R, 6.5 11.6 7.5 6

N/A Y N/A I l ? RC-4/Z-7 . ~ ( I g M Ps w u M MI Ni tx t PME 13 of 14

1 Table 6. I Notes: 1. Removal of the 'lhermo-Lag (T-L) twrier from the raceway is required. 2. There are lhe other cables in iCK9390A. Four hat intermittent loads (3-phase MOVs I E22'FON, Fol2, Fol5,1023) and are. therefiwe, considered non curtent carrying conductors. The other cable is a control cable for lilVR*UC5. Only the control cable is considered as a current carrying conductor along with lilVP.NOK001. 3. Per ER %-0537, CR 95-00887 replaces existmg $2A motor with a 50 lip,62A FIA,1.15 LF moior. i 4. Per review of MR 91-0075, the existing T-L barrier will be replaced with an npgraded T-L barrier. The T-L barriers

• ADF factors are 0.62 and 0.67, respectively, per Reference 5.1.1. 'Ihese ADFs result in !ieration #I DCAs of 98.1 A and 106.0A, respectively.

5. ' Less than 0.5% deviation oflicration #1 DCA from LOAD is acceptable due to buik-in conservatism in the I.25 LF. 3 6. D w h }c }- &W i ) ' J .~, 0-s u t 'rOMMI N i (M K' IAU3 34 E 34 L _ _ ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _

=e nn= mar Technical Review Comments Document Rev. Subject / "Ampccity Verification Of Cables Within Raceways Wrapped With Number E-218 1

Title:

Appendix R Fire Protection Barrier" Document Type: Special Notes or In:: rections: This is a Rev. I draft second submittat from Duke Engmeermg ) Electrical Calculation & Services, Inc. for Entergy review. Initial EOI comments (a total of 30) were transmitted to Duke Engineering & Services via EOi letter no. RBG-43586 dated December 31,1996j Comment Page or Comment Response / Resolution Accept Number Section Initials l Cover Sh. In block 14, add: " Issuance of Criterion 240.201 A Rev. 2, Close pog out of MR 91-0075" 2 Pg.3 Table of Contents: List as Attachment 7, and include as such, the Donc ' AH %Q Q-O calculation Design Verification Rccord form with the initial EOI comments (30 comments transmitted via letter RBG-435*6) as well these additional 20 comments. It d 3 Pg.4 Section 1.0: Reference 5.1.2 (ER 96-0537) and PDMS need to be 'D o yg, h revised to incorporate the latest walkdown data for tray ITK512N and conduit ICK921NA, i.e., they are not wrapped with thermo-lag. The ER should use as attachments the walkdown data from 1 page 1 of Attach. 6 to this calc. (for ICK92INA) and Attach. 2 to g p7 the letter transmitting these comments (for ITK512NT Table land the calc. as a whole needs to incorporate this info. (Related b comments: 14a,16b,18,19) 4 Pg.4 Table I: Based on a review of E-218 Rev. O, conduits ICC939RE D out - and ICK81 IRil were deleted. Therefore, these conduits never had T-L (per Rev. O of E-218). Update Table 1. fs 5 Pg. 5 Section 2.0, item 2: Between the first and second paragraphs add a pone blank line. E ^ Reviewed / Date Resolved By/ g um By: Luis A Madero 1025 3-3-97 Date: .r z 97 Organization: Entergy Operations, Inc., River Bend Station Organization:),ke gmim/,4,ad Servtcc5(Jnd M y Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l *rf'O 44/' 51 F3 h smrowut Nr poc PAGEIOF7 y

e = nrwany Technical Review Comments Document Rev. Subject / "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 i

Title:

