ML20043B113
ML20043B113 | |
Person / Time | |
---|---|
Site: | Browns Ferry ![]() |
Issue date: | 05/03/1990 |
From: | TENNESSEE VALLEY AUTHORITY |
To: | |
Shared Package | |
ML18033B323 | List: |
References | |
ED-Q2000-87135, ED-Q2000-87135-R01, ED-Q2000-87135-R1, NUDOCS 9005240204 | |
Download: ML20043B113 (71) | |
Text
..
i ORlory GA Record r
TVA 10697 (DNE-0A ' M)
I
.j ti, l Plant / Unit l
j l " Ahle "I+v Calculation - VA and VS Safety-Related Trays for Unit "2 Coeratlon IbrN/2 l
j lProperingOrganlaation l key NOUNS (Consult RlMS Descriptors List) l l llf-TLP EE -
l Cable htty. Trav l
i
~
l' # j l
lEach time these calculations are leeimd, preparors must ensure that the
'llDraneh/Projectidentifiers l original (RO) RIMS accession n
'llled in.
l lg p@ [78/.
l llev (for RIMS' use) h RIMS ACCESS 10N NUMBER l
l
! Ro 18905 ' 9 E 0 0 0 ' 404
'89 051.6 20 C l
- 3, = w.a4, l f" " "' "" " *--""
!Sona/reev5 B22 '90 0413 115 l
R, l'i'4"'
1922 '90 0508 110 l R,
l l$ARSectlen(s). l UNID System (s) l l
l ll8.9.1 l Vertous lR l
'l flevision 0 l
Rt H
R2 l
R3 ISafetv-related?
Yes (X)
No ( )
l l
hA '
l l
l$tatenant of Problem s'
l EQi he. (or Indicate Not Applicable)!
l l To verify the awlty of safety-related l*
l lcablesroutedinV4andVStraysfor l
- t/J_MM g/,s/g9 la{ jfpl%.,p*d lPreparou
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l Unit 2'soperationalmodeswl'thUnitsIand l lA fd' l-
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FMt w W n IN W W l l ' " ' -" - "-- ' ' " ' "^*" "" '" - l yrCbwbad l
l g sMn ry,e & ol l
l lUSE F0fD4 l List all pages added lSce Arv l See Aev l l
l l
lTVA10534lbythisrevision 14 ea 14ee l
l l
l llrMORE List all pages deleted l fee gev l See tar l l
l l SPACE
,fby this revision lisa l 4se l
l l
llEQUllED ' List all pages changed l ge'e Aa v l $,'e Ac/ l -
'l
'l.
l l by this revision l t-#a l Z sa l
l V W N4-@l l
l ABSTRACT (These calculations contain an" unverified' assumption (s) that must be verified later.
L. 6 No ()()1 l lCableswereInstalledinV4andVStraysatBFNpriortotheissuanceofDS-Cl2.6.3RI. The cables require l
lov31uation to detonnine if they were slaed adequately to carry their required load without onceeding their l
lapplicabledesigntemperatureratings. This calculation uses a three-phase screening approach in accordance with l
l lBFN Ampacity Calculation Sof tware Requirements Definition Document to evaluate the ampacity of the power cables in l l
l l6:fety-related V4 and VS trays for Unit 2's operational nodes-power operations and an acendent.
j l-l 4
lTotalnumberofpages: 9992 l
d Date d
FSAR Compilance Revlow M
~9
()
l l
u lCenputer Program, "BFN Ampacity Sof tware," System 10 Sof tware No. 262445.
l l
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l f5$'YS$k *EENp**lllane.l$*lc'e'Ye' bin Da k
-- l3. he l Al FSM Cory Aedew WW-i Dale 3
l
()
l l12blpfS it'/ = 2 7.5 17% / pgs 42 = 70 l
l l
(Continued on nort peoe) l l ( ) Microfilm and store calculations in RIMS Service Center Microfilm and destroy. ()
l l_ (X) Microfilm and return calculations to: BrN Calculaticrt library Addres s t 40^ " 3 " -/e e e x C-8/N l cc: RIMS, ET SLE 26P.K fgg 9005240204 90052)
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8 2AQ-ESII 106 9
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11 21F-58I 275 1AY-ESI 119 12 13 "
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.19 3EMP-ESI 65
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20 3CU-88II 33 21 20U-ESII 90 22 2EU-ESI 188 t
23 7CA-ESII 91 24 3DK-ESII 54 25' 3CE-ESI 139 26 3EGH-ESII 118 27-3GH-ESII-465 28 2F8-ESII 295 29 1FX-ESII 71 L
30 2FX-ESII 134 31 IFV-ESI 239 32-1EL-ESI 209 33 1EG-ESI 69 34 3GGH-ESII 127 l
35 1EN-ESII 667 36 1EF-ESI 271 37 4EA-ESI 744 38 2EU-ESII 529 39 7CN-ESII 1,397 40, 2HO-ESII 204 J
l-41 7EV-ESII 458
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DESCRIPTION OF, REVISION 4,Nv.a.
ADDED PAGE 3A'C ADDITIONAL REVISION LOG PAGE 3 n
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ADDED PAGE MB CINDEPENDENT REVIEW FORM FOR REVISION 2)
~.
REVISED PAGE IS-TO AIID SECTION S.2.5 WHICH GENERICALLY EXPLAINS THE DIFFERENCES BETWEEN THE COMA SHEETS AND THE CABLE DIVERSITY WORKSHEETS.
~
KWi*iED ATTACHMENT 90-0 SHEET 1-TO ADD ATTACHMENT 90-7A' TJ ifR ATTACHMENT 40 TABLE OF. CONTENTS AND TO CHANGE TL 40TAL NUMBER OF PAGES IN ATTACHMENT 90.
REVISED ATTACHMENT 40-7 SHEET 22 TO REFERENCE THE JUSTIFICATION FOR THE DIFFERENCES BETWEEN THE CDMA
'~
SHEETS AND THE CABLE DIVERSITY WORKSHEET COMPUTER i
INPUTS.
i ADDED ATTACHNENT 40-7A WHICH CONTAINS THE TECHNICAL JUSTIFICATION FOR TURNING CABLE 2PLB20 0FF EVEN THOUGH THE COMA SHEET SHOWS IT AS'A CONTINOUS LOAD.
- BRIEFLY,
,. _- l THE JUSTIFICATION IS AS FOLLOWS :
FOR CONSERVATISM, THE CDMA SHEETS SHOW 480V PLUG.
V) K RECEPTACLES AS CONTINOUS LOADS C CONTINOUS OPERATION
,j FOR' GREATER THAN 8 HOURS 3.
TO DETERMINE A MORE
-i ACCURATE RESULT OF~THE CABLE OPERATING TEMPERATURES.
I-PLUG RECEPTACLES'MAY ON A CASE-BY-CASE BASIS BE ALLOWED 1
TO BE TURNED OFF.
PLUG' RECEPTACLE C CABLE 2PLB20 ) IS i
TURNED OFF IN ALL THREE PHASE III-DIVERSITY RUNS.
THIS IS ACCEPTABLE SINCE THE CABLE SUPPLIES A 480U
.{
RECEPTACLE IN THE ELEVATION SE1 UNIT.2-Mku' SHUTDOWN l
BOARD ROOM AND A 4BOU RECEPTACLE C CABLE 2PLB21 ) ON THE ELEVATION'83S FLOOR COLUMN.LINE qR11 WHICH IS ALSO A LOW ACTIVITY WORX AREA.
480U RECEPTACLES ARE TYPICALLY USED FOR SHORT DUTY CYCLE EQUIPMENT IN WHICH CONTINDUS USE OF THE RECEPTACLES IS NOT EXPECTED.
AS NOTED ON THE REVISION 1 LOG PAGE, AN ADDITIONAL i
0-LIST CABLE C~EES2767-II ) WAS FAILED WHEN TRAY EHO-II WAS RE-RUN.
HOWEVER, THIS CABLE HAD PREVIOUSLY BEEN IDENTIFIED AS AN EO FAILURE BECAUSE IT WAS PARTIALLY SUBMERGED IN WATER.
DCN WO158 TO REPLACE THE CABLE END-TO-END WAS DESIGN COMPLETE PRIOR TO REVISION 1 0F i
THIS CALCULATION THUS NOT CAUSING ANY ADDITIONAL FIELD WORK AS A RESULT OF THE RE-RUN OF TRAY 2HO-II.
q:
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PAGE 4
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ED-Q2000-87135 a
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4 CALCULATION DESIGN VERIFICATION (INDEPENDENT REVIEW) FORN i
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1 a
1.
