Text

Rev a to EE-FP-0005, Evaluation of Cable Trays Outside of Congested Cable Area
	ML20154M436
Person / Time
Site:	Fort Saint Vrain
Issue date:	09/09/1988
From:	Bonadies D, Schmalz G; PUBLIC SERVICE CO. OF COLORADO
To:	;
Shared Package
ML16287A411	List: ML20154M399; ML20154M436;
References
	EE-FR-0005, EE-FR-5, TAC-66508, NUDOCS 8809280296
	Download: ML20154M436 (60)
	v • d • e

{{#Wiki_filter:r; OSOfVICO* Public FORT ST. VRAIN NUCLEAR GENERATING STATION PUOLIC SERVICE COMPANY OF CCLORADO O EVALUATION COVER SHEET EE-FP-9005 REV. A EVALUATION OF CABLE TRAYS OUTSIDE OF THE CONGESTED CABLE AREA Prepared by: eb- ((udI9 9/?/88 David @. Bonadies-Electrical Engr. DAIE Verified by: lf [iY hh 6 / iOATE Approved by: M/1 T/dh i DEPARTMENT MANAGER LU DATE 4 4 J P F i t FCRM IA) W. 22 5317

FORT ST. VRAIN NUCLEAR GENERATING STATION O Service' Public Eb Eb MMM6 PUBLIC SERVICE COMPANY OF COLORADO % scu"mat a sy CHECK LIST OF DESIGN VERIFICATION 3 QUESTIONS FOR DESIGN REVIEW METHOD PAGE _._Afdf - / L] YES NO N/A b 1. Were the inputs correctly selected and incorporated into design? ))] 2. Are assumptions necessary to perform the design activity adequately described and reasonable? Where necessary, are the assumptions identified for subsequent re verifications when the detailed design activities are completed? Ub 3. Are the appropriate quality and quality assurance requirements specified? {] 4. Are the applicable codes, standards and regulatory requirements including issue and addenda properly identified and are their requirements for design met? U 5. Have applicable construction and operating experience been considered? UU 6. Have the desigr interface requirements been satisfied? U b 7. Was an appropriate design method used? bUU 8. Is the output reasonable compared to inputs? UUC 9. Are the specified parts, equipment, arid processes suitable for the required application? )) 10. Are the specified materials compatible with each other and the design environmental conditions to which the material will be exposed? UUb 11. Have adequate maintenance features and requirements been specified? ] g 12. Are accessibility and other design provisions adequate for performance of needed maintenance and repair? (d! )){ 13. Has adequate accessibility been provided to perform the in service inspection expected to be required during the plant life? Ub 14. Has the design properly considered radiation exposure to the public and plant personnel? ] ] 15. Are the acceptance criteria incorporated in the design documents sufficient to allow verification that design requirements have been satisf actorily accomplished? ] ]- specified? 16. Have adequate pre operational and subsequent periodic test requirements been appropriately UU 17. Are adequate handling, storage, cleaning and shipping requirements specified? U b 18. Are adequate identification requiremerqs specified? UU 19. Are requirements for record preparation review, approval, retention, etc., adequately specified? NOTE: If the answer to any question is no, provide additionalinformation and resolution below. RESOLUTION OF DESIGN DEFICIENCIES UNCOVERED DURING THE DESIGN VERIFICATiWPROCESS f/ i . f( ~ JQ) l' ro, o ei x4 m a s

EE-TP-0005 g,y A EVALUATION FORMAT 1.0 PURPOSE 2.O

SUMMARY

3.0 SCOPE 4.0 PROCEDURE 5.0 EVALUATION

6.0 CONCLUSION

7.0 REFERENCES

8.0 ATTACHMENTS 1

i EE-FP-0005 Rev A (} Evaluation of cable trays outside of the Congested Cable Area. ~ V

1.0 Purpose

The purpose of this evaluation is to determine if there is a significant concentration of non IEEE-383 cables outside of the Congested Cable Area (which includes the Three Room Complex) which does not meet the requirements of Appendix A paragraph D.3(F) to BTP APCSB 9.5-1,

2.0 Summary

No areas were found to exceed our criteria set forth in PSco letter P-88200 dated June 13, 1988 to the NRC (NRC request

3).

Since some areas were close to the maximum allowed, it is recommended that this study be completed biennially to ensure that no area exceeds our limits.

3.0 Scope

Tray locations outside of the Congested Cable Area were reviewed to determine where significant concentrations of all types of cables exist. A significant concentration of cables is defined as being the equivalent of 3.5 standard 30" wide, fully loaded cable trays within a 20 ft. radius. These guidelines were set forth in PSCO letter P-88200 to the NRC dated June 13, 1988 (~ (see NRC request #3). This evaluation is looking at all cables in trays including both IEEE-383 and non IEEE-383 cables.

4.0 Procedure

Drawings E-88 rev P, E-89 rev R, and E-1948-1 rev A, were reviewed and marked up to show all 20 ft. radius areas of possible significant concentration of cables in cable trays. Highlighted on these drawings are all cable trays that presently are coated with flameastic (see attachments G, H and I). Trays that are coated with flameastic were not reviewed because they already are protected against fire propagation. See attachment F for the list of cable trays where flameastic has been applied. Drawings E-88 rev P, and E-89 rev R, for the Reactor and Turbine Buildings respectively have calculations completed to show the percent area fill for each 20 ft. radius area. Calculations are shown on attachment A. Attachment D was used in these calculations as it shows all cable trays that have tray fill calculated for the Reactor and Turbine Buildings. Drawing E-1948-1 rev A shows cable trays for Building 10. Tray fill for these trays was done by hand. See attachment C which shows the calculations to find the percent area fill of each tray. The cable tabulation database (I-9301-700) and the tray file database were also used in these calculations. Each tray /s was found in the tray file database with all cables going thru (s that particular tray listed. Then each cable was found in the 1 [

EE-FP-0005 Rev A cable tabulation database which listed the Bill of Haterial (BOM) ( under which each cable was purchased. Attachment E lists by BOM number the area and diameter for each type of cable, used at FSV. By adding up all the areas of cables that run thru a specific tray and then dividing that number by the tray area, the percent area fill for euch tray in Building 10, was calculated. (See attachment B). At tray intersectione the following criteria was used to evaluate the percent area f;11. In areas were trays are physically together as one truy, even though they have different tray numbers along the routing, an average percent tray area fill was calculated within the 20 ft, radius. There are basically two types of intersections. Type 1 is called a T-type connection and considered to be two trays. At these connection points the following rules were used. The main run of tray had its percent fill calculated as an average percent fill for the tray even if it consisted of different tray numbers. Then the tray that intersected into the main run of trays had its tray fill added to the main run fill. See example below: PIT l@lr IdWT l \\ ) \\ / \\ / I Ns __ - l Trays 101T and 100T had their percent fill averaged and then tray 99T had its percent fill added to get a complete percent fill for this area. The other type of intersection encountered was a H-type connection and was considered to be three trays. At these intersection points the same basic rules were used as for the T-type connection. Both main runs of tray had an average percent tray area fill calculated separately and then added together. Additionally the percent fill of the connecting tray was added. See example below: L A IG2.T I 3T l@fT Ig5T I I OTrays 102T and 103T had their percent fill averaged. Trays 104T and 105T also had their fills averaged. Then tray 106T had its 2 l

EE-FP-0005 Rev A fill added to the two other tray averages to get a total rw percent q,) percent fill for this area. Each area was considered to meet our criteria if its total percent area fili did not exceed 350%. It should be noted that this percent is based on a full tray being 40% full.

5.0 Evaluation

No areas were found to exceed our criteria cf 350% allowable tray fill for any 20 ft. radius area. Some areas were close to the maximum allowed. If a significant amount of cables are installed through these areas in the future it could put that arca over the maximum 350% allowed fill level. 6.0

== Conclusion:== Presently no further action is required. There are no 20 ft, radius areas presently that exceed the maximum fill for the area. This study should be completed biennially to ensure that no area exceeds our limits set forth in PSCO letter P-88200 (request #3). 7.0

References:

f~D 1) Cable Tabulation & Tray File Database (I-9301-700 Rev kl AB). 2) Drawing E-88 Rev P. 3) Drawing E-89 Rev R. 4) Drawing E-1948-1 Rev A. 5) Letter P-88200 dated June 13,1988 from PSCo

.o NRC.

8.0 Attacnmsnts

A) Calculations for drawings E-88 rev P and E-89 rev R cable trays % fill (Reactor and Turbine Buildings). B) Calculations for drawing E-1948-1 rev A cable trays % fill (Building 10). C) Calculations for percent tray fill for individual Building 10 cable trays. D) List of cable trays with tray fill calculated by the

database, s

t/ E) Cable Gi es listed by Bill of Material. 3

EE-FP-0005 Rev A O F) List of trays coated with flameastic. G) Drawing E-88, rey P. H) Drawing E-89, rev R. I) Drawing E-1948-1, rev A. O t O I 4 t 1 -

y OServices Public F RT ST. VRAIN NUCLEAR GENERATING STATION ATTACH EdT A PUBLIC SERVICE COMPANY OF COLORADO CALCULATION WORKSHEET (o) CALCULArioN foA CALCuLArioN Nuvat A C A ELE TRAYS %FlLL FOR DRAWipcA E-89 E E - P P-G$d5 pagpangs gy 07 Bo dies loa 7E 2t//#/M st's (413 t v ICAff ! CALC. agy teacg } cs 23 ORAulWCn E-69(BEW ELEV 4611'-O') l AREA 1 i T_M't. % c)LL rRA'l % F1LL TRAY M 4V'" % II* WAV E F ILL-12G T -' 3179 127T s 41.lG 13lTo 37.59 = r s.s C a IEW' 37*9I p3gqg 127 M e 19.~7+ 124O* ** W g3gg, 24,g3 3 2@.50 119 B S 4.G3 g3g g, g,gg 4.961 1"M 'A A R TRAY % FlLL TRN/ %Fht AW % FILL llBT -5 id. 'S 629T-s 6.10 ' * * 0 1 1 M T-> 14.14 12.8 m- > .12-129164 2.93 26% s ym.,4.75 TOTA L 0 FILL FOR AREA l : 1 Z 3.73 } [ AREA 2 } TA % FILL TRAY % FILL A% % FILL (\\._]/ ~ 13GT + I414 GZTl428.GZ = a).38 k 13d Ma 4.7T GZM11 2.19 = 3,47 G2 Bis 3.10 - 3,t d ; TRAY % FILL TdR '/ %ALL TRA'f LFILL A%% FILL 131To 37.57 132T-r 41.14 g37., 4i,iG r 3*i.0 2. = 131 Me 14.43 13 2%,19.7r g3g, 31,4 2%.48 = G1B4 5.23 132B+ 11.% sas,12.33 5 3'b TDTA L % FILL FOR AREA 2= [l q)5, f j j [A6EA3] TRAY % FILL TRAY gFILL TRAY g pill Ag. % FILL ET + 4G.9@ gn 4 4G.41 tgtA3 gntt N472.6 BEM* 2.%AY e47,3%34 9)tn '* l'.UI s 89E* 9.99 94M,25.02 A9' C 89T

9.d@

9t B 4 8.9 L s 9q4 6.55'

e. 48 ;

sqm 12.7 0 } .T3M % FILL _ 3 % FILL TRA9 % FILL awn % F)LL 7 72T2.4 57.9 '+ qqi., 5 Z 00 1 ray 72 M 'A

21.9 1 93T 4 Gs.79

_ % FILL. ( 58.0 5 92Ta 41.2 % 3 qa g, 18. +1 72 B Z* 6.51 q3g 11.90 2.). 4 4 n 9064 2.15' 92M4 3,21 '5.L] ggg ; 2.35 s". TOTAL % FlLL FoR AREA 3 IlZ)2.3%, 3

Public FO.7T ST. VRAIN NUCLEAft GENERATING STATION SOfVlC9e PU LIC SERVICE C2MPANY CF COLCRAD3 CALCULATION WORKSHEET CALCULATiCN FOR [-~) f CALCULATICN NUMBE CAB \\.E TR AYS % FlLL FOR DRAuluG E Si 8Rt848t3 SV b --l' hyAeg! ICATI 6//6/88 1 atytgwgg gy l cart ICALC agy Ipacg y ca g,3 (AMA4 TRAY EFILL TRA'f SFILL mA'y % FILL _ TM'i 2 FnLL_ A grn S FIL L. 125T-o 31.1'I 122.T+ 215 37 izra 22,76 nq7., 2aiG ras M-2 15 18 r = 2c.30 qqq, n,99 i.g g g o n,)3 09 M-' 321 its B+ 3.38 33' 0 3 = 122 B+ 2.alf yggg l.G3 ng g, 1.23 2.67 s TA AY % FILL TRAY % FILL TRAY SALL TRAY % FILL 1147 -*[0.59l 1237*B.8&l R35*IIG953 R% + l 8 06I OTAL % FILL FcR A%A 4 : "N5.48h [AuA s) TRAY 9ptLL TA A Y % FILL TRAY SF)LL ANKn 9, FILL TRAN % FlLL. )g Ta 19.48 115T5 22A4 07T+ 2.04 F20 % ) R31

1 Z #

= 114 M

18 Z8 liSit+ e.73 iivg4 :z.t v 1o.43 s

)N B

l.86 IlsB s G 41 1198+ ) 23

1. l lo ;

B3 -:) I g,9I J .raov ,,, i t L TBA't % FILL TRAY % FILL TRAY _ %HLL TRAN % FILL _ A\\J(n % FILL 11oT + 4. 42. 3717+ 4.cp it9 T4 0.09 ))sfa 33.92. = [ l 2.2.G l TRAN % FILL. ' T R AV % FILL '_ TRAY % FILL, R14-7(sB.G9) 393 i 2.77) Ub T [0 L a.' M 11e rn 4 25; TOTAL % FILL FcR AREA 5' =(lgg,J f [ AREA c.} E _2 FILL TEA'l %nLL T AsJ(3 % FlLL 9Ma 32.11 1101o 21. % Jq %F)LL Tpp/ g = 2.7. o 't y n 19.58 ) o 6

18.83 =

19.2i 112. + [3G.G71 II3 9(2L ZBl M B+ 4.02 lidG* 355 ' 3 79 > 7R 't 3> FILL TRAY SitLL TR A'l '6 FILL TR AY % FILL TRAN % FILL RM -5l % d 828*lp.95) W[313y} R2d elssal R1)* U8A9 O roTAL % FJLL FOR ME.A G =I[2fo9.3 G I

