Rev 0 to Calculation XX-E-011, Determine Ampacity Margin of Trays W/Thermo-Lag 330-1 Fire Wrapping

ML20080T513
Person / Time
Site:	Wolf Creek
Issue date:	03/24/1994
From:	WOLF CREEK NUCLEAR OPERATING CORP.
To:
Shared Package
ML20080T388	List: ML20080T385 ML20080T498 ML20080T503 ML20080T513 ML20080T522
References
XX-E-011-R00, XX-E-11-R, NUDOCS 9503130362
Download: ML20080T513 (53)
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Text

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PORM KEF-E-3031, REV.1191

+

CALC No.

XX-E-011 j

CALCULATION COVER SHEET WA m

,o, EHEET 1 OF 23 CALCULATION STATUS PREUMINARY X FINAL SUPERSEDED CANCELLED DESIGNATION:

l CLASSIFICATION:

X SAFETY RELATED SPECIAL-SCOPE NONSAFETY-RELATED I

COMPUTER REVISIONI i

PROGRAM TITLE: N/A NO.

RELEASE NO.

l CALCULATION Determine Ampacity Margin of Trays with Thermo-Lag 330-1 Fire Wrapping.

SUBJECT:

1 COMMENTS:

l t

i i

REV.

DESCRIPTION ORIG /DATE VERF/DATE APPROVE /DATE RELEASE i

ORG M

TO 3C16 SYS 00 initialissue 1

9303130362 950310 PDR ADOCK 05000402 P

PDR J

FORM KEF-E-303-4, REV. 09%

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CALCULATION REVISION CALC NO.

XX-E-011 i

N/A PMR NO' STATUS SHEET snEET 2or as Mm r 12~,1 f.# 2 s,gd$tJ/

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I TABLE OFCONTENTS:

Calculation Cover Sheet Sheet 1 Calculation Revision 8tatus Sheet Sheet 2 Table of Contents Sheet 3 List of Reference Calculations Sheet 4 index of References Sheets 5-6 Purpose of Calculation Sheet 7 Design inputs, Assumptions, and Methodology Sheet 8-9 Sources of Major Equations Sheet 9 Calculation Body Sheets 9-21 Results and Conclusions Sheets 22-23 - Ust of all Thermo Lag Applications 6 Sheets

. - List of Power Cable Trey Applications 6 Sheets r - List of Test Results from other Organizations 5 Sheets - Values Used in the Ampacity Margin Calculation 12 Sheets I

i 1

I t

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e FORM KEF.E.303 2. REV. 09.90

+

CALC NO.

XX.E-011 CALCULATION SHEET N/A pyg g SHEET 4 OF 2 3 1 Q_ DATE: g.3 9y j

ORIGINATOR: 3,,,, f 4, DATE: 7 g 44 VERIFIED BY:

l 11 LIST OF REFERENCE CALCULATIONS:

E-F-2 R/0 Cable Sizing E-F-11 R/1 Ampacity of Power Cables in insulated Trays (Trays Wrapped with Thermo-Lag)

E-F-3 R/3 Cable Sizing XX-E-006 R/0 NC Load Flow and Voltage Drop Study NK-E-001 R/0 Class IE Voltage Drop Study e

l 1

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FORM KEF E 303-2, REV. 0950

+

CALCpm.

XX-E-011 CALCULATION SHEET a

sneer 5 or 23 ORIGINATOR: & [~ f,, DATE:y 3-94 VERIFIED BY: 114 -t.DATE: 2-3-y

^

IN INDEX OF

REFERENCES:

1-E-11NG20 R/12 - Motor Control Center Summary 2-E-11NG21 R/1 - Motor Control Conler Distribution Penel Summary 3-E-11PG20 R/14 - Motor Control Center Summary 4-E-11PG21 R/12 - Motor Control Center Distrubution Penel Summary 5-Nebonel Electncel CoC4 (NEC)1990 6-IPCEA P-46-426 - Power Cable Ampacities 7-IPCEA P-54-440 - Ampecibes U blos in Open-Top Cable Troys 8-E-17000 R/57 - Elodncel Termiriation List 9-E-15000 R/60 - Electncel Cable and Racewey Ust 10-lEEE Std 384-1974 -Trial Use Standard Criteria for Separation of Class IE Circuits and Equipment 11-10 CFR 50 Appendix R - 1989 12-Reguietory Guide 1.75 R/2, Sept 1978 - Physical independence of Electrical Systems 13-NRC Letter. Docket No. 50-482 - Request fo. Additional Information Rogerding Generic Letter 92-08 14-E-11018 R/1 - Fire Hazard Analysis Fire Wrap Ust 15-E-03AB26 R/7 - Mein Steam isolabon Velves 16-E-03AB27 R/8 - Main Steam isolabon Velves 17--E-03AB30 R/6 - Main Steam & FDW lsolehon Velves 18-E-03AL01B R/5 - Motor Driven AFW Pump B 19-E-03ALO9 R/2 - Misc Circuits 20-E-03BM00 R/2 - Steam Gen Drain Pumps 21-E-13CG01 R/0 - Condenser Vacuum Pump 22-E-03EM06 R/6 - Boron injechon Recirc Pump 23-E-03EM07A R/2 - Boron inj Tonk Hesters 24-E-03EM10 R/3 - Boron inj Tnek iso Velve 25-E-03EM17 R/3 - BIT Inlet Bypass Throttle Velve 26-E-03FB01 R/4 - Aux 8 teem Desertor Pumps 27-E-03GE12 R/4 - AUXlLIARY STEAM DEAERATOR PUMP 28-E 03GF01 R/4 - Aux Feedwater Pump Room Cooler Fan 29-E-03GF06 R/8 - CONDENSER AIR RMVL FILTRATION DISCH FANS 30-E-03GF07 R/5 - Main Steam Enclosure isolobon Dempers 31-E-03GF13 R/6 - Main Steam Enclosure Misc Dempers 32-E-03GF14 R/2 - MISCELLANEOUS MOTOR SPACE HEATERS 33-E-03GK16 R/6 - ACCESS CONTROL EXHAUST FANS 34-E-03GK20 R/4 - CONTROL BUILDING HVAC UNIT HEATERS 35-E-03GLO2 R/2 - Aux Bldg Supply Air Unit Supply Dampers 36-E-03GL10 R/3 - CONT AIR SUPPLIES HOT / CHILLED WTR CONT V 37-E-03GL15 R/5 - AUXILIARY BUILDING UNIT HEATERS 38-E-03GL18 R/8 - AUX / FUEL BLDG NORM EXH FAN LOW DISCH FLW 39-E-03GS11 R/3 - Containment Atmosphere Monitor isoletion Velve j

40-E-03GT06 R/4 - Containment Purge Supply Exhaust isoletion Demper 41-E-03QJ10 R/4 - HEAT TRACING DISTR CABINET POWER SUPPLY 42-E-03RP15 R/3 - Lockout Relay Control Circuits RP334/335 l

43-E-03SA26 R/4 - SYS LEVEL WINDOW ACTUATION RESET SWITCH 44-E-13AB03A R/0 - MAIN STEAM LINE DRAIN VALVE 45-E-13AB03B R/0 - MAIN STEAM LINE DRAIN VALVE 46-deleted i

47-E-13AB17 R/0 - Steam Wormup to TDAFW Pump 48-E-13AB23A R/0 - Main Steam isoiebon Bypass Velve l

49-E-13AB238 R/0 - MAIN STEAM ISOLATION BYPASS VALVE 50-E-13AB28 R/1 - Main Steem isolobon Velve Contro!

51-E-13AB29 R/0 - Main Steam isolobon Velve Control 52-E-13AE05 R/0 - 8 teem Gen Ammonie & Hydrazine inject Velve 4

FORM KEF.E-303 2. REY. o990

+

CALC NO.