Design Review
/
2.
Alternate Calculation
- 3.. Qualification Test-Justification (explain below)t.
Method it In the design review method, justify the technical adequacy of the
. calculation and explain how the adequacy was verified (calculation
.t is similar to another, based on accepted handbook methods,
i appropriate sensitivity studies included for confidence, etc.).
Method 2:
In the alternate calculation method, identify the pages where the alternate calculation has been included in the calculation package J
and explain why this method is adequate.
kJ pethod 3:
In the qualification test method, identify the QA documented source (s) where testing adequately demonstrates the adequacy of 1
this calculation and explain.
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CALCULATION DESIGN VERIFICATION (INDEPENDENT REVIEW) FORM
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1.
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Qualification Test Justif1' cation (explain below):
. Method.1:~ In the design review method, justify the technical' adequacy of
'r the calculation and explain how the. adequacy.was verified.
(calculation is similar to another, based on accepted handbook-meth'ods, appropriate sensitivity studies included for 1
confidence, etc.).
Method 2:
In the alternate calculation method, identify the'pages where L g -
the alternate calculation has.been included in the calculation package and explain why this method is adequate.
Method 3:
In. the qualification test method. identify the-QA documented source (s) where testing adequately demonstrates the adequacy of this calculation and explain.
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Quellfleetlen feat Justiftention' temp 14tn below):
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4 sonaltietty studies included for confidence, ets.).
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.o Method 2: In the alternate calculatten mothed, Identify "the pages where the alternate calculatlen has been included in the calculotten packste and esplain why this method is adegunto.
.c Jethod 31 In the goallficablen test mothed. Identify the Q documanted a
seurse(s) where testing adequately demonstrates the adequacy of this l
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calculation and esplain.
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1 j
.3 REVISION LOG.
' INDEPENDENT REVIEW.
.4
[
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' TABLE OF CONTENTS.
.6 LIST OF TABLES....
. INITIALS AND SIGNATURES OF PERSONNEL.
-.7 l
t 1.' 0 PURPOSE.
..z.
.-..............8
}
l 2.0 ASSUMPTIONS.
.8 i
~
.10 3. 0 -
SOURCES OF~ DESIGN INPUT.
4.0
. DESIGN INPUT, DATA..
.15-i 5.0 COMPUTATIONS AND ANALYSES-..
.16
'6.0
SUMMARY
OF RESULTS.
.20 s
7.0 CONCLUSION
S...
.21 l
.30 J
8.0 CABLE FAILURE' REPORTS.
.64 i
-9.0
'FSAR COMPLIANCE.
10.0 LIST OF TRAYS AND ATTACHMENT NUMBERS.
.65
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_4 LIST OF TABLES FAQK TABLE I-PHASEIILOADMkLTIPLYINGFACTORSBYLOADTYPES 21-
. 7 TABLE II FLAMEMASTIC DERATING FACTORS 22-TABLE III.
SUMMARY
OF RESULTS 23 l
TABLE IV Q-CABLES THAT FAILED PHASE III 24 TABLE V
-NON-Q-CABLES THAT FAILED PHASE III, 25
(
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.s' TABLE VI Q-CABLES IN TRAYS 28 1
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- . INITIALS AND SIGNATURE OF' PERSONNEL-INVOLVED IN CALCULATION ED-Q2000-87135 4
_ ei INITIALS SIGNATURE-
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DATE
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L 1.0 PURPOSE
- p3 l.
L The purpose of this calculation is to evaluate the ampacity of safety-related cables (Q-list cables) required for Unit 2 that are routed l'
in V4 and V5 trays and to determine if the safety-related cables are-
+
capable of' carrying'their required load without exceeding their e
applicable design temperature ratings. This calculation:is in support of the effort to' implement the BFN Ampacity Evaluation Program Plan for CAQR BFP880286 and is only applicable for Unit 2 when Units 1 and 3 are shut down.
2.0 ASSUNPTIONS g
+
2.1. Cables are assumed to be uniform in depth within the respective
,g (profiles. This is an accepted practice by industry.
u 2.2.The load multiplying f actors in Table I, approved by -
BFN-DC-50-75A-014 (Reference 3.31), will be used in Phase II and Phase III.
..L ;
i 2.3 Cross-linked polyethylene 10CFR50.49 cables' (CPJ, CPJJ, CPSJ types)
EQ temperature is equal to the 9000 manufacturer's rating.
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reduced
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asuvfse+ veer's in.Mnp sce Q2 ACQf AMW1069.
2.4 Several-cable loads were obtained-from the latest revision of BFN
. y AC/DC electrical calculations.
It is assumed that these loads have not changed as a result of ECNs, DCRs, etc.
2.5 It is assumed that cables identified in QIR NTBBFN88230 (Reference 3
3.2), Attachments 1, 2, 4, and.5, will be incorporated into the next revision of the Q-list as safety cables, and cables identified in will be identified as nonsafety related in the Q-list.
Specifically, the following cables in' trays analyzed :111 t; cith;; M.ro t
-rc hp id:1;ted he; th. Q-li.L e-downgraded to nonsafety: 74 /.r d/v/s/en/
M, aulysh is enheined in GZAGEBB w 2 rot.S.
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' CALCULATION ED-Q2000-87135
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2.0' ASSUMPTIONS (Continued).
..e
,4 4
1877 3B81 A1256
' I 1889 3B85
.L531 1993
- 3889 P283
'1897 3B93'
-P286
~ !
2377 3898 P288 l'
2B81 35181 P289 2B85.
-38185 PL1225 2B89 3B189
-PPl?
J 2B93 3B192 PP475
' i 2B95 3PP602 PP476 2B96' 3PP700 PP477 2WM1158
.3PP708 PP478
.j
^
2NM1168
'3PP709 PP479 2NM1178 3PP710 PP480
.2NH1188 3PP711 PP481 -
2NM1198 3PP712
.PP482 2PL2400 3PP713 PP483-2PL2401 PP484 2PP87 PP485 l
2V2775 PP486
' [
- .h 2V2825
,.;?t,=lis+ed.a====
..._ w n. m.i ~i, o a..u. 4; asbove e.a n. b e ee n d los G.TAEE8&fM10095.
L 2.6' New cables being routed in.these trays will'le sized in accordance1
)
with criterla < 3FN-50-758, - DS-E12.6.3 R1, 'and-the additional requirements of QIR=EEBBFN89001 to prevent unacceptable.
l[
temperatures in the existing cables.. Revision of this calculation.
is not required to account for cables sized in this manner.
}
- 1 2.7 For future operation of Unit 2 it is assumed that Units 1 and 3 are shutdown and only cables located in Unit 2 areas can be exposed; to a harsh environment; cables located'in' Units 1 and 3 will only i
R be exposed to a mild environment.
i L.
2.8 When specific information on a particular cable load was unavailable, it was assumed that load data from similar cables from another unit for the same component / system / unit function and requirements reflect the loads on the evaluated cables.
i.
'4 3,
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-l CALCULATION'ED-Q2000-87135 PAGE'10 5
PREPARED M R/ //it di CHECKED M 4~/n /p v Wg
'f,,,ned +x9 E.u-s
] checked WXMWi% s/uln 2.0 ASSUMPTIONS (Continued?
/
l 2.9 It is' assumed that the environmental data on drawing 47W225-20 also 1
applies to the cable tunnel and the IPS where cable tray 7CB-ESII i
/gM is 1,ocated. ?.:f:::::: ?.le er ir;; thi; te t; : ;;. ;rifid
' J-N*99 -eeewap%em-This t's a
costrervsRve a stumf Hon.
2.10 In Phase II and Phase III, actual board-loading..rather than board rating, was used for the load on the distribution board's feeder-l cables. Therefore, it is assumed that in the future for any new l
loads or an increase in existing loads, the feeder cables to the
.m distribution boards and their' associated trays will be re-evaluated.
'for the load increase.
E ll' To prevent unnecessary tray dera. ting, it was assumed that c le 2ES3466-II (Mark No. WCD) would be abandoned and rerouted since 2ES3466-II i,s a V3 cable in a V5 tray.
i 2.12' The ampacity evaluation methodology is based on Stolpe's conservative one~~ dimensional tray model which does not take into account any side or longitudinal heat dissipation and.the calculated temperatures within a node are independent of the W"
adjoining nodes. 'It is assumed that the longitudinal transfer of heat via the cables / conductors from one node to another is negligible and that the nodes having failures without any Q-cables
,.g passing through them will not adversely impact any adjoining nodes with-Q-cables.