Public F RT ST yRAIN NUCLEAR GENERATING STATION SCfVlCOs PUCLIO CERVICE COMPANY CF CCL"JRADO CALCULATION WORKSHEET CALCULAT6ON FOR (') cante nays a, Flu-FOR DRMIM6 E-69 I CALCULAT10N NVMBE4 EE-FP-dd r \\_) enteanto av D.V. Bemdi e s icATE 6//Wie6 4(veEO gv {DATE (CAL afv IPAGE 3 CF Z3 (AREA 7) 7RA1 S FILL WAY %F)LL TRAN % Flu TPA'/ SFitt 4 % $ F/L L )\\GT + 21,% 997., 32.21 9BT

31.31

97 ; 4912 il$M

18.03 qqm M.5B 9BM4 20.47

,33,qen 11 # 8 357 lg%.* 52.13 qqga 4R 9 B B -7 2.4 l 2277 167Fp 2 58 -[ .1. I 4 TRAY % FlLL g % FILL T1; A 1 % & TFAY %51LL TRAN % FILL M.4 31.coF

874

.3.9 R254 (U M3 R2G+ M 5 4 (5 7 3 5} IG9 m,12e.64 l(/8m4 E l9 TOTA L % BLL FOR A RE A 7 [3 @.9 4 = (AhP.A Bl TR A'/ % FILL TRAY % FILL. TRAY % FILL TRA7 %Al L 4% % FlLL 99T4 32.2.1 98To 31.31 197T4 M.12 9sTo6GJ1 = e.e41 O % M4 19.5 8 9BM4 20.45 179tr)4 32.13 9 5W 52. ll = 14.@9 g m 442 9064 2.41 1078-* 2.58 95G$5.83 =

3. 7 l 1

TRA9 SFit.L 7 pay $Fitt 7 pay g g 9 )),'h RLS$3^b5b MG*(TCis) TOTA L % FlLL FoR ARYA 8 = J 3 \\9.%] l l o i s misiwie o

Public FORT ST. VRAIN NUCLEAR GENEDATING STATION SCrVices PUELIC CERVICE C'lMPANY CF CSLORAOD CALCULATION WORKSHEET catcuunos rea -[ l C AELE.TRA'/4 2 FILL FOh DRAwi% E Bi icatcuunos st.veta I EE-F P- $dd5 \\~ ' pate4atD sv o.1 ancAe, lear elly/ga a fvirA ED S V ! O 4 71 30AL agy

SAGE 4

C' 23 MEA 9 ] TAAy g FILL. TilAY % ALL TTIBf % FILL inA9 % FILL A% % FILL 937 aGs.71 qv7-9 48.25 cK,T-7 %47 947* 29AB = 48.W l 93M

14A1 97m., P.32.

qm+2%8 94m4 2%1 2C 63 = q4 g4 4.6 G. 55 J w M % rit'- TRAY % FILL TR Ay %nLL A% $ FILL TMy % FILL 1@21+ 9.09 lo n -> G.' lhe G).GW =- 2 7.19 a 9 s T + ' W. Igz rne c,,7<,6 pJim-> F > i1@M* 8.4 8 ~h 18U 9s 3 95 ] yT % F1LL g FlLL TFAY $51LL TRAY Po F'lLL TRAY % F1tL 7t:t AY % FILL l03 ->[i2 id 4 2%s'1 10s + (29.37) R23 + 00.!0) R2.4 + (31.os] I\\i9se (10 30) TOTA L % FILL FCR ARE A 9 = 133 8. 3 8] o V 1 .-.,m-

Public FORT ST. VRAIN NJCLEAn GENEMATING STATION SCTVlC9s PU LIC CERVICE CCMPANY CF C'lLCRADO CALCULATION WORKSHEET TN, CALCULATiCN FOA () c48LE W.AYS SFlu FoR c1WMm E-93, CALCVL.ATION NVMBE4 j E p, y p. g g g y ? 88f 848E3 8v ta 7, Byd,35 ICATE $//g/pft arvitwg3 gy lCATt ICALC #EV iPAG( 08 23 j t%Mim E-89 (p_icu ELEV 4829'-o) [6%E A 10 ) TRA4 % FILL TP,A4 % FILL T7Ay 7 pill _ TRAY % FILL A}Cn % CILL 143T ll.fefo 14fT4 13 32 147T4lG.fl LSGT.* 6.76 143 M + 4.50 14tM-> '2. Y+ I HM = 1436' 11.0# l p,y, Z.49 I come2.17 2.93 14569 G.W a 349o,c M 15d*C.43 = 9'80 I TTtAy % FILL -1V AN % FILL JT9 %JiL L. TT(A9 % p)L L A\\M % FILL }44T.9 L,42 14GT-*l.54 14BT+ 6.10 mTM.G# l44m.= 3.9 I i4(,m.,1,2.1 Z.GF } 9.02. = )44B+ 4.ZI pgm.91.2d 1468 + d.21 144m,2.08 ges3g,11 jeg.,01@ = L I' I b > TRAN $ FILL TSA.y SFILL 7tyrA L S FlLL F(;LR R25+ flG.953 R3Ca

A1Ns.4

)o =L 4-7. l l)) [hsEA \\ \\ ] O TBAN % FILL TRAY BFitL TRAY %F1LL TVAy % FILL AVQ % FILL 1477->l@.51 1 50 T-9 6.~4 5 152T4 7.2.9 )470)-> '2. 4 4 1s379639 E iscas d.37 I s z m o 2.54> = 8.23 14784 G. /., # icyB+G.43 152B-7 3.05 g5 w.,l.2 5'

2. ICa I m., L76

4. 7 I

= T9A9 % FILL T9N EFlu- _A% % FILL. TR A Y %,,,,,F,,1LL TRAN % FILL I4BT4 Seld I4974 6.8# = F' GU S 151T+ 4 53' R37.')@ 140m.,l.2d g4qm,2,cs =

1. M 15lMS h86 148B+ dell l 44 g., 0.01 =

l d'II ) Tray % 5ILL g 3 3 d V 5 T) TOTA L Fo F)LL FOR ARE A M = 4 4. i on e. >ss am

Public FORT ST. VRAliJ NUCLEAR GENERATING STATION SOfVIC9' PUZLIC SERVICE CGMPANY CF COLORADO CALCULATION WORKSHEET r'~ CALCULAT40N FOR Q] CABLE TRAYS % RLL FCP. ORAQi% E-69 1 CALCULATsCN Nyv8( A l E g. FF- (d 5 pageapto gy D, J. MQdide ICATE 8lldl(l2p m ngyg4:3 av lcatt IcaLC. age ipact g or 2 '5 [ ARE A 12. I TPAy %RLL TFAy % FILL TP AY % FILL. TRAY EFILL -TTIA Y '6 FIL L AVCn % FIL(, 1567-> 6.N IfroTo O'.2.8 157T + 6.28 1s87-, 948 JGIT-v 15 3s' = J 9 3@ l i55M4 IS7 ) SGM + l.7'i 157mv 139 i 56M G.34 lccl/W 7.89 Ml 155 B-7 1.27 isoB+ 1.27 i393, c.68 l.'.6 6+ t.10 10iB+ A96

1. @

= i TFAY % FILL TR AY % FILL TR Ay % FILL._ ET % FILL. TE SL ic2.T 4 e.lG Ird)-*f38.G7) Isq-3 liz.7el R3o, g M)H ie.4 91 10zm, zi.34 lG2B S @ 00) I TO'TA L. % F)LL FOR, A RF.A l'2. =. j l G8.161 JA6EA \\3) TRAY s,nu_ my_Ay SntL Tant % FILL TRAY EFlLL_ A Wn % FILL O-tot->zo 's 'ro7+ " *> 2( 57-> ve i'd'-' 't '# = " " *

1 107M* 3.74 i%me io.ez issm-3 12.1 7 le4A14 ll.08 :

%7B* 416 ) (4,B + G.39 I G58 -2 5.94 lO 46 + 6 36 : 1 5'4# l TJgf S FILL lle87 0 9. N ' Tq TOTA L % FILL FOR ARE A 13 = ivem.,In 403

7. 6 3, ;

4. w lG6 Fe*

(TmEA M) N'f MLL T W 1 1!1L mAY g Aggp}gt l% T+ R.03 10FTo l2.7@ lG47 9 /2.?r) is.gs' ' 7449 Q, 7, g g,g, j%m + /W.82 l(f./n o f t,17 9,; 9 jg4m.*ll.86 l%B+ 0 3M 1G'0 0 5.9 4 164B+ S28 10 0 M-> 4.93 l1.62 -8

f. 87 lG66* _ O. 46 )

a "iMi MitL TPA'/ EHLL 171T e 34M TMY % FILL A@ N 171T 32.7l 17376 4 1 % 7 17274 3 3.S 4 ' 9 3 1'. M 1 9 m.,l(s,)/ 113 2.$ l.18 l7 taw j 4,98 : N )?) B+ C.4 )?t 6-7 ,70 - p86 3

O SOTVICG*. FORT ST. VRAIN NUCLEAR GENERATING STATION IUbilC PUCLIC CERVICE COMPANY CF CCLSRACO CALCULATION WORKSHEET CALCULAriCN FOR (A) CAEL.E WAYS % F)LL. FoR DRAcicG E-61 CALCVLAT CN s VMSE A EE-FP-@$ts n i.aa 0 s< o r h die; ICarr bliolse 1 REvtwto af (C&TE ICALC *EV l' AGE 7 08 23 I (ARTA \\s] TRAY % FILL _ TRAY % FILL Tygy % FILL. TLW SFILL-TRAY tritt A% % FILL 169T4 Zl. @ 4' 170 T+ 33A l 171T 4 3&tl 172.T + 3 h f4 19 Fio.14f? =

31. ) p IG9M* 13.91 t

l?sm+ 1557 igi m /G ll 172 M a l4.M 173Molu? = 1s.9 9 1098* l.02 17 G-9 p.9fe 710, oW) 172 E$ a # ig3t->l.l8 = o.89 3 7 9, AN ' MILT. TJQ %51LL TRAY TILL TRA'l 9> FILL Tbtf E nLL (/jBT- @ g434 M R41A F 29 Rn +{lG.IM PA4-*fil.091 Igem4 4.7'1 ioee4 2 TOTA L % RLL PCR ARF,4 15" =Jjc 7,9 )ll [ AREA )(e) Ty y)LL 79A'l $ FILL TRAY % FILL TJdy @ TJRA M iu-M % FILL O ivo'- 33 'z iei,-> u.t> i' T-> 33 c 4 i ~e' -24.'+ i+4,-2>av ' 32 481 I?/M*1849 FH m, z,.l i )72M

14 78 173/he19.69 3943, J9.54 =

ll'l3 19 6+e.66 3y 3 3, g,py 1720-5 d.50 luo+ l.18 l94p 1.98, l.d4 T6*/ %s FILL TRAY EFILt. TRAY M TTI M S_n X lle0, * { 9 2.R ARE A fr = };3g,gy o [Aw4 17 J TR AY S FILL Tlh Y 1F)LL UAY % FILL A% 9. FILL _TRA'/ plLL 174T-* 29.99 1957o45.@ 17(oT s47.2d : ' 4fA 22. RD