XX-E 011 -

CALCULATION SHEET WA

,,,,o, 0 OF M SHEET ORIGINATOR:1,[L DATE:y.3.g VERIFIED BY: 1%LLDATE: g.3-ty s

~

53--E-13AE14 RIO - FW lsolation Valve Fast Close 54-E-13AE15 R/0 - FW isolaten Valve Fast Close

$5-E-13AE16 R/0 - FW loolation Valve Control 56-E-13AE17 R/0 - FW isolation Valve Control 57-E-13ALO2A R/1 - Motor Operated Valve 58-E-13ALD2B R/1 - MOTOR OPERATED VALVE I

$9-E-13ALO4A R/1 - Supply From ESW System 60-E-13ALO4B R/1 - SUPPLY FROM ESSENTIAL SERVICE WATER SYS 61-E-138824 R/0 - PRESSURIZER HEATER BACKUP GROUP B 1

62-E-13BG17 R/0 - LETDOWN LINE ISOLATION VALVE 63-E-13BM06A R/0 - SG blowdown to Flash Tank Iso Valve i

64-E-13BM06B R/0 - SG blowdown to Flash Tank iso Valve 65-E-13BM06C R/4 - SG blowdown to Flash Tank iso Valve 66-E-13EF01 R/0 - ESW TO AIR COMPRESSORS ISOLATION VALVES 67-E-13EM02 R/1 - Boron injection Tank Disch & Inlet iso Valve 68-E-03EM06 R/6 - BORON INJECTION RECIRCULATING PUMPS 1&2 69-E 13EM13B R/0 - SAFETY INJECTION PUMP TO HOT & COLD LEGS 70-E-13EM14 R/1 - ANNUNCIATOR AND INSTRUMENTATION 71-E-13FC20 R/0 - AFWPT STEAM LN DRAIN STRAINER BYPASS VLV 72--E-13FC21 R/1 - AFWPT STEAMLINE WATER TRAP DRAIN VALVE

{

73-E-13FC27 R/0 - SGFP TURB1NES A & B ISLN UNPUT TO ESFAS l

74-E-13GA01 R/0 - PLANT HEATING SYSTEM HOT WATER PUMPS 75-E-13GE18 R/0 - CONDENSER AIR REMOVAL FILTRATION DAMPERS 76-E-13GK07 R/0 - MISCELLANEOUS DAMPERS 77-E-13GK31 R/0 - FIRE SIGNAL ISOLATION 78-E-13GL17 R/1 - NORMAL EXHAUST FANS 79-E-13GN05 R/0 - Misc Instrumentation 80-E-13GT04 R/0 - Shutdown and Mini Pur9e Containment iso Damper 81-E-03JE03 R/S - FIRE SIGNAL ISOLATION RELAY 82-E-13KF02 R/0 - CRANE, HOIST & ELEVATOR SYSTEM 83-E-13LE11 R/0 - COND PIT / AUX FDW PMP RM SUMP AIR OPR PMP 84-E-13QA01 R/2 - Normal Lighting System 85-E-13QN01 R/1 - WELDING RECEPTACLES 86-E-13RP09 R/2 - Misc Control Panel Circuits 87-E-13SA33 R/0- Misc inputs 88-E-13SD05 R/0- AREA RADIATION MON LOCAL MON POWER SPLY 89-E-11012 R/7 - BILL OF MATERIALS AUXILIARY RELAY RACK 90-E-093-00057 R/W16 - AUXILIARY RELAY RACK WIRING RP266 91-E-093-00058 R/W21 - AUXILIARY RELAY RACK WIRING RP266 92-E-093 00043 R/WO4 -IM AUXILLARY RELAY RACK 93-E-093-00065 R/WO16 - AUXILIARY RELAY RACK WIRING RP331 94-E-093-00069 R/WO7 - AUX RELAY RACK WRG PNL & FAB AB007 8 & 9 95-J-113A-00465 R/WO7 - IM F/ INVERTER SYSTEM 96-E-057 R/8 - Spec for 600 Volt Copper Control Cable 97-E-057A R/2 - Spec for 600 Vot Copper Control Cable 98-E-057B R/S - Spec for 600 Volt Copper Control and Power Cable 99-E-058 R/12 - Spec for 600 Volt Single and Multiple Conductor Copper Power Cable (100-E-06@ Spec for Coaxial Cable Dj 101-E-061 R/5 - Spec for Thermocouple Extension Cable 102-E-062 R/7 - Spec for 600 Volt Shielded instrumentation Cable 103-E-062A R/0 - Spec for 600 Velt Shielded Instrumentation Cable A

FORM KEF-E.3o3-2. REV. 0990 CALC No.

XX-E 011 CALCULATION SHEET N/A

,,,,o, SHEET 7 OF25 ORIGINATOR: {, 7, QDATE: g.g VERIFIED BY:QAhmDATE: 2.-3-F/

l

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IV PURPOSE OF CALCUt.ATION:

Concems have arisen in the industry with the ampacity dorating of cables that are located in cable tray which is insulated with Thermo-Lag 330-1 fire wrap. This calculation is being performed to address the issue of ampacity derating for cable tray insulated with Thermo-Lag associated with IEEE-384 and 10 CFR 50 Appendix R.

I This calculation will determine the ampacity margins of the cables inside the applicable cable trays. For the purpose of this calculation, ampacity margin is the percentage of extra cable ampacity while the cable is loaded at the continuous l

I value. The ampacity margin will not include any affects of the Thermo-Lag.

The ampacity margins will be compared to empacity derating factors for Thermo-Lag which are listed in calculation E-F-11 Revision 1. The ampacity margins will also be compared to test results from Tennessee Valley Authority (TVA) and Texas Utilities (TU). It is expected that the test results of TVA and TU will be utilized by NUMARC for industry ampacity derating criteria.

V DESIGN INPUTS, ASSUMPTIONS. AND METHODOLOGY:

The design inputs, assumptions, and methodology have been based on the concept of ampacity derating. Ampacity derating is performed as to not degrade the life of the cable. The affect of improper ampacrty derating does not result in an immediate failure of the cable under normal conditions; instead, the life of the cable will be decreased exponentially due to the temperature of the insulation beira higher than rated.

The ampacity margins determined from this calculation will be based on nominal systemvoltages_ The maximum system voltage does not exist on the system for extended periods. The nominal voltage will be considered an average voltage value of the system for the Irfetime of the cables. Furthermore, a general assumption for a high voltage is not conservative for constant KVA devices.

This calculation addresses all cable tray applications as identified in Attachment 1. This list of Therno-Lag applications was gathered from design documents and field walkdowns. All cable trays with a service level which designates instrumentation and control cables were removed from the detailed evaluation. These cables do not carry a significant current and do not warrant a detailed investigation. Also, the Thermo-Lag applications which only employ a 6 inch cr less fire wrap are eliminated from the evaluation due to the short length. It is assumed that negligible temperature rise will occur and conservatism is built into the ampacity of cables which will envelope this situation.

All power service level trays will be investigated. The instrumentation and control cables within the power cable trays will not be evaluated. The l&C cables will not add significant heat into the cable tray. Furthermore, the l&C cables will help to dissipate heat from the power cables because the thermal conductivity of the l&C cable is higher than that of air. All power cable tray applications are listed in Attachment 2. This calculation will not evaluate non-continuous loads which are seldom energized (such es MOVs).

i For may applications, the load data from E-11NG20, E-11NG21, E-11PG20, and E-11PG21 was used to determine FLA.

The load data for these documents were acquired from vendor data sheets. These values will be considered as acceptable for this calculation.

An ambient temperature of 50 degrees Csis,lus is used. This is the maximum value of ambient temperature for the cables as specified in purchase specifications for the power cables.

The motor space heaters are normally cn when the motor is off. To be conservative, it is assumed that these motors are off continuously; therefore, the ampacity dersting should be applied to these unless further analyzed to determine that the circuits are not normally energized.

There are TWO motor operated valves (ALHV09, ALHV11)which utilize modutronic controllers. These valves would need to be analyzed if they were continuously powered, but these valves are only operating when the Auxiliary Feedwater

PORM KEF-FJol-2. REV. o990

+

CALC NO.

XX-E-011 CALCULATION SHEET WA pg go, swerr 8 OF 25 ORIGINATOR:M f,M DATE: J.-5.$if VERIFIED BY: M A,)__.

DATE: t.3 99 Pumps are in operation. The AFW pumps will normally on!y operate during a test or accident condition. Therefore, these cables do not supply continuous power to the valves.