2.13 Refer to Reference 3.23 for additional assumptions associated with the computer model.
3.0 SOURCES OF DESIGN INPUT (REFERENCES) 3.1 Electrical Design Standard DS-E12.6.3 R1, "Ampacity Tables for Auxiliary and. Control Power Cables (0-15000V)" (RIMS B05 861107 500) i 3.2
.QIR NTBBFN88230 R000. " Identification of Class 1E, Safety-Related Cables" (RIMS B22 080819 011) v 3,3 es s
NPK2 - 2407X
T.
1 l'
.,, w
=
k CALCULATION ED-Q2000-8713r4' PACE 11 PREPARED
//d9 1L :
CHECKED f////S1 i
, r,.F ;
<r 3.0 SOURCES OF. DESIGN INPUT (REFERENCES) (Continued)
.3.3 Environmental Data Drawings 47W225-- SSries 47W225-00 R2 47W225-26 R2-i
'1 47W225-1 R1' 47W225-27 R1-47W225-7 RO~
47W225-28 R1 47W225-3 RO-47W225-29 R2-
-47W225-4 R0 47W225-30 R1 47W225-5 R0 47W225-31 R1 47W225-6 R0 47W225-32 R2-47W225-7 R0 47W225-33 R1
.,e 47W225-8 R0-47W225-34 R1' 47W225-9 R0 47W225-35.R2
.,, 47W225-10 R0 -
47W225-36 R1 47W225-11-R0 47W225-37 R1 47W225-12 R0 47W225-38 R2 47W225-13 RO.,
47W225-39 R1 47W225-14 R0 47W225-40 R1 47W225-16 RO 47W225-41 R2 47W225-17 R0 47W225-42 R1 47W225-18 R0 47W225-43 R1.
Th'
-47W225-19 R0
$7W225-44 R2 47W225-20 RO 47W225-45-R2 47W225-21 R2 47W225-46 R1 47W225-22 R2 47W225-47 R1 47W225-23 R2 47W225-48 R2 47W225-24 R2 47W225-49 R1-47W225-25 R2 47W225-50 R1
. i.( '
47W225-51 R2 47W225-52 R1 47W225-100 R3 47W225-53-R1 47W225-101 R1 47W225-54 R2 47W225-102 R1 47W225-55 R1 47W225-103 R2 47W225-56 R1-47W225-104 R2 47W225-57 R2 47W225-105 R2 47W225-58 R1 47W225-106 R2 47W225-59 R1 47W225-107 R2 47W225-60 R2 47W225-108 R2 47W225-61 R1 47W225-109 R2 47W225-62 R1 47W225-110 R2 47W225-63 R2 47W225-11't R2 47W225-64 R1 47W225-112 R2 1
NPK2 - 2407%
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PACE 12'
. CALCULATION ED-Q2000-87135.
' PREPARED ' M// g//[A9 -
j CHECKED MW - Wn 2pg
}
-J 3.0 SOURCES OFlDESICN INPUT'(REFERENCES) (Continued)
,,j 47W225-65 R1' 47W225-113 R1 47W225-66 R2 47W225-114 R2 j
47W225-67. R1~
47W225-115 R2 l'l 47W225-68 R1 47W225-116 R2 47W225-69-R2 47W225-117 R1 47W225-70 R2-47W225-118 R2 47W225-71 R2 47W225-119.R1 l47W225-72 R2-47W225-120 R2 47W225-73'R2 47W225-121-R2 47W225-74 R2 47W225-122 R1
.g 47W225-75 R1J 47W225-123 R2 47W225-76 R1 47W225-124 R2
...3. 4.. BFN Design Criteria BFN-50-758, " Power, Control, and Signal ables.
for Use in Clasa.I Structures" and Exceptions 1 through 8 3.5 conduitanddableScheduls,'DrawingSeries45C800
...-]
3.6 'Q-List Drawing No. 67M-47A302-l'RO, "BFN Plant, Unit 2. Phase I, j
Q-List" l :, 4
^'
3.7 Calculation ED-Q2999-890073 " Base Cable Ampacities" (RIMS.B04'890503 202)
'3.8 QIR EEB87038 ROO, " Cable Ampacity-Derating For Firestops and.
Pressure Seal"'(RIMS B43 870128:904)'
3.9 QIRLEICBFN88023,." Cable Ampacity (TSD-E110) - Cable Operation Mode 1
Analysis" (RIMS B22 880912'003) 3.10 QIR EICBFN88017 R1, " Cable Ampacity (TSD-Ello) - Cable Operation
.I Mode Analysis" (RIMS B22 880831 017) 3.11-QIR EICBFN88019 R1, " Cable Ampacity (TSD-E110) - Cable Operation Mode Analysis" (RIMS B22 880831 018) 3.12 QIR EICBFN88021 -Cable Ampacity (TSD-E110) - Cable Operation Mode Analysis" (RIMS B22 880901 007) 3.13 QIR EICBFN88024 " Cable Ampacity (TSD-Ello) - Cable Operation Mode Analysis" (RIMS B22 880915 002)
NPK2 - 2407X l
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,e.
CALCULATION'ED-Q2000-87135-PACE 13 PREPARED M #I/ 9 e
^
CHECKED JDV 47//2et M
'3.0 SOURCES OF DESIGN-INPUT (REFERENCES) (Continued)..,
,.,, (
3.14; QIR EICBFN88026, " Cable Ampacity (TSD-E110)' - Cable OperatLon Mode-Analysis"-(RIMS. 822 881017 014).
3.15 QIR EICBFN88027. " Cable Ampacity'(TSD-E110) - Cable Operation Mode Analysis"'(RIMS B22 881019 008) 3.16 Calculation ED-Q0000-88455, "Ampacities and Methodology for Cables.
Outside:the Limitations of TVA Electrical Design Standard DS-E12.6.3"-(RIMS B22 880726 105) 3.17 Calculation.ED-Q2000-87244, " Cable Ampac'ity Load Calculation" (RIMS J
B22 880831:102) 3.1'8 ' QIR NTBBFN88218 RO, " Ambient Temperatures to be Used in Ampacity
- i Calculations" (RIMS B22 880729 019) 3.19 Calculation ED-Q2000-87027, "460V Class 1E Motors Volt Drop Calculation" (B43 870805 903) 3.20 Walkdown Packages
{.:
}
t-
=W2 W 1108 WD-1251 WD-4 WD-1153 h 1252
.WD-8 WD-1156 WD-125r "WD-9 WD-1172 WD-1254 WD-10 WD-1173 W 1261 WD-11 W 1175 WD-1275 WD-32 h 1176 WD-1516 h 33 WD-1177 WD-1608 WD-34 WD-1178 WD-1609-WD WD-1179 WD-1630 WD-787 WD-1183 WD-1631 WD-1001 WD-1187 WD-1704 WD-1002 WD-1189 WD-1706 WD-1006 WD-1190 WD-1707 h
WD-1021 WD-1198 WD-1743 W 1022 WD-1205 h 1817 WD-1023 W 1207 WD-1863 WD-1045 WD-1218 WD-1865 c.
WD-1046 WD-1220 WD-2020 l-W 1050 WD-1224 WD-2080 L
WD-1091 WD-1232 WD-2092 h 1092 WD-1243 WD-2136 WD-1107 WD-1246 WD-2256 l
NFK2 - 2407X i
+ - - - -
j
?,,.
d CALCULATION ED-Q2000-87135 PAGE 14 PREPARED As73/
//!g9.
CHECKED A 4h/Nf jps 43..
- i 3.0' SOURCES OF DESIGN INPUT (REFERENCES) (Continued)
. j[
[
BFEP-EI-87024
- t WD-2346 WD-2349' BFEP-EI-87.038
-l WD-5170 BFEP-EI-87041 l
'WD-5179 BFEP-EI-87047
-i WD-5182 BFEP-EI-87049 i[
WD-5183 BFEP-EI-87050-
?