IM 174 Mo 19.54 17sm,23.95 1%yi4 29.98 24.lle om %ptL 7 pay S FILL
)34Bo 1 78 i9sB4 Z.30 l M G, z.5r a 2.21 ) R2) *M RU.*IIG.0C I TMY '6 FILL 79AY % Flu. A% % FILL i ~ TOTAL 7e FILL FOR 133 To 17.8 7 134T-93451 = 2.G. 6 I j 133W8 27.2.1 134M*24g 23.G1 AM 4 19 (21122 ] m t C 13244.49 134 P1133 = m; v ,-.+ m
PubllC FORT ST. VRAIN NUCLEAR GENERATING STATION $3rylC9e PUZLIJ SERVIZE CCMPANY GF COLCRADO CALCULATION WORKSHEET catcuur cN Foa _( ) CABLE TRAY.5 %rlLL fcR DRAWL % E-89 cAucuur.cs wves ( EE FP-@##5-pegsaato av [y g ba ge_ ICAft g /fg/Q mE'<4rAE3 e f l0A78 ICALC.mEv 18 AGE 8, CR 2.3 DR AWiOc, E-89 C. Beta a ELEV 4064' C") [A%GA l 6 } TRAY SFILL TR A Y E.,,[lLb AsI3 % FILL _ giV S FILL, MM WY M 9.c 4] 197T. 10.4 61 g4g4Q g4g, g l /8T., 4.25 244T 413.82. 178M 412.87. 244h 5 3 II 7.97 J 177h + 16.64} T g 'g3ntt TR % FlLL T9 AV SFlLL TRAN t FILL TR A N 95 FILL RM+U0.r6) R4b% F5cn[8.2GJ R\\91-+[573) gyna s.34] TD r4 L % FILL FoR ARE A 18 = 2Cd.9FM [ AREA 19 } T AAy AFitt TtA1 % FILL A%% FILL TRAY EFILL 39QTa 11.(4 181T -3 l#.71 =l 11.10 391T-o F8 8@ ' 390MS 13 9 lei m o 14.2 %. 13.89 J 391m4 2.H ; TMy SFlB. TR4Y %FitL TR Ay 9, FitL @ % Fu L (' 180 Te 2 6.6d 18279 8.7l 181T-i 0.01 T9AY % FILL = II 8 l 185T -' 47. 2C, IB0m+28,96 182 M414.55' 183M 4 4.41 IN = 105M* 31 G7 180B+ G.7.3 162B+ 2.58 18384.%p 3 I4 J = 105 B-) 141 9 ) ; TRAY % F)LL M S FILL TRA'( % F_i_LL TRAY % FILL. TTI A1 % FI L L 9M -S Il#. S} R47 9 (61.13 } R4B +[38.2?1) R 49 ->[15 90 8504[920] TRA'/ % FILL TA AV % FILL TRAY 9; FILL TR kf S FlLL g5 l -e [22.33 ) R5 Z-* o lZ2.34] RT49 TOTAL S FlLL FOR A95A g : 345.35]7
OSgrylC9e Public FORT ST. VRAIN NUCLEAR GENERATING STATION PU UC SERVICE CSMPANY CF CCi.CRADO CALCULATION WORKSHEET m CALCVLAT.CN FOR (j CABLE 784Y.5 % FlLL FoR ERAQlW F-89 CALCULA TION NuYaE4 EE FP-v#ds PageAnga gy g.3. Eoe g d Q s _ 10 A f t S//d/@pt ofv tAto sv f cA!{ JCALC 8EV 18Act 9 c5 23 1 DWi% E m(BEW ELEV %C4'-&') [ AREA 2[) TRAY %F)LL T9 M 1.flL L TM 7> FILL TRAN 2#1LL A% % FILL RS2,;@ Rsse @ 18814 4.61 1877-, 4,5d = 4.54 TR AY ?>FitL L8d1 %F1d lesM*c.Gd Ig3rn 1,5/ Rv3.> fzz. 3 41 A5G.e {Ti~iEI = IBBB* L44 ig? B-o 3,4c = 3,4 %, g % FILL. Rs4 41216 i BTAL Po FlLL FoR. ARE. A 2.@ = [so,89] (AREAtih Thy 3, rill TR AN SFILL A% % FILL TRAY OFILL l.90 -P 11.71 l(1) -* 82G - [ 9.9fe } 189, f 3.4 9 ) TRA'/ _7, FILL TRAY spitt () P550[12.Ofo h RSC -s[z).Z/,,l w T Tccr4L % FILL FCR AR.E.A Z\\ : 47 L.48 ; I l e
Public FORT ST. VRAIN NUCLEAR GENERATING STATION
SOTVICe, PU LIC CERVICE COMPANY CF COLORADO CALCULATION WORMSHEET
("- CALCULATION FOR CABLE T A A'/5 A FlLL. FoR OR@l2 E 6B j CALCULATION NWSE4 t EE.FP W E Pat'Ast3 tv D 5 Bond'.s (OATE $flpf$9 e agwgWt3 tv ICAft iCAg agy 1,agg fpg or 23 DR ALJ1W.a E-88(EEL 4'> ELEV. 4881'-8') [5RE A 22]. TAAY % OLL 12Ay stu. uAv m Age, F F H.L TRAY 9,FI LL 2 cot 4 3.e3 lo tT, t.04 zo3T413 05. r o. r+ 7 zou.,W 2dG M s 10.69 MIM + 2.M 2MW.49 O'53 2/# B +12.E9 ZO7N O.1 # = g,g 34 g,9 9 2035
4.78 =
6*I I l m e4 2 5 d; TRAY 9 rltt in Av tritt Tn Av 9,ritL TV.A 9 SFtLL. TAA9 tritt TTMN t5i LL 2 M :"B *l31.E d hit 9 $M RIG /d als.721 RSHL236} Hlorde.08] RIG 3*llt.4l) gi 9; FILL TR AY % FILL TRAY % FILL TR AY LG_lLL 3?9-* @ $80*17.eGl 3814 (B.G l j38tc[9.Bll TDT 4 L % AREA FILt. FoR AMA 2.2 -0 43.sd %EA 23] r g % FILL TRAf yp)Lt. TRAY g p att_ 2d4T
18.03 2 aft + 7.08 g
p ig,g ,,z39 g pigg 20419 21.48 ytc,F' 2d4M 415.58 gpsn., W21 2'/6Bb 22. 3 9 10.89 2c6T-a 6 204m4 23.51 20C6419.D Z l.43)1 06% s.4 e 2cc,6 old.9F t 2 cts 2 o 9'3 #; i T R A't % Fin.L TR A'f 'AFilt TMf SFILL TRA'f %81LL. 1 [17 4L9.4 41 TM @L71LL 376* E M -> %, 4 3824 1 lE A1 941tL TpAy gatt, kg gg. gG gg WL '6 AEA F)LL FCR Apg4 23 = 3(o,33) (AREA 2.4] ~ TRAV b FILL ) TRAY SFjn TRA71 FE AVG S FILL TRA9 2'44T 4 h 3 2257-.7 98 ZG 4M ' IL'48 a p,7 ->23.qg, 10.22 ) NOT, N.35 21:;m4 IMI 200A DM.37 : lG 67 276M' S'N 2040* 2W j zusB*l%63 Lau t>-s:::Ac. 2I.45 2195* 3 0J -v 3 TRA] g m. TRAY W l TW @ FILL }T,333 g R)BBil2.073l 381 *l9.Ol } 38'l + k 3844 % Tb7A L '6 AREA FILL FOR AREA 2 4 = .3 7) f orm i t t M 244MB
Public F nT sT. vaAIN NUCLEAA GENERATING STAT lON $ cry lcg4 PUCLl3 ssRVICE COMPANY OF COLORADO CALF.ULATION WORKSHEET i q caucuurios son V C.AELE.
Rays & RLL. FcR maw)% E 89 caucutar.cs.wveta EE - F P-dCdf

=tats a v c: 3. hd;c s io^rt eliclee atv't'At3 SV (Q A f(
(CALO. a(y lpagg ll C# p,] (A\\REA 2Q TMY % FILL TRAY _9:n LL &M TMY %DLL 19 BT
6.10 207 T* 23.76 at/GTe 23'48 tQ:T 47.06
~awn % FILL 199M* G.21 (18 8
7,53 2c7m* 27 et 20Wn*t237 2.GT M *l3 Zl =
17.W = l 4.e0 ) 2rn B+20.St 2 # 0"*2p A r 2v5B+lt.63 17.28 =. Tfva y % FILL j TBAV % FILL TRAY % FILL TRAY g i 3774 et. H ) 3704[3.B7I 57 9*ll3 09I 380 *%M I 5h Sn-L A 4.ritt T u t Ta M %ALL 3614 [8' d ) 382.fGII) 283 4 %s tL 384 -*[7.97 } TOTAL % FILL FC4\\ ARE A as = ) 15,U] AREA 20] i TR A'.1 % HLL TRAY % FILL 20#T4 3.e3 /rc R3 FILL rnAN 7,F it t, 199 toc 43 r 2@d M
W.81
r. e sesm +

5. W T 199Msil.56 a ll.~44 2dd64 1288
~3 85 6 *
00 19eiB9 M.it I(.94 2
= TRA Y 1-WILL I 7tA 1 g ritt 2,3^,'!, _9 FILL. TRAY % FILL ' T R A] 9-FI LL 2 37ct >E. @ 54[7.oeI hM -*M Rl64Cd[] RIGI* l11 +1 I TOTAL T FILL FcR AREA 2G :.[OM fnRE427) I T R A'1 %,.f,LL,L,,, TAAY %FitL TRA Y S FILL r.uy if.LL t 199T 4 G.43 p g n(t_ vg,gy S FlLL -- g 19eT4 s.id 209T423 ve = { i i.7 + ' 199 74 m nim l2.56 196Mfl3 21 2g 7/ty?l2.81 ic198 + 1% 91 10 1 @ 197hM U. TM 9bh = 199 0 t 7.53 207B-'2d B1 =i 12.e8 gqq g, 2c. ggqg7,,,4 J TA41 SFlu Tuy 9 FILL TR4Y $RLL. TRAN 9 FILL. TMN $ FILL F4M 4T Re +(TE~) 394(0 99] 360 9 00) ~ 30sah[##% - 9M ~
30s B 4 C
-TO 7/ L % F1LL FOR ARE A 2.7 = [l(dl.43 t u ,n..~ m
O $ Cry lcg= PUDllC FORT ST VRAIN NUCLEAR GENERATING STATION PUCLIC SETWICE COMPANY OF COLORADO CALCULATION WORKSHEET CALCVLAT.CN FC A CABt.E TRANS S FILL M ORAWin E-88 C ALCVLAfiCN NWBLA n/ E E. F P.dddS pageanfD BV QT.Neodg3 l Daft $M\\Rg agv rAgo av lCAYE lCALO " fV i' AGE l 2, C8 2.3 AREA 28) i 7 R Al 'J,CIL L Ty %FILt. TU'i % FIL L 199T4 6.43 19BT4 S.ld 7p'f g A% g rtLL 207Ta 23.%) 2 M 423.48 e )qqMa 12.2 190m+ ILZI 20Wh*22.81 14 90 l 19963 g).91 190B' 7.53 2 %/n* 27.39 17 M 20'4 6* 11.M 2dCoB+ 2Acif = 1 15 M i TBAN h OLL T1A'1 %TILL A % % Ft.L TPAy Sg TRlf h tetT4 24.zo isn zs.cs - zes' m s<.. 'a j 17# 4 H. sal 19 2M
3 4.12 197h433.Gd.
13.SG rR AN E,[L MN 192 P.,4 27.71 1975 *24.ge. 23.'5 0 gg3; _g 3974,' TRA's % FILL .r3fy b FILL TRAY snLL Tt AY 1Att TR,ty 3 ru 1,S'gTg h 4 % ll5.cil 1 R504 M Ril+[2733) Rs 2 * [l3.fC) g _ gecce 4 _L P RT SJILL TRAY %Titt. TCTAL @ FlLL 1:09 V 376+ 13 84 } 379'F199l AMA 26 =7257.#) c 4 LJ O h
[FT Publia)SCrvl3e. Purua SERVICE CCMPANY CF CCLCRADO FORT ST. VRAIN NUCLEAR GENE" ATING STATION CALCULATION WORKSHEET CALCVhAfiCN FOR O CA6LE TR A/S Jb FILL FOR OR.MlL% E 89 CALCULAfiCN NL YBt4 ./ E E-F P-GddS petpanto gy 95 ghz icArg gifylg agy,gwg3 av 10Att ICAt: agy i,agg gj C8 2] ca u.we e 68 (Butna 40(c4 '-o"') bdRE429 ) TR 9, FILL TR4N % FILL TRA'f % FILL TRA'i tFILL T R A'1 S FILL _ p g ntt 2l8 T 4 2 M I Z\\7T+ l 4A8 2X/ldil78 Z ET42.3 ) 214T lv.li 2.. @ l ll6/h* ll Al gl?r4/g,74 2l(,Al* Wl? 2154148.99
1) 4m-1 19 S. C+
21884 *t. l C zig ge 4.98 216 B
4 78 216B

5. 46 2 H Bd.sb f.93 TRAY % FILL TRAY 23ALL TRAY % FILL TWY & FILL TRAY EFILL f TRA't E3 OSI-*{2.f?} R)GEV g g)stal tusj gtss 3g] Risge g R1(co + ( s q1) 1 TOTAL S F)LL FcR AMM 25):
jg, (AhEA20) M th TF,Y % FlLL g-26T* 14.98 _T9rf g Tp,AY h T3Y11% TilAY h Aug t, FlLL 2)GTe 12.?S 2157 > 2 9 2)4h c.19 21174 8. % Zl2To10.73 i ,, 'f,' 21GM4 9.91 2.15%.91 6 I iW ll0E* 4 58 215B' 5.48 g; m.el,e 2i3m,9.GB
tg m4 is.TB =
%4I ri4894.st t G S4 9.0 atg$ S sd : G.2) .Re zsw. TRA'/inLL _TitA.' t C11 I TRAY SFILL EW6* N M M %Fitt. TR A7 % Fit.L RIG (.r$ h R)Gl4 R)G44[?I.61) RIGE-*[M4 R144 +llf.79) Til A Y 1 FILL MW I TOT 4L Po FitL DR AREA 3d
hts 3.lz 1
(AREA 3\\] TRA9 %CILL TR A'l % F1LL TR AY % FILL Ah % FILL TRA'/ % FILL 4 IfA19 zitT4 B & 212T9 l/t 93 ^ 11.93 388 OI.6d) = 214M* 1.09
ut/rl+ 9.08 ZIM *15.96 8 9 2.
214 B4 4.53 2i p + 9.Z3 ti 26 + S.50 - '7.4 Z ; TMY MLL inA1 tFiLL ' TRAY grill I ~ g gritt Rl&I"E}_B] R)G4-,M RIG 5+(I@M,R1(/f(i4.N TOTAL S P/LL FOR ARE A M =r--NB.C 4)m l e
PubilC F 'iT ST. VRAIN NUCLEArt GENERATING STATION SOfVIC9e PU:LIO SERVICE COMPANY OF COLCRACO CALCULATION WORKSHEET CALCULAfiCN 504 ) CABLE TFAU % FILL FCR DRAvJl.4 E 88 lCALCVLA'lCN NVM81 A g g. p p.g ggg s .......o.. 0,2 e,m, , c. r. e n,,,, a ar<raio av leAre teat: aiv
i. ace l4 c' 23
[AKE4 32.) TR AY % FILL TRAY SFILL_ AVG % FILL TAAY % FILL TRAY SL FILL 2217, 21.fi9 2l0T4 Ft.12 = 27 35 3 21174'47;ff 386
41,.W]
L2IM* 2126 210M *2%3 = 2 5 4 (e Zil /h-) e/16 221 C* 6.73 2lO6414.75 : lii ?4 a 21164 l'7b TOTAL 9o RLL FOR AREA 3 2 = j$3.5(,)
O I
f
O SOfVICgs Public F RT ST. VRAIN NUCLEAR GENERATING STATION PUCLIC SERVICE CSMPANY CF C'lLCRADO CALCULA'.?ON WORKSHEET 7% cat.CULA TaCN FCR ) CALLE 7 RAM SFlLL Foil DR,AWILVA 2-GS CA CLLAT8CN NLY8E4 ~ L E E. F P-Q g$S
t* Ant 3 8Y D $ Bo n d es l CAM Bly)l6@
arvtrato tv } ICATI ICALO AEV IPAGt 15 c' 23 l DRAL.'O.Xn E-ES(CEL.oA ELW. 4829'-d') (4%E4 3 TRAY RF)LL TS AY ST)LL 19 AY % F)LL TFAY ML RY 1 FILL TRAY 25.)LL AVG V FlLL T 2(g)To3.2G ZEtiT* 3 '74 25TA 15,1-2SS T+ 3. 2.6 2s4T-5 2 7d 153T12.01 =' 3.03 ) ggp 45d 2myh S.17 2 W hs.61 2 SSM* 6.G} 2C4Mo6.68 253M'82A4 : S* I i 2C-() 0-) 7.G'3 2518918.9'5 25C,g416,W 250 64lG46 2548+2J.54 153 b 14.G9. l 10 9 #l M 'l 1 F lL L Tgy Z FILL 4%rsi % FlLL rnAy 9, FILL TtAy 7. FILL TAAY %FlLL 257To 5.34 25BToC46 = I Z.06 )
W N*
9 21 *I IG d 25 7 M 9 8' N 258M d'D s M* 2 b Q A'1 45)LL _TQ A'/ gT)LL_ % Ay % p )LL 257 B + l0 50 tge g,19,50 I@'50 J pgt,94p'CI) RL8911106) KM +IlL lel TOTAL. fo FILL Fce, AREA 3 3 = t \\ 9%.12M AREA 34 \\ i gd TAAY S ALL _T1A1 % Fitt Tut S Fitt T93 % FILL 255T42.3d 2:4To 2 yd 253T' 2. G2-H,A'l %g Ag(n S FILL 255 M
f.G}
254m4' G 88 2s3m, 2A4 2srT-32 96 = ' z. 451 1s zT o 2.tr t ss B + 18,(4/ 2s 4B+ 23 54 2s3 B s 1444 25znwq,9y y g 1g45,,,,
7. 9t%
2.!2. B449.0T ast B 4 29.54 21 42 WA1 bFILL TRAv17)LL 49(a % F)LL TPAY inLL M RA'.F)LL yr gFitt l Zs7To6.3d 2seTo14$ =
2. G5 Elfo7'D.Gl I MGB*lAv'O R10/l$U2.lG }
Zswnee.2c. usu 2G, = o.ac
m my wa-nw m' 257B*i@.54 45ggoic.sg iG.55 j Rgr3 3 [33,44) ap)-+133, q 4) RI72 + L55.22 )
TOTAL SbF)LL FOR A9.E A 34 = {TBl.73 [ ydE6 3s J g STILL TRAY 5 FILL TPAY % FILL A' # r, % FI L L 2c2To336 2G3 T, 2.i3 249T-+ 2.'11 f 2.9 C LGZM*B76 262 M410 74 249M4IL W = _2 41 BS G.E6 2G3 Bd 8.49 149 8-nc,7 5 ll* 3 O J e TRgy % FILL TR AY iLFILt. M % FILL TOT 4L Po F lt L FC R 4 g 2.4BTo 413 2 77To 6.9d = S04 l 146M9ff,.lk 4WM rf.O 1706 A.REA 55 :((GG.M = 44 8 b
lS.6fo 447 641939 =
R,96 ) 3 .-e%2e
O $3rylC9' Public FORT ST. VRAIN NUCLEAA GENERATING STATION PUCL13 CERV 12E CGMPANY CF COLCRADO CALCULATION WORMSHEET CALCULATiCN FOR cAtt E TRAYS E FILL FOR ORWi% E f!6 l CALCutATiON NuY8E9 gg.pp.gggg
staangs av DU bdist lCATE 0]grjlA8