Appendix R Fire hotection Barrier" Doewment Type: Special Notes or Instructions: This is a Rev. I draft second submittal from Duke Engmeermg Electrical Calculation & Services, Inc. for Entergy review. Initial EOl comments (a total of 30) were transmined to Duke Engineering & Services via EOI leuer no. RBG-43586 dated December 31.1996.l Comment Page or Comment Response / Resolution Accept Number Section Initials 6 Pg.6 Reword calc. sections that contain the words "... and verified," " Don < "...has been verified,""...has been input," etc., as follows. Section 4.0, third paragraph, last sentence: replace "has been input to PDMS and verified." with "is contained in PDMS." Sections 4.1 g i and 433, second to last sentence: delete "and has been verified." A s Sections 4.2.2 and 43.2, second to last sentence: after MCDF add "is performed" and delete "has been verified." Sections 4.2.5,43.4, and 4.4, second to last sentence: replace "have been input into PDMS and verified." with "are contained in ,M PDMS." D Section 4.5, first sentence: after " calculations" add "are", delete "have been verified." Section 4.5.4, econd to last sentence: replace "in PDMS have been N, verified." with "are contained in PDMS." 7 Pg.8 Section 4.0,3rd bullet,2nd sub-bullet, second sentence: Before g.% 9 " Values" add " Listed" and replace "are" with "have been."- J (P Date Resolved By/ gg%m Reviewed pg By: Luis A Madero 1025 3-3-97 Date: s/z/97 Organization: Entergy Operations,:Inc., River Bend Station Organization: P Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: j MPLWOMMLNI DOC PAGli 2 01-' 7 l m

= sm==nv Technical Review Comments l Document Rev. Subject / "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 I

Title:

Appendix R Fire Protection Barrier" i Docussent Type: Special Notes or Instructions: This is a Rev. I draft second submittal frem Duke Engineermg Electrical Calculation & Services, Inc. for Entergy review. Initial EOI comments (a total of 30) wcre transmitted to Duke Engineering & Services via EOl letter no. RBG-43586 dated December 3 I,1996.f Comment Page or Comment Response / Resolution Accept Number Section Initials 8 Pg.16 & ADF factors in Tables 4.2.5 and 4.3.4: Reference 5.1.1 is not p, 20 finalized and repeat /addh'7nal EOI comments on said Ref. have recently been submitted to DEAS via EOl Ictter no. RBG-43723 dated February 7,1997. Next submittal to EOI of E-218 Rev. I by DE&S shall use the ADF factors from an EOI approved Ref. 5.1.1. hiD 9 Pg.20 Note I,3rd sentence: add missing "t"in " intermittently." "Dovu 70 10 Pg.25 Reference 5.1.12: Reword description to " Criterion 240.201 A, Rev. po% 2, Entergy Operations, Inc. River Bend Station,10CFR50, Appendix R Separation Analysis" W Y II Pg.25 Reference 5.1.14: Add MR 91-0075 title" Upgrade Appendix R I>o ypt_ Thermo-Lag Enclosures" 12 Pg. 28 & Tables 6.1 and 6.2: For the upg ade raceways, please show two 4 g [,_g %me_ {g gg;p p 33 entries for each cable. The first entry uses the existing 3 hour g enlosure ADF and the second entry uses the I hour upgrade g enclosure ADF. 6I

• d b1-Specifically, for the mul i-tray enclosures in Fire Area C-16/Z-I, f

t please note in the Table that the upgrade enclosures will be I hour single tray type, not the I he -'wo-tray configurations. (>4 ~ Reviewed Date Resolved By/ Jq#g By: Luis A Madero 1025 3-3-97 Date: gf-d9 7 Organization: Entergy Operations,Inc., River Bend Station Organization: 8 Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l f $3Pt\\COMMLN1.IME PAGE 3 OF 7

e = sm==cy Technical Review Comments Document Rev. Subject / "Ampacity Verification Of Cables Witbha Raceways Wrapped With Number E-218 1

Title:

Appendix R Fire Protection Barrier" Doennient Type: Special Notes or lastructions: This is a Rev. I draft second subunitial from Duke Engineering Electrical Calculation & Services, Inc. for Entergy review. Initial EOl comments (a total of 30) wcre transmitted to Duke Engineering & Services via EOl letter no. RBG-43586 dated December 31,1996) Comment Page or Comment Response / Resolution Accept Number Section Initials 13 Pg.3i & Table 6.1 and 6.2 Notes: There is a good amount ofdata (actual y 38 load amps, recently obtained load data, I nad Factors, data references such as dwgs. and vendor manuals, etc.) that needs to be I incorporated into the E-218 Ra. I calculation results via a revision 4 to Reference 5.1.2 (ER 96-0537 Rev. 0) with the subsequent PDMS update per the ER. k Next submittal to EOI of E-218 Rev. I by DE&S shall be based on C approved documents: N l} Rev. I of ER %-0537 with PDMS completely updated y

2) Calculatien G13.18.14.0-178 Rev. 0 (see comment 8) 14 Pg.31 &

a. Table 6.1 Notes 9,10, & 11: delete. ER 96-0537 & PDMS 38 require revision / update for these cables per comment 3.

b. Table 6.1 Notes that require ER 96-0537 revision and/or PDMS update: 1,2,3,4,5,6,12,13,14,18 (the PDMS problem mentioned in Note 18 should be resolved).

M)>

c. Table 6.2 Notes that require ER 96-0537 revision and/or PDMS update: 1,2,3,4,6,7,8,12,13,15 thru 32.

d. Table 6.2 Note 31: add " Ambient Temperature for this Fire Area -

Qol- \\ h \\o\\ c % b m ov s., is 32.2*C. Therefore, the corresponding CADF of 1.075 was used ga resulting in a 5.7A Iteration #I DCA." Update DCA ratio in Note { 31 and fix " manually" the PDMS CADF for this component. I p

e. In the ER, please include revision levels of the drawings used.

Re.sedO S d \\:q E.R. Reviewed Date Resolved By/ g6EW By: 1.uis A Madero 1025 3-3-97 Date: g/z/97 p Organization: Entergy Operations, Inc., River Bend Station Organization: ~ S \\Pt3COMMl_N 1. DOC PAGE 4 OF 7 (D Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l l

T. 1 8 - = ~ Etifsany Technical Review Comments Document Rev. Subject / "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 I

Title:

Appendix R Fire Protection Barrier" Doemanent Type: Special Notes or Instructions: This is a Rev. I draft second sutunitial fiom Duke Engineermg Electrical Calculation & Services. Inc. for Entergy review. Initial EOI comments (a total of 30) were transmitted to Duke Engineering & Services via EOI letter no. RBG-43586 dated December 31,1996. Comment Page or Comment Response / Resolution Accept Number Section Initials 15 28 thru 41 - Upon issuance of ER 96-0537 Rev.1, the Table 6.1 and 6.2 Notes p justifying the load data, LF, etc., should go away as well as the cables themselves (from Tables 6.1 and 6.2) if DCA #1 is greater g , than Load. 4 ~ P 16 28 Table 6.1: g

a. Cable tilVYNNK037: update to DCA= 0.71FLA giih.

Qo c.77

b. Cables ILARNNK057, ILARNNK059, ISCAANK500: hased on comment 3 and 14a above, these cables are outside the scope of E-218. Exclude them from the calc. and delete Note 19.

c. Note 15: For existing T-L, DCA=0.86 & 0.88. For upgrade T-L, DCA= 0.89 & 0.91. Adjust per comment 12.

d. Note 16: For existing T-L, DCA=0.95. For upgrade T-L, DCA= 0.99. Adjust per comment 12.

17 33 Tabte 6.2:

a. Include ":" at header of columns 5,6,7 after " Iteration #1",

Dont g e ;. " Iteration #2"," Iteration #3" 3

b. Cable llIVCBBC532: Load ID should be tilVC'FNIB-IITR k

c. Cable tilVCBBC534: Load ID should be lilVC'FN28-IITR LMN "NM N

N\\ L.. I

d. Cable tilVCilBC536: Load ID should be IllVC*ACUlB-IITR I

lo y on

e. Cable IllVCBBC539; Load ID should be IllVC'FN88-IITR 0 3 and correct cable SYS no. from "IICV" to "IIVC" s