There were two schemes (16QNG01FA,16QNG01LB) which supply power to welding receptacles. These receptacles are rarely used. These schemes will not be analyzed, since they are not considered continuous loads.

There are three schemes (16 GLY 15LA,16 GLY 15LB,16GKG20LA) which supply power to building unit heaters. These circuits will only be energized during cold weather, and they use temperature switches to cycle during the cold weather.

Therefore, these circuits will not be energized continuously and will not be evaluated for ampacity derating.

There is a sump pump on scheme 16 LEY 11FA. This sump will only operate when the water level in the sump pit is high enough to tum the sump on. This load is not considered continuous and will not be evaluated.

There are two schemes (16KFG02PA,16KFG02RA) which supply power to the main steam relief and isolation valve hoist. This load is not considered continuous and will not be evaluated.

There is a heat trace circuit on scheme 160JG10BA. This heat trace circuit will only operate during cold weather and also uses temperature switches. This circuit is not considered continuous and will not be evaluated.

When using IPCEA P54-440, the outside diameter of the cable is used for a correction factor to the table information.

Some of the cables at WCGS are two conductor cables and are not circular. These cables will be corrected using an aversoe of the length and width of the cable to arrive at an approximate cable diameter.

VI SOURCES OF MAJOR EQUATIONS:

There are no major equations used in this calculation. The equations used are primarily from IPCEA P-54-440.

i i

a FORM KEF E 303-2. REV. 09/90 CE NO.

XX-E-o11

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CALCULATION SHEET WA p,,o, SHEET 9 OF M ORIGINATOR: g, j' g,DATE:y.g.g VERIFIED BY: Q DATE: 23 y g

/-

Vil CALCULATION:

The following calculations are derived from IPCEA P54-440 Second Edition. This standard is used to determine the ampacities of cables in open-top cable trays.

The results of the calculation formula and methodology from the calculation are used to determine the results. The following equation process was used for each application. The equations are not shown for each application; instead, the result of the equation is shown.

• The depth of cables in trays is calculated using the formula as specified in calculation E - F-2.

D = % tray fill x tray depth r/4

• A:npacity at 40 deg C frorn applicable table using straight line interpolation DD I=Iw nw.

• (I " '"" *** ~ I * *'*" *)

D D

• Temperature Correction for 50 degrees Celcius I = Iw e x 0.9(h mW mm2APM. M0) eCorrection for Cable O.D. and No. of Conductors D

I=

x Imm x 43/ n Dw m n= number of conductors

• Ampacity Margin (AM) y3 r

AM = 100% x 1-Iww a

The following pages utilize the above equations to arrive at an empacity margin.

l 1

4 FORM KEF E-303 2, REY.W99 Attenhment 4 to %% XX-E411 cm *m.n m oo CALC NO. X (- E -o //

Sheet 1 of 12 CALCULATION SHEET PMR NO. N/A SHEET A OF 23 ORIGINATOR: &,,, f, Co DATE:y.y pg VERIFIED BY: 11,(L DATE: g.3 9./

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VE. CALCULATIONS foonlinuad1.

CaWe Trey 111U1K01 Scheme 110FG01AA Catdo % Fa 22.20 No ofl&C Cabios 13g No. of Power Cahies 8

FLA of Cable 23 amps From E-11NG20 Cable Code G36

=

3/C 96 AWG Depth of Cable h Troy D=

1.13 inches Ampacity et 40 dog C from applicable table using straight line interpolation i

i=

51.50 amps Temperature Correchon for 50 dog C la 4 43 emps Correchon for Cable O.D. and No. of Corductors I=

51.59 empo AMPACITY MARGIN (AM) FOR SCHEME 11GFG01AA lAM =

66.42 %

i i

Cable Troy 111U1K01 Scheme 11GFY14AA Cable % FE 22.20 No ofl&C Cables 130 No. of Power Cables 8

FLA of Cable 0.5 amps Frorn E-11NG21. I =(60W/120V) = 0.5 amps Cable Code G2A =

2/C #12 AWG Depth of Cable in Tray f

D=

1.13 inches Ampecity at 40 dog C from applicable table using straight line interpolation I=

13.95 amps Temperature Correchon for 50 dog C f

I=

12.56 empo Correchon for Cable O.D. and No. of Conductors I=

14.28 empo j

AMPACTTY MARGIN (AM) FOR SCHEME 11GFY14AA IAM =

96.80 %

I

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Attestuussut 4 to Calcedelion XX4-011

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VE CALCULATIONS feenenesedh Cable Trer 11006039

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Seheme 148tPICetJA casee % FW 15.30 No afl&C CaWes 45 No. af Power CaWes 20 FLA of CeWe 0.1 emps From E-003-00043, E-09340057. E-003 00058, E-11012)

CeWe Code G28

=

2/C 08 AWG Depth of CaWe h Troy D=

0.78 inches i

Ampecity at 40 dog C from opphceble table using straight line interpolation I=

37.00 amps i

Temperature Corrachon for 50 dog C j

ls 33,3 empo Correction for Cable O.D. and No. of Conductors i=

37.42 emps AMPACITY MAftGIN (AM) FOR SCHEME 16RPK90JA

=

CaWe Troy 114US030 Schente 148tP9C00PA t

CaWe % FR 15.30 i

No ofl&C Cabios 45 l

No. of Power Cables 20 FLA of Cable 0.15 amps From E-003-00043, E-093-00005, E-11012 Cable Code G28

=

2/C 08 AWG Depth of Cable in Troy D=

0.78 hches Ampecity at 40 des C from opphcable table using streight kne interpolation l=

37.00 amps l

Temperature Carrachon for 50 dog C l

1=

33.38 arrge Correcton for Cable O.D. and No. of Conductors I=

37.42 emps AMPACITY WUtGIN (AM) FOR SCHEME 168 TPK 90PA B

m 7

POIWA 93F.E4884. HEV. efte to Calculseen XX+011

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s VIL CAU:ULATIONS feanSnuadi:

Cable Trov 11808030 Seheme 14SDV98FA casesu Fu 15.30 No ofl&C Cables 46 No. of Poner E=hA==

20 FLA of Cable 6.67 amps From E.11PG21 -1 = B00VN120V = 6.67 amps Cable Code G2A =

2/C #12 AWG i

Depth of Cabisin Troy

)

D=

0.78 inches Ampecity at 40 dog C from appbceble table using straight line interpolation I=

16.76 amps f

Temperature Comschon for 50 dog C

{

I=

15.00 amps Correcton for Cable O.D. and No. of Conductors I=

17.16 empo I

AMPACfTY MAftGIN (AM) FOR SCHiME 14SDYOSFA r

IAM =

St.13 %

I Cable Troy 11608D30 Scheme 14SKKOSFA Cable % FS 15.30 No of I&C CaWes 45 No. of Power CaWes 20 l

FLA of Cable 19.2 amps From E-15000.J-113A40465 Cable Code G28

=

2/C 88 AWG Depth of Cable ks Troy

-[

D=

0.78 inches Ampecity at 40 dog C from applicable table using straight line interpolation

[

l=

37.00 amps Temperature Correctan for 50 dog C

{

l=

33.38 empo Correcton for Cable O.D. and No. of Conductors i

1=

37.42 emps i

l AMPACITY MARGIN (AM) FOR SCNEME 16SKK08FA i

i i

IAM =

48.70 %

l i

M W M E.SSS Attsoeunent 4 to h% XX-E-011 h a'**a 00 CALC NO. YY-E oi /

Shoot 4 of 12 M N N SHEET PMR NO. M/4

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SHEET /3 OF.2 Y_

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M feendnuedl; CaMe Trav 114U8030

.j Sahome StelfYteEA I

cases u rs 15.30 No dI&C CaMes 45 No. d Power Cables 20 FLA of Cable 0.04 emps From E-11PG21 -l = 5W/120V = 0.04 amps Cable Code G2A =

2/C #12 AWG Depth of Cable h Troy

)

D=

0.78 inches Ampecity at 40 dog C from applicable tobie using straight line interpolation I=