Erf 410 OY
~ lCATE
CALO 8tV l' AGE lh C8 2.3 MAWi% E.GB h1ELow ELEV. 46lb' Oh IAMA 3foj TP.Ay % ply.
TR AY S FILL. D A Y.S FIL L R147 9 [ 7.01 ) KlGB->(l1.06l R109-9 ILl0 'l Tnav t> r itt. ruy pitt 3 7 % vill g)ge -s f3)M R171 -9 3.9 4] El?24 [5s.22] 7 TOT 4 L % FILL T-cR AREA Sfo = ll37.4sj > lA%E A 3 9) v my SpitL TRAY % FILL A% % FILL 3.SM 2 64 T -* 2.53 205744.36 =' 2 G 4 M 4 4.8 0 20s e> 6.4d =. S.13 2G48->t.25 2,qg g., i. zs l.as j TRAY % FILL TRAY ZF1LL A V 6 f, Fltt 2.7 IT4 14 M 275 T.3 is,Sg = 15.kB I 47 IM-p 4.73 / l.Il
2. p.;),4g
=
27) 8->
o,60 27(i& $ 4.88 : / 4 89 / ' TOT 4L % FILL FoR AK9A 37 = 2G 8I t I 1 , -..,: m -
PubllC FORT ST. VRAIN NUCLEAR GENERATING STATION / 7& < $ ;rylC9 PU Lic SERVICE COMPANY CF COLORADO CALCULATION WORKSHEET (Gj CABLE TAA'r5 % FILL-FOR ORA 4lm E GO l CALCyLAficN Nuvat4 CALCVLATiCN FOR E E -F9 -#d6 mat *Anfo av pJ, h Aje 10 A f t 6/pj/pg mtv 5%t0 IV ICAft ICAL alv {)8 AtJf m E-BC OEW Ei.ew 1991'.o" a 4eal'-o) isact l/ Cs p3 T'R A Y 9, FILL T M Y $F)LL 7g 9;p)tt TR AY % ALL A4 % FILL pag 7 el 2.4% g)%.2[3o.Q 2cilT$ 30.% 292T9 M.22 39 5e 1 = Tuy grite ,943 gfg.
19) % IT.3) 292ma l4.ql ISell,
Rp 4
D2.e 81 EW3 (29.28)
= TRAV ) FILL TRA1 %DLL 4% % F)LL TM % FILL 293T91959 T.EiL. SFILL 14 38 EIIT **ll 3 8l EI30 ~' 7' '# J 2(isT o9.03 2C h "* 9' N t 29sm, I 18 L d'4 293 B*Ill5 TMy % F)LL TRAY % FILL 3 29s 6-) 4.00 = IO* G'3 ; ggp q gg,yg. g34g,[qg TOTA L % ALL DR ARE A 38 (2)),G$6 { AREA 19 ) T11Ay 93 79 AN 'hFILL MV SFILL TRAN % M 4 % Vo FIL L-2%79 M.29 295T,9.03 2%T-* 347 Ro7P l.W U Ni
9.40 199n., l.38 2 % n,9.15
= 2.9 ', E-s 12. 2 5' 295(1-> 9.W 3M Bb 4.31 / 2",% o)9.43-Ih' 5I J =, M % FILL iJt! Steu. $!L'l 9,vitt TRAf % FILL TRA'/ % FILL 8173-*Q'igj) R1749U2A%) R)7Td[1510) R)%-0 [7.7s j R 1p e { is,7:-) TRAY Po F)LL T M/ 'Ib FILL TRAY M TRAY 7, FILL TRA '/ cf F IL L 817 8 M 4c.t d anct M55 izi R16d+GGiTII
4) 48
1 9. 0(>)
2.97 E-* { u. e a_l TOTA L Fo A L \\. wof\\ A'it E A M = Q235.9Bh [AAM 4C] gy % FILL TRAY % FILL TT AY S E*lLL Tgy 9; FILL ypAy g yg 29q-c\\30tj4 gigJ-{l2. M } Pl6HM R)65+1 Nd Nltel 4M O zc,\\et\\-ell 5*3l TR A'1 h F) LL To Ay %Fitt 2 m u.n g g.3,9.;a TDT 4L % FILL FOR O ansa 4e = y2ia.#iT
Pubila FORT ST. VRAIN NUCLEAA GENERATING STATION $OrylC9e PU Lic SERVICE COMPANY CF GCLGOACO CALCULATION WORKSHEET CALGVLAT40N SCI CALCVLATiON NVM8E9 V) C ALLE TisAYS % FlLL. YOR ORAUlA)G E-88 EE = F D $$(bS" eatsaago gy 3 3 gwgg:g icarg 6! q rj j q q ag,,rago gy I tcata C 4C agy
eACs l8 ca 23 I
{ARGA si) TRA9 Stu. nay % FILL TRAY % FILL TRAY % FILL _TR,AY $ F[L.L. A\\)G % FlLL, 22RT4 44,# 2.867+ 49.5 267T 94W 286Ta SQS3 234T4st,pg s 96.63] 1 2em.os.y zeem 4M8 ze7m44a.2s 23sm.m2s zew,,ga - 4s42 25 % 4 6 93 26804 9 28 2e+5+ I468 2es 6415.83 264 0-) is.rcl - 12 A3 J g % FtLL TRAY % FILL. 288 B 1 c. 9 +) 2s<,84 4.19 ) TOT 4L Po FlLL FcR AREA 41 A \\18.34[ AREA 42 L i TA AY % FILL yT % F lLL rR AY g rill TRAY t ALL 263% W R)Ef,4 {G3,q 4} gpq,{G),46j MB7 9 k l' N3 64 g) 2B3in-AB.34 3ces/n4 M f, FILL M %F)LL. AL % Fu t leLTn S@.54 2eG,52,16 = S'D.m ' 282 M9 64* 'S ge g fn 58.t1. i 5 5.17 ; TOTAL % F1U, FOR AREA 42= (339.Mo
o
$ k g N M '
r^ r nT ST. VRAIN NUCLEAR GENERATING STATION ($)s Public Scr /lce. Pu uc senvi:E CCMPANY CF CSLORAEG CALCULATION WORKSHEET CALCVLAT CN FCR ( ') CABLG TR A/S % FILL. tDR DRMl% E 88 l CALCVLA T CN NLM8E A l eg.p p.gztgs-v' Pet *Ango av p J @efig_,, j ca rg g};g/gg i stytA13 av l Daft { CAL;,agy
AGE
_l9 C8 23 CMulw E-6GG ELCLJ ELEV 47?i'*C") [ AREA 4 2)] g %nt.L T RN/ % FILL TR A/ % FILL _ TRA'/ $ FILL AVG % F)LL-324 To 20 51 szs 9/ M 37 3zrT4 41.39 3277-+17.34 = L67 1 btA ns Ic.m 32 son 2s.sl sasm.,2cs3 szym, 9.st as,ssj W'l % FILL TRAY %RLL TRAY % Flu, ' TRAY gntL 8IM* l4l.$ } D *.39 R)6G.* (2fl.3dl 8167+ (12.49 l N TOTAL Po FlLL Fo& AREA 43 n-ZGG, G8 i \\ t j [A hE A 44j TRAY SFlLJ TRAY % FILL A% % FILL O sioT +39 3zaT-ei7.34 - 3 3 r>" TRA'/ % FILL W'i % iILL giee,s><> xiev4tiz.4+] 32GM4 L57 32.7M* 4 51 = 18.@4J T R,A'f % FIL_L. TRA'l-2 FIL L TR4'/_ % Fit L ms+ Ds 3 1 896 + [7. 75 l 697-* 18,75 TOTAL s FILL. FOR ARE A 44 ='.[1'5s.9 N,j 9REA 45' i ThAY $FnL y AY % FILL TRA'l S FILL RI754 ls.li1) R)Ho -3 fv.7c ] R)77+jf.M . Hay $. Fiu. nay S nu_ TR#/ R FILL. R)76 4 L4GTd R IN -4 f3E.Mi 6184 -c l2a d' ' TOT 4L 2 FlLL FOR ARE4 46 1N'
g pgg FORT ST. VRAIN NUCLEAR GENET 1ATING STATION (d))Scrylce. Pu:U3 CERVICE COMPANY CF COLORACO CALCULATION WORKSHEET CALCutAT40N FOA f) CALLE TRA'/S % F% Tch DRMi% E-68 l CALCyutiCN NWBER l EE-FP-$MS j V
=saiato av b e. ecro6e i:47 aucIE4 s ty,tw t 3. y
} CATI (CAL afv l84GE 2@ CF 23 I (AREA 4% 7 i Thp/ %Fil.L % A'/ SFILL TRA Y 5bFILL h96 *LiG 25) RIT10 [!s,72) R Bff->[2 8.N) T3Af ?o FILL _ TRA-1 $ FILL g 4 L cro I: )L L Fo R f[}T[/e1 $g)de) AREA %= bI48 51 \\ i [ AREA 49 ) 7 RAY Sl;F'(L TRAY % FILL Tit, A V E FIL L A% % FILL 32174455 32z7432.23 323 Te 2.7.2s = ! 2134' 3El/h-9 8.34 322/n4 2c<,09 322#1-* 10.42 = 12*94J 7RNf %F)LL TR A9 %FlLL TRA'/ % FIL L g99 g p)LL 3R h li6 4 31ET 9 2.7 I 519/n
418 3127 4 ZG.51 =
I l@, Ys I 4,3 g .m 7RA9 % FILL _TF A'/ T, FILL TRAY $ FILL As)6 % FILL 3207* 37.45 ' 37.46 320 ho 29. lS SiSM+ 29.% 314W 214 - E.86 M AFILL TBM 8 FILL A v (n A F lL L 31 W
I4.55' 3km+ jd.cf =
) f.sf] TOTAL % FlLL FOR AREA 47 = 127 M k ~ - _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ _
Public F RT ST. VRAIN NUCLEAR GENEAATING STATION SOfVIC9s PU:LIO CERVICE COMPANY CF COLORACO 1 CALCULATION WORKSHEET ,.-~s CALCULAT40N FOR ( CABLE TRA%S S FILt-7CR DR4d% E-BB lCALCutAT CN NUM8(4 E E - FP-gGGS Pet
Ant 0 SV D "$ RMd 10 Af t @l)@M t afvE' AID SV f 0Att 10AL: afV iFAGE 2\\
C8 2,3 [A95.4 A6[ 7RA1 SFILL T1t'/ % FILL Av6 2 FILL 372+ 49.M TRA7 % FILL, g % FILL-374 +24.60 2<. 8c/ } 173-> ( ss. oil RM4a 'GO +gj % A'l % F)L L_ TR A'f % FIL L TRA'/ %p1LL TR AY _% FILL AVG % FILL 32GT437.4d ' 37 49 ) = 32f)M*2.4 6 315th-P.To 3 14 r e 2.1.3 (6 313h'> 27.41 = 2G % TRA7 $ FILL TE % Fl LL_ 7 RAY % FILL AVla % RLL .liciy9 },84 3\\ST+ 2.71 3 12 T., 2(. 54 * } l @ 3 G 319to-> 4 38 = [ 4. 38 ; % A1 %FIL L TRAY % FILL AMCA % FILL 314 M-)) 4.57 3l CPI-714.50 $ [ ) 4.55 0' TOTAL % FILL FOR MWA AB = 2.%,7f. f44 C)I ThA4 % FILL. TR A'l E FI LL TRA'f % FILL TR A'/ % FILL TWAY $ FILL AUS % Fil L 3)e14 2.91 AirT-> 2G.54 3 CAT,2443 3081-329.7.+ 3I3T->I.% * ' 3 8' 61 y:A A
11M 3#8A-G5E sy.nf I.
/G.24 j TR AY % F,,[LC, Ty Ay gp)LL .ty _A y g _4yg y,pyLL y g plLc y 32GT d 7'46 i p, 4 7 i 310T -2 %M .MO#1' 49.lf 5tse 29.% l l4 M Z l.3 d 2G.60 ) 31cmo @ SI) TR A'l % FILL TOTA L % F)tt r-OR AREA 49 = {l 35-(c9,,{ 3tuu p4.55 \\ O
O Public F RT ST. VRAIN NUCLEAA GENERATING STATION hSorvice. Pu:LIC SERVICE C3MPANY CF CCLCRACS CALCULATION WORKSHEET CALCVLATiON FOR C ALCVLATiCN NWSE4 CAh G -ft1A'I.S % MLG FCR Wk'\\& E 68 ) 6E-Fp-Gkp;tG mai iaioi< o s ecce.de.s we allelse ! agv g'Ago av ICa?t ICAL; aEV 18 AGE 22, C8 23 i onAuis.L n-a8CtEtou ELsv. 4 7s9'-o") [A6EA 5(4J T._9 A. Y 9 rn.L T3.4Y % FILL TR Y?Au. rAAY %FlLL gg g p;c[, M 'lN 34 GT* f' GI 347T426.44 352To2c,.74 = F IG,4,3 k 245T d m4#" Q C,; % 34 % 3 '1 w m., e.sz sstmzu.ca, sq.es 3m 4.ss-5448d2.E9 3478921.#4 354 5-, 4/.96 = L 265'4 M(5 + IBAS TRA'lAqtu rnA / g elLL TRA'1 M MM FE TRAN Q,FitL 249T4 l % 1rgr., v.ee 3q 7., 4,n c 4 4a 1 3m,
9. 2s,
144m. 3.11 L:sp1., o. 02 3 3.M 2.M MGM 1.80 349 64 4.f~S 3:45429.03 33, g415,33 j 4,l} J 346So 2t. 51, TMy % ritt TR Ay gritt TRAY 3 FILL TRAY % FILL T6AY % ElLL TR AV Z FILL. R175-> [ic.2. ] P)%f9.757 Ri??9{ls.75-J R);8 ${4e.tr ) Ri?!$[2592 l 9)N {263r} TOTAL Po FlLL FOR AREA Sd =((E6\\.'-7G (AREA 5i 9 TJA % 5)LL. ' TRAY 9 FILL TRA7 trlLL TS A'/ h EILL TQAY EtiLL T Q A'/ 9 tict AVG % rfLL NIT 9f.ZO M2T+ ?h6 14374M 3447,3.9l 3457 4,GI 349 7.geA.8, F 5. G9 i SIM11 1.36 pin 413.12 pm43 G 4 344M -> )Si J499%2. ggm., s.it.. Sa 3# FIB
G.l0 H 28 *30.04 936$AD 344g4)gK4 346 E s2.69 34g g,2 A g le.lfj T3 374u Tuy tntt Tn AY SFILL TV'/ % ALL TC AV $Fil.L AVG % FlLL 231 T47.25 326791.03 J4% 1,36 3ro 74 7,gy 3r;7.,4.ii
= f .43 ) 4 313 h*28M 13m+ 4.03 34am 3.cl 3segsr. 3 sing 3.e9 4.41 33 '4 B+ 44.62-3368
S.72 374 3 -d. 5S 3 sa g,yg.g3 1si g 415.33 =,
l*\\, \\ 5 TR Av SsiLL 1My tritt. TxAy t rict Tray S ritt, veAy S FILL TRAY vitt 3397+@ 3467+. 34s71 104 RW5-o(is.1d' R)M 4 7.E ] K5(16.n3 3y,m
t. 6+
34eM-3 86 34 w
4. 6 3p s-db8.3 14 e B+d233 34551'B M 2
m TOTAL % F)LL FOR A REA S } = 3+ C
O* SCTVIC9 Public F RT ST. VRAIN NUCLEAR GENEilATING STATION Pu:LIC ss2VIZE CCMPANY CF COLORAC3 CALCULATION WORKSHEET crav ur.cs soa (7 CABLE TRAYS S FILL FDR DRAWlAra 2 28 lcaucuuricN suveuE E-FP patsa883 af D $ Md lOATE $[lg/Qg af v' tat 3 O r IQatt ICAL: egv
sact