WD-5184 3.21 Calculation ED-Q2000-87026 R1 "4.16kV and 480V Bus Load and Voltage Drop Calculations with Offsite, Power" (RI.MS B22 881009;136) l 3.22 Calculation ED-Q2000-87041 "250V DC Unit and Station Batteries Load 2 >.,. Study" (RIMS B43-.870805'915) s f
3.23 BFN Ampacity Calculation Software Requirements Definition Document Version 1.0,J1, dated 4/27/89, System ID 262445
~
3.24 BFN Ampacity Calculation Software User's Guide Version 1.0, dated g
3/3.4/89, System ID 262445 l
3.25 BFN Ampacity Calculation Software Computer' Programs CCEVAL and WORST System Design Description 1.0, dated 3/14/89, System ID 262445 3.26. BFN Ampacity Calculation Software BFN Diversity Requirements Definition Document Software System ID 262445-3.27 Calculation ED-02000-87167 R1 " Maximum Cable Depth Adjustment Factor (Kaax)" (RIMS B04 890504 200) g 3.28-QIR EEBBFN89001 RO " Installation of Electrical Cable in Cable Tray" 1
(RIMS.B43 890227 903)'
.j 3.29 Calculation EEB-CSTF-0003 R1, "Ampacities and Methodology for Cables Outside the Limitations of TVA Electrical Design DS-E12.6.3" (RIMS B43 861230 904) 3.30 QIR EBEBFN87001 R8, " Establishment of Cable EQ Thermal Rating for Use in Support of Ampacity calculations" 3.31 Exception EX-BFN-DC-50-758-014 to Design Criteria BFN-50-758 3.32 Summary Report, " Test to Determine the Ampacity Decating Effects of Cable Coatings and to Confirm the Principle of Load Diversity" R2 dated 4-13-89 (RIMS E13 890414 146) 6 NPK2 - 2407X
t
-l 14
~ '-
PACE-15:
1 CALCULATION ED-02000-87135 PREPARED,x,frM g /! &
CHECKED M c/i/2,.g,_.
- Q.)
i i
1 23.0' SOURCES Of DESIGN INPUT (REFERENCES) (Continued)
,..s=j
)
3.33.MOV-Ampacity. Calculation E'D-Q2999-890057 3.34 PN86-18 Motor' Overload Heater Selection-(RIMS B43 870630 913) 3.35 Calculation ED-Q2999-890075, " Thermal' Conductivity Comparison
)
Flamemastic:77 and Flamemastic 71A Fire Retardant Coatings" j
-(RIMS B90 890407 200)'
-)
' 3.36 - QIR EEBBFN88070, "Ampacity Deratings'for Flamemastic Coatings"-
4 (RIMS B22.881006 011) 4.0 DESIGN INPUT DATA-
-4.1 Base ampacities, manufacturers temperatures, and minimum diameters
-- References. 3.1, 3.7, 3.16, and 3.29 4.2 Ambient temperatures and harsh environmental zones - Reference 3.3 and'3.18
.i
.({})
4.3 Q-list cables-- References 3.2 and 3.6
- 4.4
. Load. multiplying 'f actors - Phase I, Reference 3.1; Phase II Table I I
4.5 Cable-mark number, size, and number.of conductors - Reference 3.5 4.6 Load type - Reference 3.23 Table A, Page 13 4.7 Tray segment Flamemastic, and cable profile data from walkdown packages - References 3.20
.i 4.8 Load current - References 3.17, 3.19, 3.21, 3.22, and Attachment A 4.9 Cable o erational modes - References 3.9 through 3.15 4.10 Hethodology and computer software - References 3.23 through 3.26 4.11 Kmax - The maximum allowable ampacity for any cable is limited to 80% of the free air ampacity as taken from ICEA PA6-426 for a cable of similar construction.
This limit is accomplished by not l
allowing any depth / temperature adjustaent factor to exceed K max -
Reference 3.27.
4.12 EQ temperatures - Reference 3.JO 4.13 Derating for tray covers - Reference 3.32 a
NPK2 - 2407X
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4 f
- . *g l
dp PACE 16 i
l Y-CALCULATION.ED-Q2000-87135t d /I/[A9 PREPARED
~
CHECKED f Wit //A s 4.0 ptSIGN INPUT DATA (Continued)
..n
.g l
.w 4.14-Derating for Flamemastic - The.Flamemastic dorating factors in=.
1!
-Table II are values supported-by tests on Flamemastic 77 '
. Browns. Ferry used Flamemaster's 71A as the flame
.(Referenes 3.32).
retardant coating; however, it includes asbestos iniits formulation.
,and was not available in quantity for the testing.' Calculation ED-Q2999-890075-(Reference 3.35) compares the thermal conductivities of the two' materials based-on'the testing'of a-
-limited amount of Flamemastic 71A and concludes that the thermal differences of the two materials were negligible and that the test-data,on Flamemastici77 may be used for Browns Ferry.. Reference
.g 3.36 (and Table I) lists the values'used for this calculation.
- s Thicknesses between the given-data points were linearly interpolated from the: closest known values.
.i
... 7
- f-'
- 5.0 = COMPUTATIONS AND ANALYSES
-5.1 Methodology c
BFN Ampacity Calculation Software Requirements Definition-Document
'(Reference 3.23) defines the methodology, criteria, and calculation lhg formulae to be used in evaluating the cables' ampacity in trays, q
~
This calculation implements the three-phase screening approach
'l
- I
' described in Reference 3.23.
When required, each successive phase uses a more refined analysis which requires furthur detailed
.l information, e
Phase I calculation is based on DS-E12.6.3 R1 which makes j
conservative assumptions regarding cable loading and installed conditions. When cable ampacity requirements exceed the
'J conservative limits, further screening is used in Phase II, f
Phase II is a two-part evaluation.
The first uses actual cable
{
loads and installed conditions (when less restrictive-than Phase I) to re-evaluate the tray using Stolpe's methodology of uniform heat
~
within the tray (i.e., all cables operate at the same temperatures). The second part or load diversity is performed when any. failures occur in a tray segment in which a Q-list cable is
..i routed.
It evaluates the tray for-individual cable temperatures recognizing that the cables are not loaded exactly to 100 percent of their allowable ampacities but that some cables may be considerably underloaded and some overloaded.
In this evaluation, all cables are considered energized except MOVs.
.l
.E 6
NPK2 - 2407X 1
e
---+,v-
h,,
v i
6 CALCULATION ED-Q2000-87135-
'PAGE 17 PREPARED /WF//
/!Nf '
, tphr..
'AW c/s/pe i
+( a ^
CHECKED E
-5.0 COMPUTATIONS AND ANALYSES (Continued)
..s.
,l 5.'1 Methodoloav (Continued 1 a.
o From here on in'this' calculation when referring.to the unique.
analysis performed in Phase II..the first part of Phase II is referred-to as Phase II (Stolpe) and the second as Phase II (diversity) otherwise the entire process is Phtse II.
In cases-where the ampacity/ temperature (s)-remain unacceptable,' Phase III is
-l implemented.
,t Phase III calculation' involves an analysis of. load diversity-[using w.
Cable' Operations Mode Analysis(COMA)] fo'r cables. in. the tray, taking into account various n. odes of plant operation.
5.'2' ' CEiteria This calculation uses the criteria described in Reference 3.23 for
'the three phsses.
.q 5.2.1.-A Phase:I calculation is based on Design Standard DS-E12.6.3' R1 with the following additional considerations:
p' 7
Cable ampacity is based on the. greater of actual cable' t
a.
depth as calculated by the study of the tray walkdown profile diagrams or 30-percent tray fill.
b.
Flamemastic doratin$ is'ba' sed on Table II rather than the values in DS-E12.6.3 R1.
K c.
All cables in a tray segment are derated to the-lowest I
manufacturer's rating contained in-that segment or the 10CFR50.49 cable temperatures if'that segment is located
.in'a Unit 2 harsh environment in order to achieve a total of 40-years qualified life.
5.2.2 The Phase II calculation removes some of the conservatism h
that is in the DS-E12.6.3 R1 criteria. In Phase II, the following approach is taken:
l.
a.
Cable loads used are the equipment's continuous running L
loads when available. The bases for the running load are H
the AC/DC voltage drop calculations, vendor drawings / field research, etc.
b.
Table I lists the load type current multipliers used to determine ampacity for cable heating temperature purposes.
a l ~'b c.
A Phase II (diversify) calculation is required for all nodes in which cable failures are noted in Phase II (Stolpe) and a Q-list cable is routed through the node.
NPK2 - 2407X
-CALCULATION'ED-Q2000-87135 PAGE 18 ar/r M $Id/ !B 9 ~
PREPARED CMECKED M CJh'G9 h
jf.&Y[
~
l m
5.0 COMPUTATIOFS AND ANALYSES (Continued).
l 5.2. Criteria (Continued) y d.- For,any Q-list MOV cable that fails Phase II (Stolpe).--
j a11' cables must be turned on to identify the Phase II (diversity) temperatures of the MOV cable (s) that failed..
~
v^>
J e.
Acceptable cables have operating temperatures less then 3
or equal to their manufacturer's or EQ thermal rating.