16.78 amps Temperature Correctan for 50 dog C 1=

15.00 amps Correcton for Cabis O.D. and No. of Conductors i

i=

17.16 empe AMPACbY MARGIN (AM) FOR SCHEME 16GNYS$5A a

CaMeTrey 116U8030 Scheme 144LY915A Cabis % FE 15.30 No of l&C Cables 45 No. of Power Cables 20 FLA of Ceble 6.67 amps From E-11PG21. I = 800W/120V = 6.67 amps Cabio Code G2A =

2fC #12 AWG Depth of Cabis in Troy D=

0.78 hohes i

a Ampecity et 40 dog C from applicable tobio ushg streight line interpolation I=

16.76 amps Tenpershne Correcton for 50 dag C l

I=

15.00 amps l

Correcton for Cabis O.D. and No. of Conductors 4

1 i=

17.16 empo AMPACITY MARGIN (AM) FOR SCHEME 14ALYD15A i

LAM =

01.13 %

1 3

1

a FORM KEF E 383-2, REV. 940 to Calculation XX-E-ot t cmuseon m oo CALC NO. Y Y-C-o f I Sheet 6 of 12 PMR NO. M/A CALCULATION SHEET SHEET

/4 OF23 ORIGINATOR: L, (, h DATE:y.j,qg VERIFIED BY: 1 % % t._,,

DATE: e. 3-9y

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R CALCULATIONS (continued):

Cable Troy 1180$D30 Scheme 16RPK000A Cable % Fs 15.30 No ofl&C Cables 45 No. of Power Cabios 20 FL.A of Cable O.C9 amps From E-00340043, E-093 00069, E-11012 Cable Code G21

=

2/C #10 AWG Depth of Cable in Troy D=

0.78 inohes Ampacity at 40 dog C from applicable table using straight une interpolation I=

24.20 smps Temperature Correcton for 50 dog C I=

21.78 amps Correchon for Cable O.D. and No. of Conductors I=

25.27 emps AMPACITY MARGIN (AM) FOR SCHEME 16RPK09UA LAM =

99.64 %

l Cable Troy 116USD30 Scheme 16F9001DA Cable % F4 15.30 No ofl&C Cables 45 No. of Power Cables 20 FLA of Cable 19 amps From E 11PG20 Cable Code G36

=

3/C 86 AWG Depth of Cabis in Troy D=

0.78 inches Ampechy et 40 dog C from opplicable tabio using straight line interpolation I=

80.73 amps Temperature Correchon for 50 dog C la 54.86 amps Comebon for Cable O.D. and No. of Conductors I=

60.73 emps AMPACITY MARGIN (AM) FOR SCHEME 16FBG01DA

[

IAM =

48.71 %

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F0ful NSF44084,IIEV.See Antenhame a se casmsselon xX-E411 j

cosmnaem nam n oo CALC NO. XX-E -O t i e

shoot e et in CALCULATION SHEET PMR NO. MA SHEET 10F 23 ORIGWATOR: f3m, 7, g,.

DATE:p3.yg VERFIED BY: 1% hh,_

DATE: 2. 3-w

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i' VE. CALCULATMMS dannenuadt-f CaMe Trey 11408000 Sahome 180E0125A ceMe % Fs 15.30 No ofl&C CaWes 45 No. of Power CaWes 20 I

FLA of CeWe 4.8 emps From E-11PG20 CeWeCode G3D =

SIC #12 AWG Depth of CaWein Troy

-)

D=

0.78 inches

{

Ampecity at 40 dog C from opplicable table using straight line Interpolation 1=

16.76 amps i

Temperenne Correcton for 50 dog C I=

15.00 amps j

Correchon for CeWe O.D. and No. of Conductors l

l l=.

17.24 emps AMPACITY MAftGIN (AM) FOR SCHEME 16GEO125A i

CaMeTray 11608030 l

Scheme 100FG085A CaWe % FB 15.30 j

No ofl&C CaWes 45 No. of Power Cables 20 l

FLA of Cable 32 anys From E-11PG20 CaWe Code G34 =

SfCMAWG J

Depth of CaWe in Troy

{

t D=

0.78 inches Ampecity at 40 dog C from applicable table using straight line interpolation i

i=

84.93 amps Temperature Correcean for 50 des C 1

]

1=

76.44 emps Correcean for Cable O.D. and No. of Condumors I-84.08 emps AMPACITY MAftGIN (AM) FOR SCHEME 14GFOSSSA IAM =

81.94 %

I 1

FORM KEF E-303-2, REV. W80 to Cakadetion XX-E 011 C * * *** *

• CALC NO. XX-E -O//

~

Sheet 7 of 12 CALCULATION SHEET PMR NO. A//4 SHEET

/(a OF 23 ORNNNATOR: 3m f' 6, DATE:y y pg VERIFIED BY: 1% A.L_,

DATE: a.3.y VIL CALCULATION 8 foongnuadt:

CaWe Troy 114U8030 Scheme 14EMOO75A catdo % Fu 15.30 No dI&C CaWes 45 No. d Poner CaWes 20 FLA of Cable 7.5 amps From E-11NG20 Cable Code G3D =

SIC #12 AWG Depth of CeWe in Troy D=

0.78 inches Ampecity at 40 dog C from applicable table using straight hne interpolation I=

16.76 amps Temperature Correchon for 50 dog C I=

15.00 amps Correcton for Cable O.D. and No. of Conductors I=

17.24 emps AMPACITY MARGIN (AM) FOR SCHEME 18EMG07BA IAM =

S4.50 %

I Cable Troy 114USD30 Scheme 160KG14BA Catdo % Fe 15.30 No ofl&C CaWes 45 No. of Power CaWes 20 FLA of Cable 19.8 amps From E-11PG20 Cable Code G36

=

3/C #6 AWG Depth of Cable in Tray D=

0.78 indes Ampecity at 40 dog C from opplicable table using straight line interpolation I=

00.73 emps Terryerature Correchan for 50 dog C 1=

54.86 amps Correcton for Cable O.D. and No. of Conductors 4

I=

60.73 empo AMPACfTY MARGIN (AM) FOR SCHEME 16GKG16BA lam =

s7.40 %

i

FORM KEF E 383 2, REV. 340 to Cahndation XX-E olt

""'

• N CALC NO. Y Y-E -o //

sh teet12 CALCULATION SHEET PMR NO. AI A SHEET

/7 OF.2.3_,,

ORIGINATOR: L, f, g,,,, DATE: hJ.94l VERIFIED BY: (%L,--l._m DATE: 2 3 - T'/

(

VR. CALCULATIONS fogntinued):

Cable Troy 114USE30 Scheme 10 GLY 1998 Catdo % FB 8.70 No of R&C Cables 2

No. of Fower Cables 11 FLA of Cable 0.42 emps From E-11PG21 -l = 50VA/120V = 0.42 amps Cable Code G2A =

2/C #12 AWG Depth of Cable in Troy D=

0.44 inches Ampacity at 40 d*0 C from oppucable table using straight line interpolation I=

19.45 amps To nperature Corrachon for 50 dog C 1=

17.51 amps Correchon for Cable O.D. and No. of Conductors I=

19.91 amps AMPACITY MARGIN (AM) FOR SCHEME 16 GLY 1088 I AM =

97.89 %

1 Cable Trey 114USE30 Scheme 1GGLG17BA Cable % F2 8.70 No ofI&C Cables 2

No. of Power Cables 11 FLA of Cable 124 amps From E-11PG20 Cabio Code G3B

=

3/C 2/0 AWG TRI Depth of Cable in Troy D=

0.44 inches Ampechy at 40 dog C from opplicable table using straight line interpolation I=

232.76 amps Temperature Correchon for 50 dog C l=

209.49 amps Correchen for Cable O.D. and No. of Conductors I=

223.35 emps AMPAO!TY MARGIN (AM) FOR SCHEME 16GLG17BA BAM =

44 48 %

l

m

=

ponM seF a. ass.a.new.ame Ameshment 4 to Calendmenen XX-E 011 1

C'********

CALC NO. _ X X -E -e II l

Sheet 8 of 12 CALCULA N SHEET PMR NO.1//4 l

SHEET,,f.j_., OF E N TOR * & m fWm DATE y.3,9g VERFED BY: 1 b L-t DATE: 7 5W l

}

/

r -

VIL CALCUMTIDids lequemmadt:

1 5

Cable Trey 11000E30 Scheme 1GOLG1785 came M Fs 8.70 No ofl&C Cables 2

i No. af Power Cabios 11 FLA of Cabia 124 amps From E.11PG20 Cable Code G38

=

Sic 2/0 AWG TRI i

Daph of Cebis b Troy I

D=

0.44 inches 5

Ampecity at 40 dog C from oppbceblo table using etteight line interpolation Ia 232.78 amps l

Tempereiwe Correcton for 50 des C l

i 1=

M.40 amps

.l Correcton for Cable O.D. and No. of Conductors I

1=

223.36 emps AMPACITY MARGIN (AAA) FOR SCHEME 10GLG17BS i

RAM =

44.48 %

I f

Cable Troy 116USE30 i

Scheme 10 GLY 10BA Cable % FR 8.70

.[

No ofl&C Cables 2

l No. of Power Cables 11 FLA of Cebio 0.42 amps From E.11PG21 -1 = 50VAf120V = 0.42 emps t

Cable Code G2A =

2/C #12 AWG t

Depth of Cable in Troy l

D=

0.44 inches i

Ampecky at 40 dog C from oppbceble table using straight line interpolation f

I=

19.45 emps Temperoews Correcton for 50 dog C f

l=

17.51 errgs I

Correcton for Cable O.D. and No. of Conductore I-19,91 emps l

AMPACfTY MARGIN (AM) FOR SCHElfE 16 GLY 10BA RAM =

97.89 %

i j

i i

J l

FORid MEF44084, REV.Sf00 An sh nt 4 m casouisii.n xx-sci 5 l

+

" * ***6"a80 CALC NO. YX - E -o //

2 4

Sheet 10 of 12

(

CALCULATION SHEET PMR NO. A/!J i

SHEET

/9 OF 2 3 l

NTOR:

f DATE:2-J.d VERIFIED BY: 1 % %t,, _ DATE: z-3-y o

m

/

/

VIL CALCULATIONS famaNamadi:

[

t Cable Troy 114USE30 l

Scheme ~ 180KO14AA l

come um s.70 t

No ofI&C Cables 2

'I No. of Power Cables 11 FLA of Cable 8.36 amps From E-15000,J-113A4M05 i

Cabio Code G3D =

SIC #12 AWG Depth of Cabis in Troy D=

0.44 inches v

Ampacity at 40 dog C from applicable table using straight line interpolation f

I=

19.46 amps r

Temperature Correcton for 50 dog C i

i=

17.51 amps i

Correcton for Cable O.D. and No. of Conductors l=

20.01 empe i

i AMPACITY MAltGIN (AM) FOR SCHEME 1SSKG10AA l

=

i Cable Troy 116U8E30 4

Scheme 1SSKO10CA i

Cable % FB 8.70 l

No of S&C Cables 2

No. of Power Cables 11 FLA of Cable 11 amps From E-15000.J-113A4M05 Cabio Code G2A =

2/C #12 AWG i

Depth of Cabis in Troy i

)

D=

0.44 inches Ampeelty at 40 dog C from applicable table using straight line interpolation 1=

19.45 amps j

i f

Tertparature Correcelan for 50 dag C I=

17.51 amps t

Correcton for Cable O.D. and No. of Conductors l=

19.91 emps l

AMPACfTY MAftGIN (AM) FOR SCHEME 14SKG10CA

=

i l

l t

I t

?

I 1'

Foses MEF4403 8, REV. Af80 Attachement 4 to Celsulation XX-E o11 cala**=a a**laa 00 CALC NO. YX-E -0/ /

Shoot 11 of 12 CALCUI.ATION SHEET PMR NO. A//4 SHEET 20 OF.JojL ORIGINATOR: 3, f, g _ y DATE*,2-3-1/l VERIFIED BY: 1 %/LM,m DATE: 2-3-99 g

VIL CALCULAfl0NS faenAmundt:

Caldo Tror 1100SE30 Scheme 16 SKY 1904 Gette % FE 8.70 No of I&C CaMes 2

No.of PowerCaWes 11 FLA of Cable 41.7 amps From E-15000, J-113A-00405 CaMe Code G24 =

2/C #4 AWG Depet of CaWe in Troy D=

0.44 inches Ampacity at 40 dog C from opphceble table using straight Ene interpolation 1=

97.04 emps Temperature Correcton for 50 dog C 1=

87.34 ampo Correction for Cable O.D. and No. of Conductors I=

S4.13 empo AMPACffY MAftGIN (ABA) FOR SCHEME 16 SKY 10DA

=

CaMe Troy 1160SE30 Seheme 1SSKK198A Cane % FE 8.70 No ofl&C Cables 2

No. of Power CaMes 11 FLA of Cable 56 amps From E-15000,J-113M10465 CaMeCode G11

=

1/C 1/0 AWG Depth of Cable h Troy D=

0.44 inches Ampecity at 40 dog C from applicable table using straight hne interpolation I=

152.06 angs Terryerature Correcean for 50 dog C 1=

136.86 emps Carrooton for CaWe O.D. and No. of Conductors i=

148.66 empo AMPACITY MARGIN (AM) FOR SCHEME 16SKK108A 1Au =

62.33 %

i 4

-_J

. ~.

~-

E h

a to Ph% XX E 011

***0' CALC No. XX-E -DI/

Sheet 12 of 12 CALCULATION SHEET PMR NO.

l A

SHEET 21 OF 2 F.

ORIGINATOR: &,, f 7,,

DATE: y -J.pf VERIFIED BY: 14 A L_..m DATE: 2 3-?<f 6

y vlL CALCULATIONS feonEnuadi:

CaMe Trav 116USE30 l

SMia e 1.sxK1 cante % Fs 8.70 No dl&C Cables 2

No.of PowerCables 11 FLA of Cable 56 amps From E-15000,J113A-00486 Cabio Code G11

=

1/C 1A) AWG Depth d Cable in Trey D=

0.44 hohes Ampecity at 40 dog C from applicable table using straight line interpolation 1=

152.06 emps Temperature Correcton for 50 dog C l

1=

136.86 amps Correcton for Cable O.D. and No. of Conductors

?

1. -

148.65 amps.

AMPACITY MARGIN (AM) FOR SCHEME 16SKK1085 IAM =

63.33 %

l i

Cable Trey 11605E30 Schanie 14QAGdHCA

.I Cable % FR 8.70 i

No of l&C Cables 2

No. of Power Cables 11 i

FLA of Cable 56.5 amps From E-11PG20 Cable Code G3C =

3/C #2 AWG Depth of Cablein Tray D=

0.44 inches Ampacity et 40 dog C from applicable table using straight line interpolation j

i=

136.72 amps Temperature Corrooton for S0 dag C j

i=

122.15 amps Correction for Cable O.D. and No. of Conductors i=

136.20 empo AMPACfTY MARGIN (AM) FOR SCHElfE itGAG01CA IAM =

58.52 %

I

~ __

m u n u.n m.1. nu v.e m

+.

(lWu.C NO.

XX-E.011 CALCULATION SHEET w4 anenT 22 OFfJ ORIGINATOR:g f 7kDATE:j.3 g VERIFIED BY: Z b ( --L-DATE: z.E y

/

' ~

Vill RESULTS AND CONCLUSIONS:

Of the 3 trays which were evaluated for empecity margin one (111U1K01) has a three hour rated fire wrap one two (116USD30,11605E30) have a one hour rated Are wrap. All applications are installed as required by 10 CFit 50 i

Appendix R. The three hour fire wraps are safety-related applications, and the one hour wraps are non-safety reistad applications. The following shows all of the empacity margins for each of these configurations.