2. 3 c' 2 3
[ AREA 52] y-- p i u. g 2 DLL E BMLL rtAY 9 Au-T_3.iY Ftc EysmL 7 R4Yh Acce FitL 3567 7 4. U TOTi 7.67 34cih I.% 3bBT,/.G3 3MT62: 3%To M5 39;T.,lt. St. 6.25' ) sim41,19 3 sam 4 4.52 pqm.,3,ci nam 4,e3 nm.zts 33m2@ n5n.,rc.g,i, ita9 55654 15.2 1 3184@3 349g4,55 ne6$6,72 u?g+ % G 3%B+ 419 3 UO 4Ml - 29.E8 ) rp.Ay g,nu. Tu y g net Tpm gnet ym n 7pyg g gg 34BTW.18 D9Ts 6.181 34@To 7.73 ~ 9 7, ), tg 34374g 348m-1.86 nq m., r4,84 3,4ee it ss i 14l M' t.% 4,47 1 4 B B,[z m gqg, 383, 34gg,se,ilf 342M MI.32 '- ~+.14 34I B'* hl0 6-* M ' 16.06 TOT 4L % FlLL FcR, A7 EA 52 a{2cg.sg] pm sB NV % Ft:L 7:12Y $ FILL Q1 % Fit L TR AY 9 FILL TI\\ A41, rIL p AuG % FILL. Y4 T* 17.3G 313To14.M 237.T,14.83 3317415.31 33e7.,27.23 e W.e9 p ,[ 31?Me29.21 3329,39.2d 33;meje,$) 33em 419.74, 3 2.ct 4 V 331B+ W.63 332E->53.iG33) B-* S4.18 33gs467.3'i-64. 9 ' > g y S F1LL Tfyy 9ntL TW (L PM A% 4 FILL as4T4 2M/ 3:s7,32 10 afwT $ 33.05. ' 20. 8 t ' 354 6 3342 3ss M*.%I2 yggm,4;az 37.72 3:4 B+ % 14 L.,55 8 + 54.?T 3sGg+4ses - Ob TOTAL % FILL pcR ARE4 51 = [12fE.C 4]J (AREA 54] ~ ygay Mtot_ TMY}J15.L.. TRAY % DLL awn g F g g,1 p\\ tt, 2c4To2.14 354To?.34 3c8T->3S44 - 14.4 4 I is.5 Rg4, g 3pt m-' l. 4 9 3scimo l.4c 356M-541.e1 = ]. I,'g Jg) 64 59.06 1:7tg a5 % Q 3566 *66.32 " AJ TRAY g,Ttu. -79 N S DL L. TR AY 9.F IL L AD 9.IILL 357T*31.9r 3froT93?.9C 3rrT +12# ' 2 E*" g 5 7 + 41.1 6 gre.g + 4i. 42 3cs.m3,lz : ]i O ,, s.sw ne.1an s=se.o.rs. 7 0,a e <3 y 3c c y c a a g e a s o 1c 2 m,3 3
' P blia F RT ST. VRAIN NUCLEAR GENERATING STATION r $ ryl go PU LIO SERVICE COMPANY CF CCLCCADO ATTACHhSEMT 8) CALCULATION WORKSHEET cA6cutaricN Fom m (v)' CABL E ~TA415,% FlLL FOR DRMlMCA b *19 48-1 E E-FP-pd@ S c46cVLATIC A NW9( A paseante av p s Bonadie.s icais 8/liles elv t'A f D t v lcatt ICAL atV 184Gt l C8 2 i DRAtJiku E-1948-l(Eifi^"> ELEd 4000'-W') (ARE A SS 1 ~[.LA.y % Pil L T R AY Q,FlLL ff Af % FILL. ~ TRAY % FILL Eld * (7..FJd R2.18 4 [ 1. 9gj R1l1
N}
42(o 412.56 I TgAY T) T lLL TRAY %F)LL_ "JRAY % FIL L 79Ay gritt 42.99[~9Afol k2039 l4.Gd) R2M %@ gG} g2d(, g,ygj TOTA L E FlLL FOR ARE A 55 = go.Go $ APEA 56} TRAN S Flu. TR AY sitt T.py s nu. A m,10d el Pitt91l,4v3 Pcziw [GI41 M i f; EILL 794Y )_TILL TRAY SFILL A\\X.iS FitL e4294 v.0,5 42.1o o Gs 4t1-, c.cos ::. { e.es j n TRAY 9,ritt TRav gnet Tnay gritL Ae s. rict ( 417 9 4.11 4l6
6.2.4 419-i 9. 2 4

l G.98 )
7p,49 plu. TR AY ?> FILL 7R A Y S rlLL TR Ay g rit.L gag 93 p;t,t f l(,o
c1.)ct 41E-* 9.)ct 414* 9.19 411

9.19
= j 9,1c} } TRAY,23 TRAY str1LL T9AY Enu. If%y S ALL_ TRAY g TR A V (f.!M A % %8:1LL 4diT-s 7.G'9 C T3 o M 2. 4c37,3(o9 4 474 7.Gr1 4f T4 409 411T-33. G8
G.8 9 I
f ' VIM
i. G 4 cgshi.f?4 43Mel.54 C#1+ l. 74 40SMdl.94 409W00.G9 *
8I
lta 5.07 4(/25+0.63 (CJ M $.01 4C'48
A 07 4#6 DAN 4$B'G.7# *
'f8 d TRA1 %DLL TRAYETILL 79A Y S FIL L TR AY 1, FILf,. TRAY $ FI L L. 4%+ b 4G7* N d 406@d6) R293* M R224 ecd.0G3 1 7/[fe'g,'3 TOTAL % F)LL FOR AREA SG= 3s.22.{ k i
(-[hSorvlSe* Pubils F RT ST. VRAIN NUCLEAR GENERATING STATION Pu: Lie sanvita cCMPANY CF GCLCRADO CALCULATION WORKSHEET A CALCULAT4ON FOR CALCVLATION NVYSER Q C AG LE TR Ay$ % FILL FOR DRAWlW4 5 848-1 E E - FP-W##s-paseanto av D "5 Benod s DATE B)l1IB8 afvitwt0 av OAft CALC 84V. l Pact 2. 08 2 %EA 57] gf grlLL. 7 PAY AFILL TRA'/ SFILL 71MY SFltL TR4'l % FILL M S FlLL 434 4 3.81 4341 % 3.6/ 4377, 3 8 6 4367+3 86 439 s 2G f = 3.59 ~ 435 o S.M 4%g4 2.18 437F,2.1B 4268+210 44%+ 3.5(o,
3. p 4,
TRAY TALL TL i. % FRL JM.Y, ELM. TRAY St ALL. 2H!y M u. yg3y g R2,\\ \\ A (l. -78 ) R?.lQA d 871,R+ Y R2W*\\CCd R20l4 @44 R2cl2+lp.gai) TOT 4 L & F)LL FOR A REA 57 = ' (8.9 U 1 on e> wm
O Pubilm FORT ST. VRAIN NUCLEAR GENERATING STATION yk)Sorvice' Purua sanvics c mpany c, ccten4:o i MdMMN p CALCULATION WORKSHEET CALCULATION FCA CALCULATION NuYSER V $ TRAY F)LL R2A TR4% iu B@LbiuC,1d (E-1948 il EE FP-@v1T
ain ato sv n s.
Bemacs 1047: eliilse I arveto ey - (catt l calc alv-juct { ca ([ GEMERAL CALCOLATICMS FOR IS" 4 9" TRAYS 19 BGLONG, \\0 TRAY 5)2Et (W i HT AREA I T Flu. AltoWED AREA Av41L ABLE x IB"xfo* IG8'm2 40% 43.2.d in* x 9"x IE 54in* w 408 7,l.(o$ in* ITRAY 492f } 418"TI\\^Y
c. ABL E BoM
' ARs.A (in ) i total Al\\EA or cAQtSS m 2.99 W} _325A-t2 A 23.9Q I.t _s424 12 4 32 , w ci.3 - To7AL % ARE A FILL OF NY 144
2 4 u4 }~4T p. "d'4"E^c'e'M. 239
.Gs.92i lis8 u.a zea 7ei4 E O riiiv "o,^ /gTP 4320 ee.24 . i > > s-IfRAY 402M)
18" TRAY i
c.AELE com iAgy,4(f 7OTAL A RE A cF CABLES sh. 46m* _28344-12-A 8 .1555 To r4L % ent A m t or m AY 79 124 4 .1533 _9379 12827 . l!SS TDTAt. ME A cMLES
A RE A AVAIL.of T AAY * $.46 4 3. 2,