R If all cables in a given node' pass Phase II'(Stolpe), the i
t l'
node'is considered to be operating at the dorated tray temperature of the l'owest temperature rated cable within,
the segment.
i
'f.
For Phase II analysis, tray temperature ratings are not:
3 limited to dorated temperatures of MOV cables since these-cables are not continuously energired and-ampacity ratings are evaluated based on continuous' temperatures due to-heating effects from adjacent cables. Q-list MOV cables'which pass the review of this calculation:for
.c
'g
heating effects are evaluated separately in calculation ED-Q2999-890057 (Reference 3.33) for loading capabilities s
~;
using critoria from PM86-18-(Reference 3.34).
5.2.3 A Phase III calculation is a study of the cables considering
,.[
their system functions and~ operating modes. All cables.that run in the same tray segment are evaluated.- For example, if j
two cables run in the tray and are normally not operated =at the same time, the cable with the maximum load is considered to be on and.the other cable off. -This allows the overall heat' load for the tray segments that both cables are in to be reduced and the permissible ampacity of the other cables'in those segments can be increased. The energization state of 7
each cable is considered based on the cable operational mode analysis (COMA). COMA sheets were prepared which indicate the most limiting energization state of each cable in each of the five operational modes considered. The energization states, continuous, deenergized, and intermittent are
,0 illustrated graphically and supplemented by notes on the COMA sheet. As defined for COMA,. continuous energiration is any-period of energization greater than 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />.
Five cable l
types are not shown on COMA sheets; valve motors, valve motor shunts, spares, ground, and lighting cables.
All but the
.)
lighting cables are considered to be de-energized.
All other cables for which a COMA sheet has not been prepared are considered to be continuously energized, i
r NpK2 - 2407X
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i
-m a=
/
CALCULATION ED-Q2000-47136 f
5.0 COMPUTATIONS AND ANALYSES'(Continued)
.PAGE 19-PREPARED N I
5.2 criterin (continued);
. CHECKED _[A W N//I)/ N QM
. For Phase III. evaluations, the following modes are consideredt p nM +ne a
~
gg gj ](
i f
5.2.3.F Expended Life (EL) - All three units LE ' operation for the past 15 years.
(J'his provides for adequate ' conservatism 4
.to account for the vaciations in cable loading during the plant life.)
.j 1
l
-5.2.3.2 Unit 2 Future operation after' restart. Units 1 and 3' are in cold shutdown.-
'f 5.2.3.3 Accident - Postulated future accident occurring in Unit 2 i
with Units 1 and 3 in cold shutdown.
5.2.4 In the final review, acceptable Q-list cables.are those which
.g j
.can operate in' the. future -(U2) ~and have an accident start
-e temperature which'is less than or..oqual to the manufacturor's
, or EQ therinal rating, whichever is less, for a full 40-year.
life, including past. operating history. The methodology.used also takes into. account the heating effect'of overloaded j
non-Q-list cables routed within the same tray segments, a
Failures of non-safety cables routed coincident with safety
,i cables are to be listed for information only.,, Final disposition of'the non-safety cable failures is not a part of this calculation.
I
. i.D m.
S.E.S-CDr1A SHEETS ARE USED AS DESIGN INPUT WHEN PERFORf1ING THE' PHASE:IJ'AND PHASE III DIVENSITY ANALYSIS..ANY-g6 DEUI ATION FRDt1 THE CD(1A SHEETS IS. IDENTIFIED ON THE CABLE DIVERSITY WORKSHEET.
1
-1
~
R 5.3 Analyses A computer program "BFN Ampacity Software" was used to perform the Phase I, Phase II, and, if applicable Phase III calculations for l
each tray. This computer program is described in. References 3.23 f
through 3.26.
.j Calculations associated with a given tray are centained in a single h
attachment (Attachments 1 through 45).
Each attachment contains
.- l
'~
computer printouts of the tray's Phase I and Phase II calculations and, if applicable, the Phase III calculations as well as a listing j
l g
of the input data and copies of the walkdown packages.
Summary l
listings of the cables that pass and fail Phase I and Phase II
'l L
(Stolpe) calculations are contained in each attachment.
- Also, summary listings of the cable temperatures for Phase II (Diversity) and Phase III are included in each attachment for those trays where p ' i' cables failed the Phase II (Stolpe) criteria. The following is a l
listing of the trays analyzed and the tray's corresponding attachment number:
u o
1
t 35 4
-?
.,x
- CALCULATION ED-Q2000-87135 PAGE 20
. PREPARED A TM M /
9 CHECKED, AW N/1//29 lgy mf 5.3 40111E11 (Continued)
..r.
.arj Tray Attachment No.
Tray Attachment No.
y 1AT-ESI 15 2FS-ESII 28 1AY-ESI
-12 2GU-ESII 21 q
- 11' j
1EG-ESI 33 3CE-ESI 25 IEL-ESI 32 3CU-ESII
.20' 1EM-ESII 35 3DJ-ESII 13 4
4
9
5 3EFN-ESI 44-2AQ-ESI 2AQ-ESII 8
3EHP-ESI 2AY-ESII
.7 3FZ-ESII 45 q
' 2BK-ESII 4
3GCH-ESII 34
..i 2BU-ESII 3
3GH-ESII 27 2EU-ESI 22 3GR-ESI 6-2EU-ESII' 38 4EA-ESI 37 1
2EX-ESI-17 7CA-ESII 23-1
=
2EY-ESI 1
7CB-ESII 43 i
2FN-ESII 14' 7GN-ESII 39 SFP-ESI 16 2'
Trays having a "T" branch were analyzed in two sections (main branch and "T" branch) due to the limitations of the computer. program.
,6.0
SUMMARY
OF RESULTS-t 6 '.1 Table III presents a matrix that provides a summary of the results for all of the trays analyzed.
For most trays, the number of failures in Phase II (Stolpe) is considerably less than in Phase I.
- This is a result of the additional screening imposed in Phase II.
i The further screening implemented in Phase III results in some trays
.f having less cable failures while other trays have more cable failures than the number observed in Phase II (Stolpe).
This a
mixture of results is due to Phase II (Stolpe) calculations maintaining-a-constant tray temperature and calculating the cable's allowable ampacity while Phase III calculations use the cable's required ampacity and vary the cable / tray's temperature to determine i
the effects of any overloaded cables on the rest of the tray.
4 NPK2 - 2407X e
4 m
a
y<
1 4
- gw. CALCULATION ED-Q2000-87135. PAGE 21: -J /M #/!A9 I PREPARED CHECKED A9V d)OP4 i ' ?[ ke 1 6.0 ggetARY OF SESULTS (Continued) 6.2.' Tables IV and'V provide a list of the Q-cables and non-Q-cables that-failed _ Phase III respectively. Individual Cable Failure Reports for 'each tray having Phase III failures are presented in Section 8. 6.3 Tab 1'e VI provides a list of the Q-cables that are routed in one or-more of the forty-five (45) trays analyzed. =
7.0 CONCLUSION
S Q-cables listed in Table IV failed the acceptance criteria, and tiiey must. be-replaced prior to restart per the'BFN Ampac'ity Evaluation' Program Plan $ -1 Non-Q-cables ~1isted in Table V also failed the acceptance criteria but fin'ai disposition-of non-Q-cables is not a part of.this calculation. '" a However, by replacing the failed Q-list cables utilizing the. criteria from BFN-50-758, pS-E12.6.3, and QIR EEBBFN89001 for sizing'the ~ replacements, no detrimental heating offacts wil1~be placed on the ,,j remaining or replacement Q-list cables by the non-Q-list cables during; 3' normal or accident condition operations at the loads described herein. Overloads'and short circuits are not.a part of this calculation. Refer .to QIR TEPBFN89025 (RIMS B90 890407-005) for further information.. TABLE I- .i PHASE II LOAD MULTIPLYING FACTORS BY LOAD Iyfff, Acolication MulticlYinK Factor 460V' Motors 1.03 Medium Voltage Motor. 1.03 'Small Transformers 1.03 (Under'112-1/2 KVA) ' Electric Heaters 1.03 L-Diesel Generators 1.03 h Load Derived From Diesel Output K Rating of 3500 KVA L L Not Included In Above items 1.03 j Breaker / Trip Setting MOV Motor-Operated Valves 1.15 NPK2 - 2407X
3 g, .' f
- c..