Cable Trey 111U1K01 (App R - 3 Hr)

{

Scheme 11GFG01AA 55.42% Ampecity Margin Scheme 11GFY14AA 96.50% Ampecity Margin Cable Trey 11605D30 (App R - 1 Hr)

Scheme 16RPK09JA 99.73% Ampecity Margin Scheme 16RPK09PA 99.60% Ampecity Margin Scheme 16SDY06FA 61.13% Ampecity Margin Scheme 16SKK06FA 48.70% Ampacity Margin Scheme 16GNYO5BA 99.77% Ampecity Margin Scheme 16ALYO1BA 61.13% Ampecity Margin Scheme 16RPK09UA 99.64% Ampecity Margin l

Scheme 16FBG01DA 68.71% Ampacity Margin Scheme 16GEG12BA 72.16% Ampacity Margin 8

Scheme 16GFG06BA 61.94% Ampacity Margin i

Scheme 16EMG07BA 56.50% Ampecity Margin Scheme 16GKG16BA 67.40% Ampecity Margin Cable Trey 11605E30 (App R - 1 Hr)

Scheme 16 GLY 10BB 97.69% Ampecity Margin Scheme 16GLG17BA 44.48% Ampecity Margin Scheme 16GLG1788 44.48% Ampecity Margin 1

Scheme 16 GLY 10BA 97.69% Ampacity Margin Scheme 16SKG10AA 58.22% Ampecity Margin l

Scheme 16SKG10CA 44.76% Ampecity Margin Scheme 16 SKY 10DA 55.70% Ampecity Margin i

Scheme 168KK10BA 62.33% Ampecity Margin Scheme 16SKK10BB 62.33% Ampecity Margin l

Scheme 16QAG01CA 58.52% Ampacity Margin l

The following list is the available results from various organizations. Attachment 3 provides more information concoming those results.

I t

i Organization Texax Utilities Tennessee Valley Underwriter's UL with IPCEA 2

Authority Laboratory (UL) values for baseline 1 Hour Tray 32%

12.5 %

28.04 %

12.5 %

3 Hour Troy 20.5 %

31.15 %

16.3 %

i The results from the empecity daratmg tests range from 12.5% to 32% for the 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> trays. The worst case empacity margin as seen above for a 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> fire wrap for WCGS is 44.48%. This value is conservative compared to all of the test figures shown above. The worst cose 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> fire wrap empecity margin as seen ateve is 55.42%. Again, this value is conservative compared to the test figures shown above.

I WCGS has a calculation E-F-11 R/1 which determines ampacity doratings for cable tray with Thermo-Lag 330-1. The values in that calculation are a multiplying factor and not a dorating factor. When the multiplying factors are converted to l

l l

i a.

I PORM KEF-E 303 2. REV. 09/90

+

CALC NO.

XX-E 011 CALCULATION SHEET N/A pyg yg, sw.eT 23OFfg ORIGINATOR:h,, f [zDATE: y.y.g VERIFIED BY: QQ -f, DATE: 2-5 -94

(

dorating factors tiie worst case is 32.8% and 21.2% for 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> and 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> applications, respectively. The values of ampecity margins calculated in this calculation are very conservative compared to these results.

WCG8 only has two safety related schemes in cable trays which require ampacity dorating.

I Therefore. WCGS does not have any concern with the cable trav conflouration of the clant for aree9rderatina McM-*M with ThermoJ =a ?M-1 fire wreeNw fusina information which is a;;; div ave!!?Mel.

I a

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0 0 E-1394068 Centred Cable 119MKOOCA CO2 0

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0 0 E-13AE17 Central CsMe 11AEK179H COS 0

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0 0

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0 11AOK798H COS O

0 0 E-13A929 Ceneret CaMe 11ALVOSCS G29 20 90001SDR1 ALHVOS E43ALOS. E-1190G20 8Anduerenie CentreBur 120VAC, IPh Muse eensinsees imm4 11ALYO9CC CO2 0

0 0 E-03ALOS Centree CaMe 11ALYO900 G28 20 800010DR2 ALHV11 E43ALOS. E-1190G20 Meduirente CenereAur 120VAC, TPh Ones>eeneinsson lead 11ALVOSOC C02 0

0 0 E43ALOS Central CaMe 11 AOK17CA C05 0

0 0 E-13AS17 Ceneret CaMe 11A8K17DA C06 0

0 0 E-13A017 Ceneral CaMe 11AOK29AH COS O

O O E-13AB29 Centrol Calde 118AZ137A 0

0 0

0 0

0 118AZ130A O

O O

O O

O 115AZ23PA 0

0 0

0 O

O 118AZ230A 0

0 0

0 0

0 115 AZO 5TA 0

0 0

0 0

0 115A206UA 0

0 0

0 0

0 115 AZO 5MA 0

0 0

0 0

0 115 AZO 5YA 0

0 0

0 0

0 11SAZ13HA 0

0 0

0 0

0 11A8K26AK CO2 0

0 0 E 03AS20 Central CaMe 11A8K30AR CO2 0

0 0 E43AS30 Centrol Cette 11AEK14AK CO2 0

0 0 E-13AE14 Cnneral CaMe 11AEK14AN CO2 0

0 0 E-13AE14 Central CaMe 11 A8K30Aff CO2 0

0 0 E-03AB30 Central Cable

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

~

~

.. to Calculation XX-E-011 Calculation Revision 00 Sheet 4 Of 6 fray FW CeMe Type FLA Frene Te Ret Dee Maese 11ASK3GAO CO2 0

0 0 E-03AB30 Comred Ceeds 11A8K03KA CO2 0

0 0 E-13A8038 centrol Calde 11A8K299K CO2 0

0 0 E-03A826 Camres Catdo 11A8K298H C09 0

0 0 E-13A828 Cenerel CeWe 11A8K30AP CO2 0

0 0 E-03A830 Central CsWe 11 AEK05CA C05 0

0 0 E-13AE05 Centrol Calde 11 AER05CA 0

0 0

0 0

0 118MetoeGA CO2 0

0 0 E-138M00C Comrei Calde 11GFY13C9 C07 0

0 0 E43GF13 Centrol Calde 118AZ13VA 0

0 0

0 0

0 11SA219ZA 0

0 0

0 0

0 118AZ23MA 0

0 0

0 0

0 115#I235A 0

0 0

0 0

0 11ASK30AOQ 0

0 0

0 0 insteped but Deisted CeWe

~

11GFM13EA 0

0 0

0 0

O 118U5D30

'15.3 teF8001DA G36 19 PG20GER3 DPF8029 E43F901. E-11PG20 15 Hp. 490 VAC. 3 Ph Aun Stoem Desereter Pteg 16F9001DC CO2 0

0 0 E43F901 Centrol Calde 190EG129A G3D 4.9 PG200CR4 OCGE018 E43GE12. E-11PG20 3 He. 480 VAC 3 Ph Cond Air Removes Fat. 00m. Fan 1988024AA C06 0

0 0 E-138824 C3nered CsNe 1988024AE C07 0

0 0 E 139824 Cme et Ceedo 16GFGG39A G34 32 PG2000F3 DCGF038 E43GFOe. E-11PG20 25 Hr. 480 VAC. 3 Ph Main Steam Stdo Exhaust Fes 10EM007BA G3D 7.5 N004CPF1 T811403 E43EM07A. E-11NG20 6 kW,480 VAC 3 Ph Seren W Tank Hesser 190N001FA G3A 50 PG20G0F6 T814401 E-13ON01. E-11PG20 480 VAC. 3 Ph Weidng Receptedse (21 tx n _._ - leadt 10EMG079C CO2 0

0 0 E43EM07A Cane el Calde 19GKR24P5 0

0 0

0 0

0 190KG169A G36 19.8 PG20NEF2 DCGK029 E-03GK18. E-11PG20 15 Hp. 480 VAC. 3 Ph Aeesee Centrol Enhaust Fet 190LY15LB G2A PG20NOR222 GLTS18 E430L15. E 11PG21 0.33 HPAenelliery Sueding Unit Hoseer inemeentinuous leadt 18 GLY 15LA G2A PG20NOR222 EGLO6C E-03GL15. E-11PG21 0.33 Hp AnnrlEary llullding Unit Houter t= a _

__ leadi 16GKG20LA G36 19.2 PG2OOCF3 EGK10 E-03GK20. E-11PG20 15 kW. 480 VAC. 3 Ph Centret Bede HVAC Unit Hester 16 GAG 018C CO3 0