i 2
hY 402 6] -? 18 TM'y CAEL E_ If 0M 'ARE A(i T) TOT 44. AREA CFC#0LES
2H ^ '
3 5 1CTAL 9b ARE A FILA. of" TRAY 1540612 C 34.#%5 %A = ** ##E# C#U' US A5 TEA MA)L.cv TRAN =Q _ "g g g g o 43,y l l SormiS)M2 W
pPubila FORT ST. VRAIN NUCl. EAR GENERAT!NG STATION (GScrvice' Pu:Lia c Mvira c:MPANY CF GCLCMADO CAL.CULATION WORKSHEET (9 CALCVLATiON FCR U ! TRAY F4. FOR Tn4 ys IM 808L019610 (E-P948-s) CALCULATION WYSER E e FP-@S' earamara < D 5 FrmAes lo^rs SlhleB ary'gy,go gy l cart CALO. *EV. lPAGE 2, 08 (( (TPAY 403TJ 4 IB"TRAY CAELE l t30M ARE4Utb 32.5 4-12-A zd4.9914 TOTA L A g g. A o F C ACL ES = v '3 2. i n2 s 5 42.4 12 A -12. . ~41r 3 ~ tot 4L % ARE A PLL oF TRA'f 144 12,A 2WA.7dl4 _llS8 12 A 2pA 94l4 W " 7e74t agg4 c4ggg 3,g.7 b%tA AVA\\L cv TPAy ' 43,2g
c
_3277 12 A-9 3217 1117 st2 8 34 L.1735 [TR AY 493Ml -* 18" TR AY TOTA L % A RE A ritt or TRAY SA= s/me As suoup veg TRAN 402.M = 134% { TRA'/ 4G3 8 } -* 184 7 ray mv4L % AREA 7ttt or TRAY Z45 LAME At SHCuu FoK TRAY 4@28 = d.f.R TRAY 4@4T}41CTRAY TOTA L % ARE A FILL O F TRAY EA = S AME A s seu Fo% TRAY 4G 3T = '?. O Yo (TRAY 404 Ml-* IS'Tuy TOTA L % A AE 4 FI L L o;: TttAY $4 = $ AME AS 5%s>J FoR TRAY 402.M
l.0 4
{ TRA't 404 Bl-= IB"TRAY TOTA L % ARE A F)LL CF TRAY % A = )JO C A P.LES IkJ TRAN = [@.C GS) ' (~' v 1
({/ SOrvice' Public r :T sr. VRAIN NUCLEAR GENERATING STATION K; Pu:Lic ssCvira c:MPANY CF CCLOCADO CALCULATION WORKSHEET x CALCVL.ATiON FOR CALCVLATiCN NVYSI A % TRA / FILL FOR TR AYS IM BulLDt% l# O! let 69-1) EE-FP-7Cfts ~ ne.Aaio er o r eem Ai
l. cart elutse i
mtv e tD ev lCAft lCA LC. RIV, lPAGI ] C# lj [TRAvkp5 7 ) + IS"TRAY TOTAL % AREA Fil L. OF TPA7 SA = SAME As sHouy poR TRAY 4GJT
7.6'll [
\\TR AN 405M] -. le"TRA'( TOTAL % ARE A vitt on Tqay S A = S A m E A 5 tHoo y po9, -rR AY 4 d 2 rA = [l.4 Ej TRA'14Ch -+ IB'TRA't TOTA L % A REA FlLL C s TR AY $A = 90 c A?LEs lu TRAY = (d Od I ) TRA'/ 4G(,]-* lS"TR A'/ TOTAL % AREA FlLL CF TRAY $A = b'O C AGLES IQ TRAN N = TRA7p?)->is*TgAy TOTA L Sb AREA Fla CFTR4y SA= MO c AELE S 10 TRAY O#] ~T R A'1 AQ8} 4 IB'TRA1 TOTAL % AREA FlLLOC TR A4 gA.@ CAGLES 10 TRA'/ = M NI) (TR A Y 415) --9 l$"TRAY CABLE BO M l AREAM) TOTA L ARF A CF c4GLES. 2.9 '4 m2 542 7 12-A-10 .462 32 % 12 A -1 ..?2l9 TA L % AREA pu op TRAY 116 7 )?-A-20A .7@l4 pO )43 I2-A-?bA .7014 g p ~, ro w.AwacAgtes 3,q 9 A%E.A A#k oMQN) # 43,g}
S1 IFA MA 43M Gl 12.A-B l.4IO3
.- s i x+ 2 +em
O SCTVICOS Pubil] F0F'T ST. VRAIN NUCLEAR GENERATING STATION PUOLIC SE! MICE COMPANY OF COLORADO CALCULATION WORKSHEET /'~)'- cAccccAricN fos % TAAY FlLL FoRTRA$ 14 801LDIA:G r/ dE lHB-1) lcAccucAticssuvata EE-FP - @dd s"
at'aato av D 3 EcQC
! cart 811118 8 1 ~ mr(tat 3 ef ICALC.AfV IPAGE 4 C8 ll 10 A TE (TR A y 414j -' IB'TRA Y REAL % ARE4 FlLL OF TRAY SA= SANE ASSHORU FOR TRAY 4l3 [9,1Cl %) (TRAY 4 ns )4 IFTgAy TOTA L fo ARE A FILL cF TRAY SA= S AME A5 OHct JU FOR TRAY 4/3
9Mb
[TP.Ay 8203)-5 18"TR4Y TDT 4L % AREA FILloF TRAY $4: WC. AELES 10 TRgy (d,4/ S] = { TRAY R204) 4 I6 TRAY g () TOTA L 3 AREA FlLL cF TR Ay S A: LD C A GL E S IM M AY = J G3.d $ O TRA7 R2GS) + 16' TRA Y TOTAL % aqsA pitt op 7pA y 2 A* NO C ABLES 10 TRA y = [G. G$G$ Aj JRAy 4lple lg ypAy c A P1 E to M AREA (n ) TOTAL A REA cF C ABLE S = l. 82 in. f 2 6427
z.A.;g
.4072 rb74L % AREA FILL OF TRAY C,1 Iz-A-13 1.4103 ty,,,wrAtAm oeus AMA Ava or TR AY, gg3_ _i 4.71 gj 43 2. 'l 'TRAN 416) e 16" TRAY TOTA L c6 A RE A FIL.1. OF TRAY I ch A = 5 A ME 45 c m A) FOR TPAY 413 =(9.l Cl %] .-.,m-
cN Pubila F RT ST. VRAIN NUCLEAR GENERATING STATION d)Scrylce. Pu:uc canvisa cSMPANY CF COLOMADO CALCULATION WORMSHEET [] CALCULATION FOR CALCULATION Nvv869 g g, TnA / Fh.L FCR TRAYS 14 20lLbWA IQ( di-M48 y gg.,pp.g gg pageango gy Dgfordc icat: 6ln) Ge j agy@tQ SY lC A TE lCALO Aly. l pag l Of ll (TRAY 418Je 18' TRAY CABLE Ecm AngAGn ) TOTAL AREA OF CAGLE5 a 3.5(o i# 2 31 % 12.-4 -9 . 32l 7 l 157 z.A.2dA .9%l4 14 3 12.A 2cA 7014 gp MT4' dare cectes >EGEB.24 g g, A RE A AVA IL.CF Tf14 Y 43.2 6l l2.A l3 j,4jg3 QRA'/ +19]-* 16"TR A Y T'OTAL % AREA F1LL OF TRA'f %A = CAME AS SHCWU FOR TRA'/ 418 = T8>.2.4 k [TR A'l 42Gl 416"TMy esata ' acm > sg,4 a,q %TAL ARE A cn cs3LEs e g,28 s& 81*i3 12-B17 .13ss NAL % AREA FILL or Tnay 8438 12-B Z7,.13 BC '6A:kg ((4 [p f9* N# (TRA'/ 42.t h 18" TRAY TTAL % AREA FILLOF TRA'f %A= sAme As sHcuu FcR TRAY 42d =[#.GS3] TEA'l 422 ]-4 16"TIM'/ TOT 4L % A REA FILL oF TRA'y %A SAME AL SHcs.JP,J FOR TRAY 42.Q = hMb I [ TRAY 12 n
16' TR A 7 TOTA L % AREA FILL cF TR Ay SA