Reviewed Date Resolved By/ g6E,,ft:u lly: Luis A Mader 1025 3-3-97 Date: g/g/ 3 r Organization: Entergy Operations, Inc., River Bend Station Organization: ) Depanment: l [ksign Engineering / Fire Protection l Ext. l 504 381-3625 Depanment/ Ext.: l p PAGE 3 OF 7 gg SWEWOMMENI DOC E

l 8 =' Earfsany Technical Review Comments i Document Rev. Subject / "Ampacity Verification Of Cables Within Raceways Wrapped With Number E-218 I

Title:

Appendix R Fire Protection Barrier" Documeest Type: Special Notes or Instructions: This is a Rev. I draft second subunittal from Duke Engincenng Electrical Calculation & Services, Inc. for Entergy review. Initial EOI comments (a total of 30) were transmitted to Duke Engineering & Services via EOl letter no. RBG-43586 dated December 31.1996: Comment Page or Comment Response / Resolution Accept Number Section Initials 17

f. Cable ll1VKBBC514, lilVKDBC507: with 1.1 LF, Load =11.4A

~1)one (Cont'd)

g. Cables lilVKBBC515, lilVKDBC506, IRilSBBC020: The 7

IIVK and RilS cables do not meet Iteration #1 by 0.9A and 03A I l (using a 1.1 LF for the R.llS cable), respectively. A statement, in addition to what is in note 5, is suggested to furtherjustify the k small deficiency as negligible, for example: the tray is a control D level raceway located at the bottom of the T-L enclosure which 70 s { experiences a lower temperature than the upper power tray; in g , A\\w no u addition, the ADF was determined using the power tray as a y _(_ 4 \\ u _i model, application of this ADF to control tray cables is O conservative; finally, inherent load diversity in the power and pi control trays was not considered in the calculation.

h. Cable lilVPBBC508: Load ID should be lilVP'FN28-ilTR

i. Cable 1JPBNRC501: FA/FZ should be AB-2/Z-2

j. Cable ISCCARC566: Raceway should be ITC205R

k. Cable iSWPARC074: For iTC200R,201 R,204R, & 205R,

Iteration #I DCA should be 43,43,4.0, & 3.7 p

1. Cable ISWPARC077: For iTC200R,20iR,202R,204R, &

205R, Iteration #1 DCA should be 4.4,4.5, 43,4.1, & 3.8 [

m. Cabic ISWPARC559: FLA, Load, and Iteration #1 DCA should g

be 4.6,5.1, and 5.7, respectively (see comment 14d). f 10 4i Table 6.2.1: Delete tray 1TK512N (see comment 3), the asterisk g% and its accompanying note regarding T-L removal. Reviewed Date Resolved By/ gg @ Organization: Entergy Operations, Inc., River Bend Station Organization: h By: 1.uis A Madero 1025 3-3-97 Date: 5/r./97 Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l yi 5APELOMMEN T DOC l' AGE 6 Ol; 7 [

~ -::~ suwany Technical Review Comments l Document Rev. Subject / "Ampaci:y Verification Of Cables Within Raceways Wrapped With Number E-218 1

Title:

Appendix P Fire Protection Barrier" l Docussent Type: Special Notes or lastructions: This is a Rev. I draft secoed subunittel from Duke Engineenng l Electrical Calculation & Services, Inc. for Entergy review. Initial EOI comments (a total of 30) were transmitted to Duke Engineering & Services via EOI letter no. RBG-43586 dated December 31.1996[ Comment Page or Comment Response / Resolution Accept Number Section Initials 19 4I Table 6.2.2: Delete cables ILARNNK057 & 59 (see comment 3). Donc 20 4I Attachments I thru 4: For the next (final) submittal of E-218 Rev. I)o % g I, the PDMS reports should not contain hand corrections or typed } lists of cal,les describing why they are not in the PDMS reports. All PDMS reports must contain the required data correctly and l completely. Ensure that PDMS reposting problems are resolved. .h l 'Ihis also applies to the PDMS report in ER 96-0537 (see comment 13, item 1). C h i Sb 4! () g/z./y7 Reviewed Date Resolved By/ EM ts 11): 1.uis A Madero 1025 3-3-97 Date: 5 Organization: Entergy Operations, Inc., River llend Station Organization: 1D Department: l Design Engineering / Fire Protection l Ext. l 504 381-3625 Department / Ext.: l [ S \\PtWOMMEN t IXX' pAGE7op7