0 0 E-13GA01 Centret Calde 16 GLY 199C CO2 0

0 0 E43GL18 Centrol Catdo 16ALR00LB O

O O

O O

O 16FCR23CA 0

0 0

0 0

0 10FCR26CA 0

0 0

0 0

0 16SAK26AA CO3 0

0 0 E43sA26 Centrol Ceede 10GFR02GA 0

0 0

0 0

0 10&K09JA G2s 0.1 PK5229 fF206 E-13fW'09. E-0934005785ea43 125 VDC Feeder to Penel RP206 IE-11012 Ref. DecJ -

1eLER070A 0

0 0

0 0

0 16LER07NA 0

0 0

0 0

0 1eLEY11FA G2A 0.42 PC20N9R235 LEHS61 E-13LE11. E-11PG21 50 VA.120 VAC.1 Ph Sump Ineweentinuous leedt 16A8R20AA 0

0 0

0 0

0 16A8R068A 0

0 0

0 0

0 16ARR37AA 0

0 0

0 0

0 m..

a w

,ne.--,

,%t w7 Y

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f

. to Calculation XX-E-011 Calculation Revision 00 Sheet 5 Of 6 Trey FM Cabes Type FLA From To RefDee Neese 16A9R329A 0

0 0

0 0

0 1999R29FA 0

0 0

0 0

0 f eEM00798 C07 0

0 0 E-03EM07A Control cable 18FCR24AA 0

0 0

0 0

0 16FCR26DA 0

0 0

0 0

0 teKFG02PA G31 11.8 PG4 W 1 KF26 E-13KF02. E-11PG20 490 VAC. 3 Ph Main Steam Raset and Isel Vahre Heist Diesteuneinuous lead 10KFG02f%

G31 11.8 PG20H9F2 KF28 E-13KF02 E-11PG20 480 VAC,3 Ph Main Stearn Relief emi test Valve Heist (norHuneinuous leeg 19FCK27DA CO2 0

0 0 E-13FC27 Centrol Cable 16GKK319A CO2 0

0 0 E-13GK31 Centrol Cable 10GKK310A CO2 0

0 0 E-13GK31 Contrel CsMe 18JEK038A CO2 0

0 0 E-13JE03 Control Cable 16M K09PA G29 0.15 PK5213 F331 E-13fr00 E493-00005&43 125 VDC Feeder to Panel IP331 (E-11012 Ref. DeeJ 10GEG129F CO2 0

0 0 E43GE12 Centrol Cable 10GEG1290 CO2 0

0 0 E-03GE12 Control Cable 1eLER11FA 0

0 0

0 0

0 10SOYO5FA G2A 6.67 PG20G8R210 SORIA25 E 138005. E-11PG21 500 VA.120 VAC,1 Ph Aree Red Monitor Peerer Supply 10GJG109A G3R 18.0 NG028JF3 QJ1968 E43OJ10, E-11NG20 490 VAC,3Ph Host Trace in _.._ _. lead 18SKK00FA G28 19.2 PK4218 XSK193 J-113A40465. E-15000 2.0 kVA inverte-19GFG069C C07 0

0 0 E-03GF06 Central Cable 10GNYO58A G2A O.04 PG20N9R239 GNAT 28 E-13GN05, E-11PG21 5 W.120 VAC.1 Ph Cent. Hun 4dity Detooter 199 MOO 998 C07 0

0 0 E-039M09 Centrol Cable 18ALY018A G2A 6.67 PG20G8R242 DPALO18 E43ALO18. E-11PG21 000 W.120 VAC,1Ph Hester 16CGG01AD CO2 0

0 0 E-03CG01 Contral Cable 18CGOD1AE CO2 0

0 0 E-03CG01 Central Cable 10EMY148A CO2 0

0 0 E-13EM14 Ceritret Cable t eRPK15AA C04 0

0 0 E-03r15 Control Cable 199K158A C04 0

0 0 E-03F15 Centrol Cable 190KK31 AA CO2 0

0 0 E-13GK31 Control Cable 16FCK27CA CO2 0

0 0 E 13FC27 Contro1 Cable 18FCK20AA C05 0

0 0 E-13FC2O Contre 1 Cable 10SAR34CA 0

0 0

0 0

0 18EMR14FAA 0

0 0

0 0 Installed but Deleted Cable teEMR14HAA 0

0 0

0 e

0 Insteiled but Deleted Cable 160JR11FAA 0

0 0

0 0 installed but Deleted Cable 16RPKO90A G21 0.09 PK5203 A8009 E-13fqP09E-09340069443 125 VDC Feeder to Panel A8009 (E-11012 Ref. Dee.)

16ABR30AJ 0

0 0

0 0

0 16FCR23C8 0

0 0

0 0

0 119USE30 9.7 180NG01L8 03A 50 PG20HCR1 T814403 E-13GN01. E-11PG10 490 VAC, 3 Pli Welding Receptoeles (2) #2 _.:

lead!

b 10 GLY 1098 G2A O.42 PG20N9R229 GLTS6 E-03Gl.10. E-11PG21 50 VA Centrolled Air Supply for Hett/ Chilled Water Vseve 16GLG17BA G38 124 PG20HDF3 DCGLO38 E-13GL17. E-11PG20 100/45 Hp,490 VAC,3 Ph Normal Exhaust Fan 16GLG1798 G38 124 PG2eHDFJ DCGLO38 E-13GL17. E 11PG20 100/45 Hp,480 VAC 3 Ph Nermal Exhaust Fan 10 GLR 21MA 0

0 0

0 0

0 16 GLY 10BA G2A O.42 PG20N9R229 GLTV6 E-03GL10. E-11PG21 50 VA Centrolled Air Segply for Hott/ Chilled Water Valve

- W 1 to Calculation XX-E-011 Calculation Revision 00 Sheet 6 of 6 Trey FM Cabes Type FLA Feene To IIst Dee Iguese 199KG10AA G3D S.30 PG2000F4 K8K015 4113A-00465. E-19000 3 Phase 199KG10CA G2A 11 PG2000F7 M9K01B S113A-00465. E-15000 1 Phase 189KY100A 024 41.7 SK009 XSK010 S11M40405. E-19000 emporter susput 199KK10BA G11 50 PK8200 M9K018 A113A-00405. E-15000 pee er nos 199KK1098 G11 56 PK8208 X9K010 S113A40405. E-19000 nog er pas 199KQ10AA C07 A113A40485. E-19000 Centret 190AG01CA G3C 56.5 PG20NDR3 XQA11 E-13GA01. E-11PG20 45 kVA 480 VAC 3 Pts Upioens Transfensier 1

.m..

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. Rapost No.12340 94688.961t5 9610.96246

.[-

Tazas Utili"es Electric March 19,1993 Page 11

'AkhmenF s b cAkb 6.n-tc w

Coh.. Reiision klo. oo

%ek

\\ o-F 5 ABSTRACT Three conduit assemblies, two air drop assemblies, and one cable tray assembly, clad with Thermo Lag @ materials as described herein, were evaluated in accordance with the Trzas Utilities Electric TESTPLAN, Rev. 4, yielding the following ampacity derating values:

PERCENT-TESTITEM DERATING 3C/#10 in 3/4* Conduit 9.34 3C/#6 in 2" Conduit 6.67 3C/#6 in Air Drop 21.2 24" Cable Tray 31.6 750 kCMilin Air Drop 31.8 4

4/C 750 kCMilin 5" Conduit) 10.7 The details, procedures and observations reported herein are correct and true.

within the limita of anund anginaaring practica. All specirnens and test sampla assemblies were produced, installed and tested undar the surveillance of either Texas Utilitics' er the, testing laboratory's Quality Assurance Program.

This report describes the analysis of distinct assemblies and includes descriptions of the test procedure followed, the assemblies tested, and all asulta obtained. All i

test dat.a are on file and remain available for review by authorized persons.

j

_f f

Y3 G'/h7 Herbert W. Stanaberry II Date i

Project Manager l

h na $se& A Y m Q f/o,o/9 s Constance A. Humphrey

/

U Date '

Manager, QA Dept.

i NY 8

.3 Deggary N. Priest Date President

%)

,1; n

M

- Abbe # 51. C.hahon XX-E t'

Odc., RevBion o o Sheek 2 of 5 1

f 1

until May would allow you to consider the outcome of the NUMARC Phase 2 test results j

4 in addressing the need for plant specific corrective actions. See Item V, " Alternatives,"

for flarumr discussion of uncertainties, Wily 6-W oorrective actions.