S A(h E A 5 EHcu V FOR, TR AY 4 /6 = [8.24 %)
,C3 Public F RT ST. VRAIN NUCLEAR GENERATING STATION )$grylC9s PUBLIC SERVICE COMPANY OF COLORADO CALCULATION WORKSHEET ( ] cAtcuurios soa catcutarics suveta $ TR Ay FILL 5cR r4Ays 19101L010614 (E-1949 s) v EE-FP- @ f pagpango gy 9f b esgg cATE g)lllpg l stvitW10 SY Datt l CALC.Afv. jeaGE 6 or [{ [ TRAY R218. -> 18' TRAY CABLE ECM ' 4REA On9 rot 4L AREA of CABLES 8I 62id 28343 12 "A -B .166F _8193 12 2 7 e 1389 tot 4 L g ARE A FILL o F TRA'/ B378
12. B-2 7
.1385 $A= d vA$# tc y* 'f1. *l d 54 12-8 -2.9 .2AG3 8438. 12. B 27 .1385 ~TRA Y R219 ]-* IB"T RA y Tb'I'AL % ARE4 FILL OF TTRAY % A : N O CA EL.E L lu W A '/ = (<6. dd f.) (TRAY 426)A c)"TRAY CAELE Bom ' ARua (J) TDTAL ARE A of c4G.Ese d.64id 26343 12-A 8 ISSS TOTAL % AREA Fsuu oF TRAY 8378 12-B '43 .138 5 Tout 4*E4 c46ms _ e.s4 64 l 12-6-19 . 2,O3 ARF.A Auent. OF TRAY ~ gg,[ [Tby 417 -* TTRAy c4B LE. Bom AREA 04) TbT4 L AREA of cAGLESr Q in t 32'M 12-4 ci .3217 TOTAL % AREA mu or TnAy \\ \\S9 1z-A 2M 90 I4 % A = "* ' ^ * "' 132 I43 12.A ZW ,vgl4 E ^ ^^ F Y 21.G N' {TRA9 4 34-]-' Cl" TRAY CA8LE 80tn AR*A M) TOML ME4 OFCABLES: 6. 8 2 in' 29183 lz A-8 . lFSS' M***""*"'"
" Y 9393 12-B 27
.13er SA5 $v ;, Yay, C 62, p,gg f* 937G iz-e 27 . 138 5 S4 12 0 29 ,24G e436 )2 6z7( . 13 8 s k h 4
F[$)NPubila F RT ST. VRAIN NUCLEAR GENERATING STATION ( Sorvlae. Pu:ua sERVCE CCMPANY CF CCLCRADO CALCULATION WORK 8HEET CALCULATION FOR CALCutAfiCN NvY8E A % T4A1 FlLL. FOR TRAYS lM BUILDl% l$(E-lR 49-1)
55. F9.Q'4@_q pataamgo gy B3 %m d'g3 104t8 pj))Mg j a tY tvrt 0. V l0 Aft l CALC.8t/.
lPAGE 7 0F l\\ TPAY 435 )
Y TRA Y CABLE Boh A R E A M) 154cd 12-B 27
,13gs TOTAL AREA CFCAGLES = 1.\\ O W 15409 12-C-39 6902 IS 4 l5' 12-C-N ,09G2 TOTAL % AREA FlLL O F TRAY Ml/G 12-I MB , c54 7 3enataggj c4eg,3 g,gc3 _ 10319 AREA 4 VAIL cFT!tAy
21,(p 12318 193l9 L@lL@
I?3LI 10322 l@ 32 3 L4124 I0 3L5 IG3LG p 10327
5c28 s
lip 27 ! y o [ TRAY 4%T)+ T T6AY CABLE ! BOM I AREAGnq s t TOTAL ARE4 oF C4 ELE S = $.82 in 26343 12 B . lSSS SM3 12 8-29 .1385 TOTAL S, A RE A FILLcF TRAY ~ G316 It.-6 29 .1365 54 IL-8-L4 ,z % 3 % A = #L AR EA CA*LES 3'yp e438 12 2 7 I .13M 4RE4 AVA)LCF TR Ay 1 iTRA'l 43G,B]9 T' TRAY cABL E OcM ' A REA CnN z TOTA L A REA OF CABLES: 0. 4 7-in BM 12-C-38 .m8 _E69 12-c-3 8 .oqge TOT 4L % AREA F)LL or TRAY 8 71 12 c-36 I.cqa8 B7.3 12-C - 3 8 r,c90 6 % A u "" # D MW 7 O _ f 3* g g g) 1f02 8112-1-G58 i, G C47 ANE4 AMIL CV TA A1 21,G ~l - 15027 llt-I 0581, c54 7 0
Public FORT ST. \\/ RAIN NMEAA GENERAMG STATWN ScrylCOs PU LIC SE.T.VICE CCMPANY CF COLORADO CALCULATION WORKSHEET /N CALCvLATiCN FC A )
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CALCLLAtiCN Nuvate EE-FP g#dS Pagoasgo gy n 3 g g,g g' icart pl) igg l e-stvTAt3 av lCaLO. 8tv lPAGE 8 C8 ll 10a?! TRA'/ 44d ) -* c}" T A A'/ c4GL E GoM Ane4(in*) TOTAL AREA oF CABLES = d. 7 7 in t 10J/G 12-T-osa ,e 54 # /C1/7 !c3l6 N4 L % AREA FILL op TRAY ! # 319 pf A RT4 4. ASE Acattes MTAAVAiLorTug * =f3.5% 2] l@322 10323 ffl24 101L5 10L24 H127 15gte ~ ~ )$Q23 V V () [r3A'/ R2G 9 )718"TR47 TOTA L % 4RPA FlLL o r TRA'/ % A = bb cAEtes ip rRA'l dd dd fo] [ TP Av 9,2n$ l -* i B'TR AY To7AL ARE A or cast.Ea 9 2srin t cettE I EceA > AREA 6n) t S4 112.- B 2.'t l.2%3 TovAt g Anea wiLL e p-reA / r e v 4 t. x t a ocur g, N 9,E A A/ AIL. OF TEM / _ y, g, gg g. 4 3, 2, " [TPM Rifi]-* IB' TPA'/ 2 53 5 7bTA L ARE A o F CABLE S = d. M '"' g2ia i 172I9 i TDTA L 9 A REh FILL. O F TR A1 E SNov4L A9tA CAGLE02, .96 mm T lH L I. A wLcF w e.2 Ic322 i L 5 !23 Jguza Jg?s t i ICE-Icui ' _ I O IGNR L% ?.3 Y I .- e, - a un
Publia F RT ST. VRAIN NUCLEAR GENERATING STATION Services PUZLl3 SERVICE COMPANY OF COLORADO CALCULATION WORKSHEET ') cAccuuArios sca lca cutAr;os suvataEE. FP-cdd s c Z TRAY F1LL. FoR TRAY.s IMBoit-Di% /@ CE-194G 1) J 8as*4 ass s' D 3 PeeeA -t loa 7 ei,ima
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'CA " 8EV i8&CE 9 C8 ll (TRAY 43'?T)-* T' TRAY TDTAL % AREA FILL OF TRA'/ %Ac 5Af0E AS 5Hcuv voR TRAY 4%T =[3.8@p) [ TRAY 4370 } 9 T' TRAY ETAL % AREA FILL OF TRAY % A ' SAmE At *.,HC1 N Fc' q TRAY 4%B = [2,IB gl [TMY 438Tl+ 9"TRAY TOTA L % AREA FILt OF W AY % A= SAmE. AL :.Het na Fcg nAy 4%7 = [3.60 %l [ffs47 4188 \\
T' Tray TOTAL % ARE4 Flu. OF TRAY f')
% A = SA/rlE. AL sHo.J M FOR WAV 4% B f 2.) 8 j ) m [ TRAY 43'1] 4 c)"TgAy CAULE I BcM ARE4 (),5) TOTAL 4RE4 CF C ABLES = @,6./e n' 28343 11-A-9 ,15 5.5-8293
12. E-2 7 1385-
' TOTA L % AREA F1LL OF 1RA y 83F8 12 6-2'1 1385' s A= h ** M 825 _ A (2.G24 T-) W o W AY ~M: E438 12-c 27 l. l3gr [TRA'/ R2@$hl8' TRAY rcrAL 222u nu.cr m7 A% = W cAELES IM WAY = IG Gd f]o ETsa,s.zei)+is"Tuy TOTAL 9, ARE4 FlLLCF TRA Y A%: 700 CABLES I M W A7 =h Gd E (TMY R2c2. b 18' TRAY g, TOTA L % ARE.A FILL OF TRAY . A% = uo cAEtes N WAy = [c ## 5 8-.m.m f
OSOrylCF Pubila FORT ST. VRAIN NUCLEAR GENERATING STATION PU LIO st.?WICE COMPANY CF COLORADO CALCULATION WORKSHEET hem %T9AyFlLL roA TAAys su 301t.0A% g(E-1948 d c46c u r.c s sc a lcaucur.cs s' vhag g, F P..g g c "osano sv D3 ka-has ionre Allfle9 e t v T A t: er ~ ' . C A's 04; afv 18408 /[_ C# l} ~ (Te Ay 2cij e 18" TAA Y TOTA L S AREA F)LL cF TRAY Ab MO CA B L F. 5 IfG TRAY 3 , ($ () (TRA'fEc7)4 16" TR Ay l 7':7T At_ 'A MEA FlLL cF TRA] A'/2 * )Jo c AELE s IM T R Ay, fG. G6 G 2) (TR AN 20 6 ]
16" T R AY tot 4 L % AREA FILL oF TRAY i
A L = Ro c Ac LE t tu TRAY = { @G G A3 i TFAN'JIT] + le? T FM TOTAL % ARE4 FILL OF TRA'/ Ag. sA/nc At metAu % W A'/ 423T : (7.fo9 b O TRA Y 441M)-> 18" TAAT TOTA L % A RE A FIL t. OF TRAY Ab = SAVE AL t,%W FOR TRA1 403m 'Il 04& 4GI 16 s 18' TRAY c 4 E LE ' te m 'es t A (;s ) Ifggy q.c.j g,gqsz TC T4 L A A E 4 C F CAGl.E 5 2.19 in' = .LL9 &_ L 6.0962 ' Mr8 it c 3P.gq'eT 70% w sta, itt or my 8977.la t 311,g99f /q,5q l l [ Ap lo rat8'A '# ' **'8'Y, p.19, g AR t a cA tt r. Eh d A 91.1 }.EG2M_4tt. 4Rss ~ 15hio L l.49ts ' jE O f( _6:G I ~ _en ' 7' 6G) -[-- - T- ~ gg; A?& ~
/ N Public FORT ST. V9AIN NUCLEAR GENEftATING STATION + Service
Pu_uc cERVICE COMPANY OF COLORADO CALCULATION WORKSHEET CALCLLATiGN FCA 36 TRA?' FILL fcR TRA15 m 90\\LDomp 16(e ~R4e-l)
GALCVLAT4CN %v8(4E E-FP v ,8,* t ' A ' 8 0 a v Q$ bsdigf ICatt @jp}A3 i ag',tato sy lcatt l CALC.R(1 l PAG ( ll Cp ll [ TRAY 4vn T)e IS" TRAY GAOLE Een A'EAGd tTA L A RE 4 or cA tLE 1.59 id a }2n iz.a.w . g;4 79,3 t g gn,,gLt,PTqAy 5424 12411 .7/03 111 + lt W4 .105 %A* A I[^o#N e [ "3G81) p x ( TPAY 409 M ) -* 18' TA A X i myA L e AR EA F)LL OF T AAY (fA po CA8 LE.S lb.3 %A7' = IG GO (TRAY dO9 E }
18"Wy uAL % A%,EA FILL C F TQ A1 SA: MO C A E LES IU TR A'/ = [G.GG 2 3 1
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TCAYS 54ITH CtLCULATED PAGE 1 dl2. AREA AREA PERC[NT AREA AREA PERCENT T2AY BUS LOOP SER LOC AVAIL ABL E FILLES FILLED TRAY BUS LOOP SER LOC AVAIL A BL E FILLED FILLED 131 31 11 K AX 30.00 1.51 005.05 12M1 32 L1 C AX 54.00 32.16 859.55 182 82 12 K AX 30.00 12.59 041.96 12MZ B2 L2 C AX 54.00 44.51 082.42 IMI BZ LI C AX 18.08 11.04 861.44 12ft 31 Lt C AX 72.80 67.28 895.33 IM2 BZ 12 C AX 88.20 63.72 072.24 17'2 2! L2 C AX 36.80 31.78 088.85 III B1 LI C AX 42.08 11.69 027.85 13B1 31 il K AI 30.80 11.55 038.58 112 BI LZ C AX 42.00 21.34 050.8e 13B2 32 L2 K AX 30.00 9.85 e52.76 281 31 11 K AX 60.09 18.90 031.50 15MI B2 11 C AX 42.00 29.31 869.78 2MI B2 11 C AX 87.80 18.88 045.77 15M2 BZ L2 C AX 72.00 38.83 855.93 211 B1 11 C AX 87,s0 41.8! 048.15 13T1 B1 L1 C AX 60.00 43.61 872.68 381 81 L3 K AX 30.88
5.06 043.55 1372 31 12 C
A Y. 26.00 18.76 872.15 3B2 BZ 12 C AX 30.08 18.59 035.30 1481 B1 L1 Z AX 6c.00 6.31 010.51 3M1 B2 L1 C ZY 42.09 24.75 058.88 I4M1 B2 13 C
X 87.00 17.07 819.62 3M2 B2 12 C
AX 45.60 37.93 083.28 14T1 31 11 C AX 87.00 28.23 052.44 3T1 31 L1 C AX 42.90 21.75 051.78 1581 31 .1 K AX 30.C0 17.15 057.16 372
1 12 C
AX 42.as 15,71 037.60 1532 32 L2 K AX 38.00 5.62 018.75 482 B2 12 K AX 72.00 17.26 025.97 15M1 B2 L1 C AX 70.00 53.65 855.21 4M2 82 12 C AX 87.00 78.97 081.57 15M2 52 L2 C AX 25.28 21.59 085.67 i 582 B2 12 K AX 68.09 7.58 812.65 ISTI B1 11 C AX 108.00 64.10 059.35 SM2 B2 L2 C AX 87.00 42.80 049.19 1512 31 L2 C AX 18.09 8.40 846.66 i Sf2 B1 12 C AX 87.00 54.64 062.80 1681 31 L1 K AX 60.00 11.20 018.66 438 81 L1 K AX 39.04 8.79 029.30 16M1 B2 L1 C AX 87.00 29.12 033.47 682 32 L2 K AX 30.00 23.22 G13.71 1681 B1 11 C AX 87.00 35.22 048.48 i eM2 32 12 C AX 108.08 46.28 079.88 1731 B1 L1 K AX 30.00 4.89 e16.30 611 B1 L1 C AX 18.0B 3.24 018.00 1782 32 L2 K AX 39.00 2.89 889.63 612 Si L2 C AX 86.40 66.25 876.67 17M1 32 L1 C AX 42.00 21.97 452.38 i 131 31 11 K AX 30.80 3.24 010.88 17M2 32 12 C AX 52.00. 27.74 846.84 7D2 52 L2 K AX 48.88 7.39 015.39 17TI B1 L1 C AX 52.20 24.49 846.91 p-- 7MI BZ L1 C AX 87.06 9.16 819.52 1712 31 L2 C AX 60.69 19.44 812.48 711 El L1 C AX 87.80 54.24 842.34 1882 32 L2 K AX 68.es 13.64 s22.75 )bi 831 BI L1 K AX 34.40 4.42 030.69 ISMZ B2 L2 C AX 87.88 35.08 838.02 --f; 832 82 L2 K AX 68.Os 26.35 045.11 18T2 31 12 C AX 87.08 31.40 856.99 ,q EMI B2 il C AX 21.68 9.32 045.14 1931 31 L1 K AX 38.00 1.e4 903.46 }g' SM2 82 L2 C AX 88.25 88.93 196.82 1932 32 12 K AX 38.09 3.27 810.90 811 BI L1 C AX 78.00 54.76 970.28 20B1 31 L1 K AX 30.90 11.37 957.94 al2 31 L2 C AX 102.00 62.31 061.08 20B2 B2 L2 K AX 30.00 1.51 085.85 ][i 981 31 L1 K AX 68.98 13.38 922.30 29M1 E2 L1 C AX $6.70 46.38 881.79 9MI B2 L1 C AX 87.00 38.55 044.31 20M2 B2 L2 C AX 42.00 24.63 858.64 35 1081 31 LI X AX 33.00 27.33 882.21 20T1 31 LI C AX 70.08 42.24 060.34 1082 32 12 K AX 39.00 18.43 026.66 20T2 31 L2 C AX 18.00 3.87 021.58 b;; 30M1 B2 L1 C AX - 68.85 41.92 069.86 2131 31 il K AX 30.00 17.44 858.13 '{, ' leM2 32 12 C AX 26.00 21.65 085.26 2182 32 12 K AX 30.00 .00 a.e4 -j 1911 B1 11 C AX 78.88 55.53 079.32 21M1 B2 LI C AX 70.00 29.23 041.75 1012 31 12 C AX 38.80 5.16 825.66 21M2 32 L2 C AX 18.00 2.32 012,88 1181 Bl 11 K AX I4.43 6.09 042.29 21T) B1 L1 C AX 87.30 59.27 667.89 1182 82 12 K AX 57.40 19.65 034.07 21T2 31 L2 C AX 18.00 2.27 412.61 {} 11M1 32 L1 C AX 18.00 8.25 45.83 22B2 B2 L2 K AX 60.00 .65 1.05. 11M2 BZ 12 C AX 78.40 29.40 042.00 22N2 B2 L2 C AX 87.00 23.10 826.55 1111 81 11 C AX 70.00 50.4G 072.0S 22T2 51 L2 C AX 87.00 3.90 804.48 1112 31 L2 C AX 18.80 8.37 846.50 2352 B2 L2 K AX 60.00 11.52 019.28 1281 B1 LI K AX 30.00 12.49 061.65 25M2 32 L2 C AX 87.00 33.35 038.31 1282 82 L2 K AX 30.80 13.66 045.55 23T2 51 L2 C AX 87.09 32.18 056.98 r