- -we J
CALCULATION ED--Q2000-87135 ~ PACE 22 I *,..- PREPARED 4173/d3/!$9 CHECKED /N W AYNATf ..v: . e; TABLE II FLAMENASTIC DERATING FACTORS FOR: SELECTED FLAMEMASTIC THICKNESS VALUES * \\ FLAMEMASTIC DERATINC 1 THICKNESS FACTOR-5 0.25" 1.00 ~ 0.50" 0.91' 0.75" 0.90 1.00" 0.86 1~25"- 0.85 1 ~ 5 0 O.83 1 75" 0.83 2.00" 0.82 'l . 2.50" 0.80 ~4.00" 0.78 ~ 6.00" 0.76 h. 8. 00-" O.74 f i .l i i a f Reference 3.36 R.. 4 r ,*f l. I, p 5 3 94 1~ NPK2 - 1102X I. we vi v
a j ARLE III'
SUMMARY
OF EBSULTS CALCULATIO0 ED-02000-87135 - PAef 2 6- ~ PREPAllEb LV PVk 4 gg(xtD 31.wrfan ArAw f, PREPARED 4## //8/89 I W(T,C) CHECKED A9f T//llfr9 TRAY- - No. 0F. NO. OF PHASE I' NO. 0F PHASE II No. OF PHASE III ATTACHMENT I CABLES,, FAILURE 8 FAILURES _ (St.lpe). ' FAILURES' NUMBER-e! IN TRAY } Q-CABLES NON-0
- Q-CABLES NON-Q -
Q-CABLES NON-Q E
- 1AT-Es!
10 0 2 0 0 0 0-15 1AY-ESI 2 1 2 1 3 1-12-1A1-381 -7 3 2 0 0~ 0 0- '10. 1EF-ESI 49 0 18 0 6 0-4 36' '130-881 40 0 12 0 5 0 0 33-1EL-EE!< 41 -0 10 0 6 5 29 32_ . t 1EN-ESII. 85 2-33 0 13 0 0 35 ,1FK-ESII' 22 0 . 16 0 .3 0 3 ,.729 '1F0-E811 '42 1 25 0 4 0 0-42 1FV-581 32 5 10~ 4 6 9 14 31
- 2A0-881
. 3-2 0 2 0 2 0' 5' 3 4 1 4 1 8' J2AQ-ESII 15 .4- .2AY-38I 21 2 0 0 0-0 0 2 l 2AY-ESII 7 2-5 0 3 0 0 7 2BK-ESII 9 3 '3 2 0 2 0_ _ 4 .. : t 0 0 3 -28U-381I 3 0 0 0 0 2EU-E'SI # 48 11 11 1 0-0 0 22 23U-ESII-76 23 4 4 4 2 0 38 4_A 2BX-ESI' 47 10 7 0 0 0 0 17 8 23Y-ESI-65 12 16 1 3 1 '5 1 2FK-ES!!' 41 7-18 1 7 0 2 30 -14 3 5 2 4 2 11 14 i .2FN-ESII ,4 2FP.-ESI - 46 13-7 0 0 0 0 16 2F' -ESII'- 50 11 20 0 2 0 2 28 8
- 200-881I.
36= 6-3 2 2 0 0 21 2NO-ESII 46 18 20 10 12 10 13 40' h'< ll 2tF-ESI 72-15 10 1 3 1 0 11 3CB-58I-12 4 2 4 2 5 4 25 l-13CU-ESII' 2 2 0 0 0 0 0 20 [ .3DJ-BSII 10 0 5 0 3 0 3 -13 l' -3DK-ESI! 9 0 2 0 0 0 0 24 3DL-ESII 8 2 6 2 2 2 0 9 3EAK-ESI 6 2 1 0 0 0 0 18' 3EFN-ESI 9 0 5 0 1 0 1 44-350H-ESII 44 2 13 0 0 0 0 26 ~3RHP-ESI 44-0 19 0 1 0 0 19 '3F1-ESII 50 4 20 4 15 6 30 45 -30GH-ESII 25. 1 9 0 0 0 0 34 -3GH-ESII 82 2 34 0 15 0 3 27 3GR-ESI= 40 0 18 0 1 0 0 6 4EA-ESI, 63 5 22 5 15 6 24 37 7CA-ESII 12 0 5 0 2 2 5 23 7CB-ES1I 11 0 4 0 4 7 4 43 7EV-ESII 53 0 23 0 10 1 4 41 .7GN-ESII. 127 4 65 4 58 7 108 39 TOTALS : 1528 183 514 55 214 76 263 .a TOTALS ARE RELATIVB-SOME CABLES ARE IN HORE THAN ONE TRAY g 1 l
k??5 <4.?ePAcIt h h hg i . %Nh.Y@%%NJ~3 J0 TEAT FAILED PHASE 1Il[hT! cit.3D-02006-87135m ~j ]El.?. f.fl/f. >O:( $.??: ) N .l,l,.M~~""h?N' ~ . PREPARED asrlf/ f[sk ,{ h.I,I. k L.((.. ^ f + en cxios sw a s j 1 fyepr e[' YiT~F2W60 ddteeNed.% 8 W M 3lWM.a- ~ ) Mire p)e ;re vistel. /l ,' ? 'Q-C18 Lit 1811111Lt0 tEL$t 1Ig ' ((fCAttts) 7 ' I III) l l CABLE MBtt I 3fff!N l 10LTAGE l ICE /DCI l
- ftA!!!'s)L IUM It t
IUN Et 1 I-1 IUnitt I r, tit!,.I sUnstt -l l l-l I I I I i k' I [7 3'glf g ' ' I f3 f'y'fl yllg, k 2812-!! ':).221-I ft l E1117 1 2808511 l l Es2eg.g g
- ll ll!!
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- llll2dI, i,.m,
- l l
e,,j,,,. us.m 2 m m,u, L 2 I 2 i V4 I V55 1 y si l p,, 7 l y ,y l 65 l y$ l pogg, l igy.g3; ; 3eg,gy; l hhf l lPP102IE ih1275I l e ' )1 y t.b8 - t3141-!~ -l 14 1 75 i P1142 l 117 !!! 1 2AO-ts! l [ pp<go.I i til V l V 85 t 1 3I I I iPIII*IIC l 211 i V5 IP71(2'l2BI!S!!t30I.E;1i~
- E32 0 1 (5 I I V5 1 l A !!
I l PP(72!!C l 211 l V5 l p1142 : J ggg.E3t! l 3DI, E!!! g I l-. I l-l t l l s 8 - LOAD !lK!! P!, ACED ON CABf,t, CAB!,E VII,L NOT B! RE200TED PRIOR 70 UE!? 2 RESTART. l- 't - INACTIVE LOAD, BREAIII IS OPE 3!D, CA!!E VII,l, NO I,0H0!! BE IN SERVICE,
,.,. - +., --+.+2 + .4 s.- -a #.%.. u4-. 4 a w. l* 7 < m, PA08,&I j ' TABLE Y ~.NON-0 CABLES THAT FAILED PMA834I!! CALCULATION B0-02000-87135 sfh: PRsPARs0ar#,s'/s/s9L [ f CusCKs0 W h ' g}lcAuhdw.nfluluts..~; hepn/ fMW-2-Jo-9e- -? a CABLE NUNDER -TRAY (8): CABt.3 NUMBER'- TRAY (8) ~ - < ssp > j ci 2PP140 - 7CA-s8:I i n 1s8600-t - /1st,-s8t : 2PP155 7CS-381t; 138613-1 1BL-B81 '. E 'is5 05-t: 1st-sS t- -3sS1540-1 . 3Cs-sSI: 1s8s25-1 1st-sSI. .3s81550-1 3Cs-s8 t -. 138838-t isL-sSI 3s81560-1 . 3Cs-B81: 1K576 1sL-sSI-3:31570-1 - 3Cs-381 1K591: 1st-s8t-3K501; 3Ft-s8tt- - IPL1719 '1FY-581l 3K576 - 3F1-581I 'j 1PL1717' 1FV-581 3K516-3F1-5811-3F1-5811- !!PL2011:
- 1BL-38I 3K 591'-
' 3F1-5811' 1PL2025 1BL-581 - 3K606 11PL2026 '15L-381. 3K81 3FI-58II-1BL-sSI 3PL1720 3FI-B81! 1PL2225: 1PL2250-1BL-ESI-3PL2001 3FI-3811 1PL2785 1BF-881 4-1EL-88! .3PL2014 3F1-R81! -1PL5135'. ' 1BL-381* 3PL2015' 3F1-BS!!: 1 l b 1PL635-1 ~ 1FV-381 3PL2016 -3F1-5811 l 1P).825 :- 18F-581 4 1BL-58I. 3PL2025 3F1-2811 tIV1950-11BL-581 3PL2026' 3F5-881! / gi IV2460 1BL-581-3PL437-3FE-5811- / '13L-581 3PL50 : 3F1-581l'- NV.