CALCULATION CALC. NO.. REV. ADDENDUM E-218 Rev. I ENGINEERING DEPARTMENT ArrACiiMENT No.t cas required) ~~~ ENTERGY RIVER BEND STATION JBINO}+ 3cc og CALCULATION CIIECKLIST EDP-AA 20 YES NO N/A FORMAT SECTION / Coser Page completed. 6 4.1 V. Table of Contents comp;eted (as required). 6.4.2 V f Revision History Sheet completed (as required). 6.4.3 / Resisions are identified with revision hnes in nght margin. 6.4 3 / Applicable Documents Page completed 6.4.4 6/ Defir.itions established (as required) 6.4.5 / Calculation / revision / addendum /page numbers are identified correctly. 6.4.10 CONTENTS Previous calculation for the required analysis exists. 6.3 6/ Calculation is appropnately titled for the intended scope. 6.4.1 2 V Purpose and scope are clearly and adequately established. 6.4.17,7.1 /, Safety classtrication is correct for the identified scope. 6.4.1-6 K Topics / documents / equipment for cross-reference / retrieval are identified 6.4.1-11 v, Calculation is clear and comprehensible. 6.1 / Applicable codes, standards. ett are identified. 6.4.41 / V, RBS references are identtfi:d. 6.4.4 2 AfTected documents are identtfied 6.4.4 3 / Inputs and sogrees are identified, appropnate, and correct. 7.2.21 l V Assumptions are tdentified and appropriate. 7.2.2 2 / Inputs dented from field walkdown have been witneurdAenfied 7.2.25 l / Engineering judgments are identified and appropnate.

7. 2.2-6 i

6/, Calculation methodology is identified and supported by technical bases. 7.2.3 f / Conclusion is appropnate and is justified by calculation. 7.3 / Confirmations are identified and indicated as required on Cover Page. 7.5.7 Directions for Confirmations are included. 7.5.7 3 V, Calculation data is appropnately included, attached, or referenced. 7.4 / Programs and softwsre are identified and have been verified and validated. 8.0 Methods / calculations use to check results are identified and included. / / Results are accurate and in accordance with the established methodology. / Certification by Professional Enaneer is required. I 1.7 VENDOR CALCULATIONS Calculation is performed in accordance with EDP AA-25. 10.2 Calculation conteat and format are acceptable. 10.2 Vendor, preparer, reviewer, and approver are clearly identified 10.3 Design venficatiowreyiew has been completed (as applicable) Preparer (Signature /KCN or SSN/Date) AWit[hed[M. 144/97 Reviewer (Signature /KCN or SSN/Date) [u //+5m# 056 fh4)> 7

ATTACInfENT I ES-P-@2-M ~- ENTERGY Page1 of 2 Typical Design Verification Record Page of Document Number d"Z(8 Resision l METHOD Verification methods to be used: k Design Review Qualification Testing Alternate Calculations DOCUMENT (S) REVIEWED: (Attach Additional Sheet (s), if needed) Document Number Revision Document Title Avtwedd Benf: Genes fet eR 46-os57 cafo?. o G o d & M u ?b m l D D.Ib, l4 D 'nD D Am'h,$ dan &lsts & sf ~ '. w. 5%o-i s eh w ces i

SUMMARY

OF RE IEW: $(Attach Ad itional Sheet (s),ifneeded)b 61Ll$.l{ O-fl8 R w A Cc 0 0 vb 4 < \\ded Deday A. A re s w. 4 ye(em, ver l I Design Verification Completed By [th-Date: $d//97 Comment Resolutions Accepted By //P Date: 9 1) L/ Engineering Supersisor Date: ES-P 002, Fonn No.l. Rev. 0 -a ,}}