.:a o'

With regard to NRC Item III.B.3.a., generic test and acceptance' eriseri for cable raceway l

. fire barriers are under development by NRC (draft proposed supplement to Generic Letter 86-10), and have been subject to considerable public review, technical scrutiny, CROR j

and ACRS review, and NRC management involvement. His criteria, when final,would -

l be required for estabushing ratings for cable raceway fire bemers used for protection of j safe shutdown fhnetions in accordance with Appendix R. As noted in nur I)ecember 17, l

1993, letter, we recommend esotion relative to licensee's s.r.d J..g independent fire testag for esble raceway fire baies until test and acceptance cdteria isanes are l

4-a, resolved.

i Because of the advantages afforded through the generic review and approval process, we

-i recommend that you propose specific test and acceptance criteria to NRC staff only in l

j unique situations where the generic criteria could not be applied (e.g. applications other !

T than cable raceway fire barrien). In these A=&= itis capocted that test and l

acceptance criteria would be developed and discussed withNRC as plant umque or j

l l

sharedteetprograms arc designed.

i IV. AmpacityDerating l ;'

e i

This section requests information on actions to address FW derating concerns. We suggest that you sensider the following wording in responding to NRC Item IV.B.:

p Ampacity derating is an issue that applies only to cable mcmays containing l

l power cables. Ampacity deraringfactors duurminedfor upgradedconfgurationt can be conrervatively appliedto baruline cargfigumtions. The NLMARCpmgmm l

i for ampacity demting evaluation contains thefollowing elements.

l l

For segmded one hour cable smys and condutu, NUMAIC will he discussmg i

with..RC the generic cupplicability ofampacity demtingfactors derived by TUEC l

using the methodology ofIRRR FR4R Drqft i1. with some modyfcottons. The l'

\\

. IEEE P848 test methodology has been extenrtvely discussedwith NRC by l

NUMARC and TUEC. However. NRC acceptance ofthe methodology ts setti l

pendng. NRC har triformedNUMARC shut they willIssue a requestforfunher informusion to WEC regardtng the submittedampacity ust report. The WEC V

testing provided preliminary ~ scity demtingfactors of32%)br cable smys and j i

11% for condwits, which are within the range ofprevious& reported values.

4

'~

4 i

6

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(,

1 0718 001 g4 TEs GOVERNMENT 076Mdnm TEMESSEE VALLEY AUTHORITY A%2tbeM S in Cbb n-E-og Ca t.. kdri 00 K. Guha, Senior Electrical E g Neer O

TO P.

'FROM K. W. Brown, Senior Engineering Specialist

'I DATE June 11,1991 ALL NUCLEAR PIANTS - TECHNICAL JUSTIFICATION - AUXILIARY l

CUIL7ECT :

POWER SYSTEM (V4 AND V5 RANDOM FILL RACEWAYS)

' ANALYSIS OF UL TEST 86NK23836 ON AMPACITY EFFECTS OF THERMO-IAG 330 FIRE BARRIER SYSTEM (RESPONSE TO CATD 24000-NPS-03)

B43 870717 002) by Thermal The information provided to TVA (Ref:

(TSI) regarding the above subject has been reviewed.

Inc.

Ccience,ison of the UL derating results (published) and those of TVA A compar Nuclear's ampacity standard DS-E12.6.3 are as follows:

Table 1 -- COMPARISON OF UL TEST TO DS-E12.6.3 DERATINGS i

UL TVA i

28.04%

12.5%

I hour tray 31.15%

20.5%

3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> tray hour conduit 0%

7.5%

b>

(RAhour conduit 9.44 9.7%

s The UL test is performed similarly to the TVA test on Flamemastic d

t

, deratings with cable laid in the tray and loaded until the con uc or reaches its temperature rating.

Herein lies the difference and The baseline test performed basis for. conflicting derating values.

by UL to determine the initial ampacity of an unwrapped tray was done without a plastic. barrier on the tray bottom to prevent aThis effect was experienced i

chimney effect for cooling the cables.

by John Stolpe when he was performing tests which substantiate the ICEA P-54-440 Ampacity Standard.

TVA began without a plastic air barrier during the Flamemastic test (to see if the cable mass could be packed tight enough to shut off the air flow) but could not i

sufficiently load the cables to 90 degrees C without causing This confirmed Stolpe's observations.

)

termination overheating.

ICEA P-54-440 is not referenced in the UL report but due to the uniform loading (one cable size and load), the concept still applies.

i ICEA P-54-440 does not give ampacities for cables at depthy greater than 3 inches; however, using Figure 4 from Stolpe's paper one can

. determine quite accurately the Q value for the 3-5/8" depth tested The percent fill values given in Figure 4 are for 3" trays and 80% approximately represents the maximum cross-section,al area of by UL.

For

, cable possible for a full tray (3" x 4/3.1416 x.80 = 3.05").

A i

/J n r P c e 9 l'/.3 f L-

...; s A%c(Len+s4,c.,jcuj,4,,x,y.g.o

,. m blc. RwifIon oo 06<

%+ 4 a l-5 Page 2 the Q value would be 1.75.

Simply comparing the 90 degree C curve, the 3-5/8" (3.625") depth for percent fill in a 3" deep tray would Then extending the give 95% (3.'625" / (3" x 4/3.1416) = 95%).

Figure 4 90 degree C line to 95% vould give a Q of 1.4.

By ratio of square-rooted Q values, a multiplier for the 3" ampacity given in ICEA P-54-440 Table 3-12 can be determined for a similar cable for use at 3-5/8" cable depth:

\\/1.4 /

N/1.75

=.89 cable is The diameter given in Table 3-12 for a 3c/f 6 AWG 2kV slightly smaller than the UL cables used.

Correcting for the diameter (1.00"/.94") a further correction of 1.06 is applied.

The following table shows a comparison of the baseline ampacity reported by UL and the maximum loading allowed by ICEA (coreeeted for depth and diameter - 28 amps x.89 x 1.06 = 26.4 amps):

Table 2 -- COMPARISON OF UL TEST BASELINE VS. ICEA ALLOWABLE AMPACITIES Ampacity of 3c/ 6awg UL Report 86NK23826 32.1 amps

}

ICEA (corrected) 26.4 amps The baseline load actually applied by UL was 122% of the ICEA allowable for the sama configuration.

The final loads after installation of the fire enclosure (23.1 amps for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> barrier and 22.1 amps for 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> barrier) are credible due to the fact that all cool air was effectively blocked by the fire protection system.

l The TSI deratings given in Table 1 above are due to use of the 32.1 amp baseline; however, DS-E12.6.3 would not allow this load to be f

applied to'the cables.

The acceptable load of 26.4 amps would be the maximum current allowed for this configuration if installed in a TVA nuclear facility and the deratings must be determined from that value.

Table 3 below is the resulting deratings for cables based on this methodology (ICEA P-54-440 or DS-E12.6.3).

Table 3 -- DERATINGS FOR TRAY BASED ON ICEA ALIDWABLE LOADS FOR TESTED TRAY UL Derating Multiplier '

1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> tray

'12.5%

.875 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> tray 16.3%

.837

(*

1

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+8 CakvhemX)(.E.c

~

O L. kevi!I*n 00 g

5%45 45 i

Page 3 Comparing back to DS-E12.6.3 3c can be seen that the multipliers given for use by TVA nuclear t.875 for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> TSI and.795 for 3 hour3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> TSI) are acceptable.

l The deratings determined by UL for conduit are comparatively similar to those used by TVA and the DS-E12.6.3 values are also acceptable.

Based on the evaluation given above, CATD 24000-NPS-03 should be closed with no further action required.

Prepared by/date: j[

[

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• U (i

Reviewed by/d Ndit\\

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7//8/9 /

G-Branch Chief Approval /date:

G BER cc: RIMS M. C. Brickey, ALIOB, WBN D. P. Burrell, D-EDB, BFN B. E. Rea an h7 10I-K M. R. Sed acik, P-DSC, SQN R.

C. Williams, h7 10I-K

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