- 1V2465' IV2500-1BL-581 3PL820 30H-B811 l
IV2500L ~1EL-Est 3PP115 - 7CA-38t! s l1V2516 .1BL-RSIL 3PP125 7CB-5811 i , 3PP140 7C8-881I 2801-IB 2FN-581I' 2382964-II' 2AQ-3811 3PP155 7CB-5811.' 3V2460 3FI-8811 .1 ANMilft 'aHo-E 2NM ild F. ado-n B330-13L-581 -1 ANMil7# AHo-r Al 581225-! 1FV-581 .j RNM/ /FF Ago-g 381241-I 1FV-BSI 2NM/198 AHo-5 581263-1 1FV-BSI ~2PL1069 28Y-E81 581300 IFV-ESI 2PL1070~ 25Y-B81 881325-1 1FV-881 l 2PL1075 2BY-38I B81367-1 IFV-BS!-4'4BA-881 l: 2PL1076-25Y-88I E81387-1 3BFM-BSI 2PL1738-II 2FN-B811 E8173-I 1AY-ESI 2PL2014 2FN-3811 582700-11 3F1-BSII- .2PL2015-2FN-BSII BS2714-II 3FZ-BSII BS309-1 4BA-ESI 2PL20161 2FN-8511 '2PL2040' 2FN-BS!! E83745-II 3FZ-ESII J 2PL2385-!! 2FN-ESII B83763-II 3FZ-ESII 2PL468 2H0-ES!! ES3769-II 3FZ-ESII. 2FN-ESTI ES3810-!! 3FZ-ESII 2PL471-IE e 2PL474 2FN-ES!! ES3816-II 3FZ-ESII 2PL475 2F8-E811 j 2PL500 2FS-RSII '2PL545 2HO-ESII l' 2PL820 2HO-ESII ?.; 2PL835 2EY-ESI u 2PP125 .7CA-ESII y i w-- .-wr.,r w w pr. m T --w 4
- _ _ _ _ _ - _. _ _ ~ M TAB'LE;VT NON-Q CABLES THAT FAILED PHASE III: CALCULAT!0H.30-02000-87135 - - PA03_EG -
== l PREPARRDdWJ/ S'IB[8T W CNBCKED JPT 4-/SM % n2 _ *w 3 'a,- w 9F g b c4echad na!9.c. 6 eke LCABLE NUNDER-TRAY (8) CABLE NUH88K'- TRAT(8) 3F1-8811~ PL2490 4EA-381 383075-11: PB675-4sA-381 PL2500 ~4BA-E81 g 'F3699 4EA-381 PL2524' -4BA-ESI 'K1861-70N-381!' -PL2576-4EA-38! .K1901'- ~70N-58II PL2613 .45A-381 i K1913-70N-58!1 PL2625 4BA-B31-K1926' 10N-5811 PL2675 4BA-881 [ E1929 70N-88!!- -PL2696 4EA-381 -K306 70N-38II' PL2698-4BA-381.. K321-1FK-E81I PL2699' 4BA-38I n
- iK322-1RL-ESI PL2701 4E4-881 K334 ltL-R81 PL4575 70H-58!!.
i PL4850 70N-8811 1BL-381' K355 K366-itL-Est PL547 ,2FN-B811 K4165 '3F1-5811 PL654-
- 1BL-381
-L202. 2H0-38 t I' PLL17 3F1-58!! L307 3F1-5811 PLV100 70N-ESII ~*4 L30.8 '3F1-5811 PLV1025 70N-88!! PLV1030 70N-8811 LTO-VR7-(LC50)
- 75V-5811 M76 70N-E811 PLV1035 70N-58II M* -
M811 1FV-381 PLV1040 78V-5811:& 7GN-B811 -P200 /rg-K JrK-I(+ Jh'o-H 'g l PLW1050 70N-8811 P2st-4Ho-2r PLV1054 7CN-ESII
- P286.
IFK-RSII. PLV1069 L70N-ES!! P288 - 2FK-8811 - +.1Ho E
- fRI,
.PLV1070 70N-8811 PLV1072 70N-8811
- P289 2HO-5811 p234-3ag.gggg PLV125 70N-RSII-i
-P296 30H-B8It PLW138 70N-ES!! PL1106 3F1-88gg PLV150 10N-RSII PL1125 1FV-ESI PLV175 70N-BSII i PL1150 1FV-E81 PLV185 7GN-R81I; PL1175-IFV-RSI PLV195 7CN-ESII PL1189 IFV-BSI PLV205 7GN-ESII PL1225 2FN-ESII PLV215 7GN-ES!! PL1275' 4EA-RSI PLV225 70H-ESII E PL201' 1BF-BS! & IEL-ESI PLV235 70N-8811 PL227 3F1-BSIj PLV245 70N-BSII' w PL2314 4BA-ESI PLW25 7CN-ESII PLV255 7GN-ESII PL2380-4EA.ggg .PL2390 4EA-BSI PLV265 7GH-ESII PL2407 4EA-ESI PLV275 7GN-ESII o PL2460-1EF-ESI & 4EA-ESI PLV285 7CN-ESII PL2465 4EA-ESI PLV295 7GN-ESII [; l .PL2466-4EA-ESI PLV305 7GN-ESII lL PL2470L 4EA-ESI PLV315 70N-ESII 'r, PL248 IEL-ESI h
) VABLE V NON 4 CAELE8 TRAT PAILED PRASE !!!-~ CALCULATION ED42000-87135 q AGE M j PREPARED 417W dl'Blr hl-CNBCKED E W# 7i CAELE NUMBER - TRAY (8)
- CABLE NUMBEE~
TRAY (8) j t 'PLV325 7W-381I PLV650 70N-581I-PLV335:. 70N-3811 -PLV660 70N-ESI! PLV345 -- 70N-E81I' PLV693 70N-ESII-PLV356 70N-ESII .PLV696 .70N-38II l PLV364 70N-ESI!' PLV700 -73V-ES!! & 70N-RSII PLV703 73V-38!! t -PLW370 70N-581I .PLV38 iM-58!! PLV707 70N-5811 ,a ~
- PLV381 70N-5811 PLV709 70N-58II.
PLV425-75-3811. PLV713-70N-E8!1 PLV715 70N-88t! PLV430. 70N-ESII PLV439=- 70N-ESII PLV725 70N-58II PLV444 70N-581! PLW732 78N-5811 PLV453~ 70N-5811 PLV75 70N-5811 PLV740-70N-ESII 7 5 -3811 - PLV456 PLV459-70N-3811 PLV750 70N-ESI! PLV462 70N-3811 PLV765 70N-5811 ? ~PLV465; .70N-ESII PLV772 70N-ESII L(] ~PLV468 70N-ESII. PLV780 70N-ESII j PLV471-70N-38II PLV792-70N-3811 PLV825 70N 8811 -PLV475 70N-5811 PLV478 70N-ESII PLV840 70N-3811 PLV485' 70N-5811 PLV855 70N-E811 70N-ESII PLV88 -70N-5811- .PLV486 PLV447-70N-881! PLV950 70N-58I1 PLV488i 70N-E811- -PLV959 70N-5811 PLV50-70N-E81I PLW980 70N-E81I PLV500. 70N-ESII PP91 7CA-88I1 PLV501 70N-ESI! PP99 (A) 7CA-ESII PLV502-7GN-ESII FE4936 3DJ-ESII PLV503 70N-ESII FE4937 3DJ-E81I PLV521 '70N-ESII PE4938 3DJ-ESII PLW575 70N-ESII PLV578 70N-ESII PLV581 '70N-ESII PLV584-7GN-ESII PLW587 -' 7GN-ESII PLV590-70N-ESII PLV593 70N-88II
- PLV596 7GN-BSII PLV600 7GW-ESII PLV610 7G;l-ESII PLV615 7GN-BSII PLW620 7GN-ESII
' qi,g PLW628 7GN-ESII PLV640 7GN-ESII s.__ J
a e. 1 > TABLE VIi 0-charms IN TRAYS ANALY1BD 30-02000-47135- - PAGB 28 - PREPARED Wr# #/tJM CBECKED A9f CA&29 c CABLB NUMBER CABLE NUMBER CABLE WUNSER CABLE, NUMBER f 1588.-15 2383465-!! 2PL2435 Es2613-II. 1382975-I!. 2383466-II '2PL2450 582641-!! 1583725-11 2383625-11 2PL2460 - 382652-II. 2PL435-IE E82689-11 i t; 188475-I '2883650-!! 2848-15 4' 23s3660-II 2PL437-It' 582825-11.. 2892-15 2883671-II
- 38193-15 382850-!!
E82851-!!- 2333.Ig< . i 1383645-IIM' -3597-13' r Es2863-II 2Bs3685-II-sN 3382200-I 238106-1 2383700-!!
- 3382205-I 382864-I!-
' " 2381125-!- ,.2581150-!; - 2583712-11 3582975-!! BS300-I 23s1188-I. 2383725-11 < ~3583188-!!- Es325-I 2883735 3883650-II Es3325-!! )
- - '2381195-I
'J-2381428-1 2383902-11* " 33s3660-11 ' ' 583329. '2Bs3903-II 3Bs3671-II 883333-11 , i 2381450-I - 2382762 23s3906 II-- '3384080-!!' E83337-1I. 3834090-11 58350-I 2B82767-11 ~ 2383910-!! 2382775-11 2Es3915-II 338475-! Es363-I 3PL3780-!B E8364-1 2382748-11. 2883918-!! 'E2382813-11 2384365-II': 3PP732-1 583700-II 383750-11 1 2582819-11 2384450-!! - 3PP733-! - {.. +, 2E82819-1I-sH-258450-I 3PP734-II -E83780-II d-2882825-II-2Es475-I B514-13 583788-!! 2Es2831-II 2BS500-I-3518-13 383789-11 2Es2831-II-su 2B8513-1 8522-!E B83825-!! t 2Bs2838-II - 23s526-1 58100-1 383887-I! 2Es2838-II-sH 288538-I E8113-I. Es50-1 2Es2850-II. 238550-1 E81200-1 E8752-1 2582856-II 258563 331201-! 5875-I y Es1250-I E8825-I 2Es2856-II-sN 2Es56-I 2Es2900-II 238575-1 BS1310-1 Es829-I 2382975-11' 2ES588-I ES1316-I BS833-I -2Bs3000-II 2E8600-I ES1344-I ES837-! RS88-1 2B83013-II 2ES613-1 RS1347-I 2ES3038-II 233625-I Bs1350-1 PL1237 t 2383050-11 288638-I BS1355-1 PL2710 288305-I 258650-1 RS1375-I PL2725 -2383063-11 2ES663-1 E813-1 PL2750 2ES3075-II 2ES675-I ES141-1 PL2775 2883088-11 288700-1 ES152-I PP1023-IE 2E83100-!! 288713-I ES1616-IA PP459-IA 2ES3113-II 2BS805-I ES1709-IA PP460-IA 2BS3125-II 2ES825-I ES189-I PP471-IIC 2ES3138-II 2ES838-1 ES200-1 PP472-IIC 2ES3150-II 2PC1001-I ES214-I PP633-1 288315-I 2PC1003-II ES250-1 2ES3163-II 2PC260-1 ES2513-II 4 2ES3175-II 2PC303-I ES2550-II 2ES3305-II 2PC994-II ES2575-II 2ES3325-II 2PL1745-II ES2588-II ~ 2ES3338-II 2PL2425 ES2600-II CALC ED-02000-67135
,838 I SIVIDuhL TBAT FAIL M B 890B?8 BD-02098-87135 PAaB 29 . WO Y CBBase e veme ~
- TBB POLL 09tBO LIST IDENTIFIB8 TBAYS B&VI M'PB&BB 11I PAtLUBB8
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- 1. OPERATING TEMPERATURES EXCEEDS MFP/ED TEMP.
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- 7. VOLTAGE LEVEL SEPARATION FAILUFE q
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- 7. VOLTAGE LEVEL SEPARATION FAILtAtE
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- 7. VOLTAGE LEVEL SEPARATION FAILURE i
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Fs t. 1 .(- f < a... ~- ^*" =10 6-LIST _'0F TRAYS AiATTACHMENT NUMBERS ED-02060-67135- - PAGE A p 3 PREPARED &#F# g/2/89f . g 4 ^ CHECKED AI4f e/NAPf-n/ ' W. TRAY . ATTACHMENT ~ i-NUMBER (1 1AT-ESI 15 '- '" 1AY-ESI 12' lAI-ESI .10 1EF-ESI - 36~ 130-E81 33 1EL-ESI ' ' 32 1EN-ESII 35 1FK-ESII 29 1F0-ESII (2 1FV-ESI 31 2AQ-ESI 5 2AQ-ESII 8 '2AY-ES! 2 2AY-E811 7 .2BK-ESII 4 4 2BU-ESII 3 25U-E81 22 23U-ESJI 38 2EX-ESI-17 I -2EY-ESI 1 2FK-ESI! 30 o 2FN-ESII 14 l -2FP-ESI-16 2FS-ESII 28 2GU-ESII 21 ^2H0-ESII 40 2IF-ESI 11 3CE-ESI 25 .j 3CU-ESII 20 1 3DJ-ESII 13 i 3DK-ESII 24 3DL-ESII 9 3EAK-ESI 18 3EFN-ESI 44 3EGH-ESII 26 j 3EHP-ESI 19' - i 3FZ-ESII 45 j 3GGH-ESII 34 3GH-ESII 27 3GR-ESI 6 4EA-ESI 37 7CA-ESII 23 7CB-ESII 43 i 7EV-ESII 41 7GN-ESII 39 4 4 l
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3._ ~ '? . {~..eTp s p l4 ..'s ATTACHMENT-40-0. CALCULATION ED-D2OOO-87135s SH. 1- - 0F- 'l PREPARED:_/// CHECKED : ___M___ DATES i /re/ar82, fgg y,,y,,,,g. _DATE3_2J.-jf, N E.. oukes w.h.9Mhk skk )' p e er/ - '##M' M 9-fo J. . M red ecleg 2t M h n yhv/f0 NUMBER OF'PAGES-IN EACH ATTACHMENT Attachme t.40-0 ' Cover Sheet Trmy 2HO-ESII 1 '
- 1 - Phase I Calculation 22 l ?
40 Phase 11 Calculation 23. 'T 3 -1 Phase II Diversity..(AL MODE), ' -20 [ p, 40 PhaseiIII Diversity (EL NODE) 3.[h M/F
- bi y ' O-. 6r-Phase III Diversity.(ACCIDENT NODE),
17' , 40-!5 - Phase III-Diversity (UNIT 2 NODE)- 1 v ? 40-7., .' Computer Input, Data _. _; 22,,,,, s 40-7A _7es+ificalien for Compv4er.Tet us.e l. RW ~ 40-8 -' COMA l Sheets ,_. 2 Y-40 Final Data: Package 7 40 Walkdown Package WD-34 40-Y 40-11 -'Walkdown Package:WD-1092 14 .40 Walkdown Package WD-1711 11 40-13= .Walkdown Package WD-1723 7 .)- -/KH- '*20S Total: Number of Pages In This Attachment 7,f fp OOi r'P - //jgI! mp ' ,) V.tr. y Computer'RunLNumber 890421112427 f o l, $1 Cornpvfer Ron Nuasber 10033001.;U53 RJ l
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,y. , v' M- - w" -l ED-Q2000-870135 g . 0-7A [{} Sheet 1 of 1 prepared _2 k%b y-2 9-70 0 ( Checked y L 3r!/ M Wy/fgr ~, e This sheet added by Revision 2 1 Cable 2PL820 1 For. conservatism, the come sheets show 480V plus ecceptacles as continuous loads (continuous operation for greater than eight hours). To determine a [) more accurate result of the cable operating temperatures, plug receptacles may 1 . on a-case-by-case basis be allowed to be turned off. Plus receptacle-(cable 12PL820) is turned off in all three phase III, diversity runs. This is-J acceptable since the cable supplies a 480V ' receptacle in the elevation 621 Unit 2 4kV shutdown board room and a 480V receptacle (cable 2pl821) on the elevation.639 floor coluan line qRll near the standby liquid control tank,- both of'these' receptacles are in low activity areas. Maintenance or I Modification activities in these areas would not require continuously loaded equipment such as large f ans, large pumps or 2.ultiple welding machines for a duration greater than eight' hours. 480V receptacles are typically used for short duty cycle equipment. Most of-the tools and equipment used in these areas,vould be powerod from the'120V receptacles. Therefore, the 480V receptacles in these areas will be considered as intermittent loads. $h 12# Motor Hester Supply Cables t During an accident, the safety equipment motors are energized and the motor heaters are automatically interlocked to turn off. 4 0644e/l I g i e u = - - -}}