Os b TCAYS HITH\\_ /. CALCULATLD \\'~' PAGE2.3'lk AREA AREA PE RCEt4 T T2AY BU5 LOOP SER LOC AVAILABIC FIL L ED FILLED TRAY BUS LOOP 5[R LDC AVAILABLE FILLED FILLED ARE AREA PERCENT - -= 24B2 B2 L2 K AX 60.00 11.07 018.45 57MI B2 Ll C AX 87.00 .29 000.35 _g 24ft2 B2 12 C Ar 87.00 51.57 059.27 37T1 B1 L1 C AX 87.0c .69 200.79 2412 BI L2 L AX 87.00 19.85 022.85 3EBi BI 11 K AX 60.00 10.16 GI6.95 2581 21 11 K AX 60.00 1.38 002.50 39M1 BZ L1 C AX 42.00 6.61 15.75 25B2 B2 12 X AX 60.00 6.57 010.61 39M2 B2 12 C AX 42.00 2.41 005.73 25MI BZ tl C AX 87.co 10.25 01I.78 .071 B1 L1 C AX 42.00 1.57 003.73 26BI B1 11 X AX 30.00 2.75 009.10 5932 B1 L2 C AX 42.00 6.10 014.52 2682 B2 12 K AX 30.0? 6.86 022.86 40M1 B2 8.1 C A* 42.00 I.09 2.59 24M2 B2 12 C AX 87.00 50.45 055.00 40M2 B2 L2 C AX 42.00 3.23 007.60 26f2 81 12 C AX 87.60 15.37 017.66 40T2 31 L2 C AX 87.00 10.66 012.25 2781 B1 LI K AX 30.00 6.64 022.15 '1M2 B1 L1 C AX 87.00 5.86 006.75 2782 82 L2 K AX 30.00 8.57 028.56 4112 B1 L2 C AX 87.00 3.12 005.58 27Mi B2 El C AX 42.00 .81 001.92 4252 B2 12 K AX 60.00 5.81 S09.68 2/M2 B2 12 C AX 42.00 5.40 12.85 42M2 B2 L2 C AX 87.00 13.21 015.18 2112 B1 12 C AX 87.00 4.15 004.74 42i2 El L2 C AX 87.00 19.44 022.34 28B1 B1 11 K AX 30,00 17.21 057.36 45B2 BZ L2 K AX 60.00 5.96 009.93 2882 B2 12 K AX 30.00 2.22 007.40 45M2 B1 L1 C TS 87.00 24.64 028.32 28MI BZ L1 C AX 70.00 28.9s 041 40 41!2 B1 L2 C AX 87.00 16.04 018.45 23rt2 B2 17 C AX 18.00 4.17 25.16 4451 B1 L1 K AX 60.00 6.00 010.00 2811 81 1. O AX 70.00 54.05 082.90 44M1 B2 L3 C A? 87.00 28.54 052.57 2812 B1 12 O AX 18,00 1.91 10.61 ' 551 B1 L1 K AX 30.00 12.14 040.46 2981 B1 11 K .a 1 30.00 26 8.40 4552 BZ L2 K AX 30.00 16.21 054.05 29B2 B2 12 K AX 30.00 7.55 025.16 45T) El L1 P 'A X 42.00 2.50 005.95 29M2 B2 12 C AX 87.00 11.81 015.57 4512 82 12 P AX 42.00 14.70 055.00 2911 B1 11 C AX 42.C0 5.31 012.64 46BI B1 L1 K AX 30.00 4.42 014.75 29I2 'l LZ C AX 42.00 E.82 4.35 4682 B2 12 K AX 30.00 25.61
85.56 3081 L'
11 K AX 60.00 13.48 G22.46 46T1 B1 L1 P AX 38.00 7.80 045.35 50H1 82 11 C AX 87.00 10.29 011.82 4612 B2 L2 AX 82.80 49.02 059.20 3011 B1
1 C
AX 87.00 44.51 051.16 4751 B1 L1 X AX 30.00 5.02 016.70 3181 BI a. K AX 30.00 19.84 e66.13 4782 Bt tz K AX 30.00 8.83 029.45 5182 B2 12 K AX 50.00 5.38 017.93 47M2 B/ L2 C AX 87.00 63.76 073.28 5IMI B2 LI C AX 40.00 36.25 060.41
7T1 57 LE P
AX 42.00 14.25 035.92 51112 BZ L2 C AX 26.00 15.47 059.50 4712 B2 L2 P AX 42.00 4.07 9.69 5111 B1 L1 C AX 70.00 55.09 DAD.12 48B1 51 L1 K AX 30.00 19.89 066.30 5112 B1 L2 C AX 1 A,00 .95 5.27 4322 h2 L2 K AX 30.00 4.94 016.46 52H1 B2 11 C AX 67.00 21.97 025,25 48M1 B2 L1 C AX 87.00 27.87 052.05 t ' 55B1 B1 11 K AX 31.00 28.00 090.52 nsT1 B1 L1 P AX 94.10 67.19 071.40 5582 B2 12 f AX 30.00 5.16 010.55 4812 B2 12 P AX 18.00 1.47 008.16 ' 55f!I BZ 11 C AX 89.10 56.85 C63.80 49B1 31 L1 K AX 30.00 2.75 009.10 55M2 52 12 C AX 18.00 9.57 52.05 4982 32 L2 K AX 30.00 1.93 6.45 55f1 B1 11 C AY 119.P0 E2.15 069.03 4 9131 B2 L1 C AX 18.00 3.68 020.44 54BI B1
1 K
AX 3F.f0 27.17 011.50 49M2 B2 L2 C AX 114.80 72.37 065.04 5482 82 12 K AX 56.00 1.46 004.05 49T1 81 il P AX 70.00 27.75 059.64 34M1 BZ 11 C AX 75.00 51.10 069.20 49T2 B2 12 P AX 18.00 9.96 55.3! 54It2 B2 12 C AX 18.00 7.77 045.16 50M2 52 L2 C AX 87.00 28.04 052.25 5411 Bl 11 C A% 117.03 109.41 095.85 50T2 B2 12 P AX 201.30 68.60 054.07 55ft 81 11 C AX 87.00 31.92 05(.68 5182 B2 a2 K AX 60.00 8.73 014.65 56B1 B' 11 1 AX 60.C3 14.75 0'4.55 51M2 B2 L2 C AX 87.00 21.79 025.04 56f t1 B5 il C AX 07.00 7.81 008.97 5112 BZ L2 P AX 87.00 32.46 057.51 5671 BI il C AX Z7.C0 2.82 005.24 52B2 B2 12 K AX 60.00 8.22 015.70 57B1 F1 11 K AX 6n.0c 6.59 010.98 52M2 B2 L2 C AX 37.00 21.61 024.83
a num O (v^ + TRAYS WITM r /. CALCULATED PAGE 3.V12 .___-== = ____-- ARE4 AREA PERCEflT TRAY BUS LOOP SER LOC AJAILABLE FILLED FILLED TRAY bol LOOP SER LOC AVAILABLE FILIED FILLED AREA AREA PERCENT 52T2 52 L2 P AX 87.00 56.45 C64.88 65T1 B1 L1 P AX 87.00 16 50 018.96 53MI B2 L1 C AX 18.00 .00 0.00 66BI B1 L1 K AX 30.00 3.25 010.83 53t12 B2 L2 C AX 70.00 51.12 07'. 02 6682 B2 L2 AX 30.0G .58 1.93 5312 B2 L2 P AX 87.00 36.30 041.72 66M1 B2 Ll C AX 42.00 12.55 029.88 l 5451 Bl il K AX 30.00 1.73 005.76 66M2 B2 L2 C AX 42.00 5.95 U14.16 ' 5482 B2 L2 K AX 30.00 2.02 6.75 66T1 B1 L1 P AX 70.00 31.13 044.47 54M1 B2 L1 C AX 18.00 1.81 910.05 66T2 B2 L2 P AX 18.00 3.75 020.83 54M2 b2 L2 C AX 114.80 70.27 061.21 67B1 B1 L1 K AX 30.00 2.80 009.33 5' T1 81 L1 P AX 42.60 10.50 25.00 6782 B2 L2 K AX 30 00 3.79 012.63 54T2 E2 L2 P AX 42.00 12.44 29.61 67M1 B2 L1 C AX 42.00 14.46 034.42 5531 21 L1 K AX 30.00 3.64 012.13 67M2 B2 L2 C AX 42.0 15.99 038.07 55b2 B2 L2 K AX 30.00 1.93 6.43 67T1 B1 L1 P AX 57 4.26 010.14 55MI B2 Ll C AX 18.00 6.45 035.83 67T2 B2 L2 P AY u 55H2 BZ L2 C AX 144.00 78.91 054.79 68B1 B1 L1 K AX 4.80 011.42 ~ 5511 B1 L! P AX 70,00 40.44 057.77 68ttl B2
1 C
AX 14.53 016.70 1; 9.18 016.30 55T2 B2 L2 P AX 18.00 3.01 16.72 68T1 B1 L1 P AX 87. U:1 12.46 014.32 u 56B1 B1 L1 K AX 33.0P 2.85 9.50 69B1 B1 L1 K AX 30.00 2.92 9.73 5482 B2 L2 K AX 30.u0 1.82 006.06 69B2 B2 L2 K AX 30.00 3.73 012.43 SiM1 B2 L1 C AX 42.00 6.34 015.09 69M1 B2 L1 C AX 18.00 .42 002.33 56M2 B2 12 C AX 42.c0 6.59 015.69 69M2 B2 L2 C AX 70.50 40.53 057.90 Sill B1 LI P AX 70.00 19.98 028.54 69T1 B1 L1 P AX 42.00 1.29 003.07 56T2 B2 L2 P AX 18.00 2.19 12.16 69T2 B2 L2 P AX 42.00 9.38 022.33 57B1 BI L1 K AX 30.00 5.27 017.56 70B2 B2 L2 K AX 60.00 3.37 005.61 $782 B2 L2 K AX 30.00 9.12 03C.40 7CM2 B2 L2 C AX 87.00 41.85 048.10 57MI B2 Ll C AX 18.00 15.44 085.77 7GT2 B2 L2 P AX 87.00 22.74 026.13 57M2 B2 L2 C AX 70.03 27.50 039.28 7182 B2 L2 K AX 60.00 6'.23 010.38 5?T1 B1 L1 P AX 70.00 40.92 058.45 71M2 B2 L2 C AX 87.00 61.11 070.24 57T2 B7 L2 P AX 18.00 5.21 28.94 7112 B2 L2 P AX 128.10 75.25 058.74 58M1 B2 L1 C AX 7a.00 25.79 036.84 72B2 B2 L2 K TB 60.00 .~. 31 005.51 58tl2 82 L2 C AX 18.00 .81 004.50 72MZ B2 L2 C TB 87.00 27.77 031.91 58T1 B1 f.' P AX J26.00 90.62 073.92 72T2 B2 L2 P TE 87.00 50.44 057.97 5981 B1 Li K AX 30.00 6.45 021.43 7382 B2 L2 K AX 60.00 3.27 005.45 59B2 B2 L2 K AX 30.0G 8.32 027.75 73M2 B2 L2 C AX 87.00 33.94 039.01 6081 B1 L1 K AX 60.00 21.12 035.20 73T2 B2 L2 P 7.1 87.00 30.27 034.79 61B1 51 L1 K AX 10.00 16.02 053.4G 74B2 B2 L2 K AX 60.09 3.22 005.36 6182 82 L2 K AX 30.00 00 0.06 74M2 B2 L2 C AX 87.00 32.68 037.56 61M1 B2 L1 C AX 87.00 20.20 023.21 74T2 B2 L2 P AX 87.00 25.75 029.57 6111 B1 L1 P AX 87.00 53.93 061.98 75B1 Bt L1 K AX 30.00 9.78 032.60 6281 B1 L1 K TB 60.00 1.86 003.10 75B2 BZ L2 K AX 30.00 .00 0.00 42M1 B2 Ll C IB 87.00 1.91 002.19 75M1 B2 L1 C AX 42.00 14.57 034.69 62T1 B1 L1 P TB 87.00 24.90 028.62 75M2 B2 L2 C AX 42.00 .28 000.66 6581 B1 L1 K AX 30.00 13.58 045.26 75T1 El L1 P AX 42.00 12.91 030.75 63B2 82 L2 K AX 30.00 00 0.00 75T2 BZ L2 P AX 42.00 3.75 008.52 63M1 B2 L1 C AX 47.00 20.79 023.89 76B1 B1 L1 K AX 60.00 7.96 013.26 63Tl B1 11 P AX 87.00 48.55 055.80 7781 B1 L1 K AX 30.00 10.99 036.63 64BI BI L1 K AX 30.00 10.00 033.33 77B2 BZ L2 K AX 30.00 .00 0.00 6482 B2 L2 K AX 30.00 .25 7.60 77M1 B2 Il C AX 87.00 15.22 017.49 64M1 B2 L1 C AX 87.00 20.73 023.82 77T1 B1 L1 P AX 87.00 19.90 022.87 6411 B1 L1 P AX 87.00 55.05 063.27 78T1 B1 L1 P AX 87.00 50.02 057.49 65B2 B2 L2 K AX 60.00 00 0.00 79B1 B1 L1 K AX 30.00 10.99 036.63 45nt 82 L1 C AX 87.00 3.55 004.08 79B2 B2 L2 K AX 30.00 .00 0.00 j
f3 {]h TRAYS HITM b ). CALCULATED I U PATE 4 ol'151 AREA AREA PERCEf4T AREA AREA PERCENT TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED ____s i 79H1 B2 L1 C AX 87.00 18.55 021.09 988 B2 L2 K TB 60.00 1.45 002.41 79ft B1 L1 ? AX 87.00 45.79 052.63 98M B2 L2 C TB 87.00 17.80 920.45 80H1 B2 L1 C AX 87.00 12,25 014.08 98T B2 L2 P TB 87.00 27.24 031.31 81B1 51 L1 K AX 30.00 10.99 036.63 V3B B2 L2 K TB 36.00 1.45 004.02 8182 B2 L2 r AX 30.00 .00 0.00 99M 02 L2 C TB 87.00 17.04 019.58 EIMI B2 L1 C AX 87.00 25.06 026.50 99T B2 L2 P TB 87.00 28.03 052.21 81I1 B1 L1 P AX 87.00 42.44 048.78 CR327 B1 L1 K RX .79 .20 025.31 82B1 Bl LI ~ AX 60.00 4.08 006.80 CR328 32 L2 K RX .79 .20 025.31 82H1 B2 L) AX 87.00 4.43 005.09 CR329 B3 L2 K RX .79 .20 025.31 Ell! B1 La AX 87.00 7.47 008.58 CR350 B1 L1 K RX .79 .20 025.31 858 B2 L2 TB 60.00 7.40 012.35 CR551 B2 12 K IB .79 .20 025.31 83M B2 L2 C TB 87.00 27.55 031.66 CR352 B1 L1 K TB .79 .20 025.31 85) B2 L2 P TB 87.00 35.81 041.16 Cd355 B2 L2 K BT 3.14 .30 009.55 848 B2 L2 K TB 60.00 6.46 010.76 CR334 B1 L1 K BT 3.14 .30 009.55 84H B2 L2 C TB 87.00 26.46 030.41 CR336 B1 L1 K AX 3.14 .30 009.55 84T 82 L2 P TB 87.00 40.96 R%7.08 CR367 B2 L2 K RX .79 .00 000.00 858 B2 L2 K TB 60.00 6.46 'O.76 R43A B1 L1 P IB 64.80 12.50 019.29 85M B2 L2 C TB 57.00 29.' .67 R100 B1 L2 C RX 60.00 16.19 026.98 85T B2 L2 P IB 87.00 41.* .26 RIDI B1 L2 P RX 60.00 30.01 050.01 868 B2 L2 K TB 60.00 ( _t0.76 R102 B2 L1 C RX 60.00 7.56 12.60 A6M B2 L2 C TB 87.00 2w 034.12 R103 B1 L1 P RX 60.00 11.18 18.63 86T B2 L2 P TB 87.00 4. ,3 050.17 R104 B2 L1 P RX 60.00 9.21 16.35 87B B2 L2 K TL 60.00 7.88 013.15 R105 B1 L1 K RX 60.00 1.46 2.45 87H B2 L2 C TP 87.00 28.79 633.09 R106 B2 L2 C RX 60.00 7.74 12.90 87T B2 L2 P 87.00 43.91 050.97 R107 B1 L2 C RX 60.00 16.34 027.25 BBB B2 L2 K 60.00 5.99 009.98 R108 B1 L2 P RX 60.00 29.25 048.71 8CM B7 L2 C 37.C0 25.45 029.25 R109 BZ L1 C RX 60.00 10.48 017.46 38T B2 L2 P d 87.00 40.81 046.90 R110 B1 L1 P RX 60.00 21.41 35.68 89M B2 L2 C 1 87.00 11.05 012.70 Rlll B2 L1 P RX 60.00 26.22 G3.70 89T B2 L2 P la 87.00 7.14 008.20 Rll2 B1 L1 K RX (0.00 5.21 008.68 905 B2 L2 K ib 60.00 1.41 002.35 Rll3 B1 12 P RX 60.00 28.39 047.31 90M B2 L2 C TB 87.00 16.02 018.41 R114 B1 L1 P RX 72.00 38.29 055.18 90T B2 L2 P TB 87.00 45.94 052.80 Rll5 B1 L2 C RX 60.00 17.04 628.40 918 B2 L2 K TB 60.00 5.35 008.91 Rll6 P1 L2 P RX 60.00 28.64 047.73 91M BZ L2 C TB '7.00
24. 0 8 027.67 Ell 7 B2 L1 C
RX 60.00 IJ.17 016.95 91T B2 L2 P TB s7.00 40.40 046.45 Rll8 B2 L2 C RX 60.00 4.31 007.18 928 B2 L2 K TB 60.00 1.41 002.35 R119 B1 L2 C RX 60.00 12.17 020.28 92M B2 L2 C TB 87.00 2.80 005.21 R120 B1 L2 P RX 60.00 21.60 36.00 92T B2 L2 P TB 87.00 18.45 21.20 R121 B2 L1 C RX J0.00 14.72 024.55 93H B2 L2 C TB 87.00 12.97 014.90 R122 B1 L1 P RX 60.00 26.18 043.63 93T B2 12 P TB 108.00 71.06 065.79 R123 B2 L1 P RX 60.00 25.31 38.85 948 B2 L2 K TB 60.00 3.95 006.55 R124 B1 L1 K RX 60.00 5.05 008.41 94M B2 L2 C TB 87.00 22.29 025.62 R125 B2 L2 C RX 60.00 3.79 006.31 94T B2 L2 P TB 87.00 34.23 039.34 R126 B1 L2 C RX 60.00 2.30 3.85 95B B2 L2 K TB 60.00 3.30 005.83 R127 B1 L2 P RX 60.00 11.61 019.35 95M B2 L2 C TB 87.00 27.94 052.11 R128 B2 L1 C RX 60.00 14.29 025.81 95T B2 12 P TB 87.00 44.13 052.72 R129 B1 L1 P RX 60.00 34.65 057.75 96M B2 L2 C TB 87.00 21.48 024.68 R130 B2 L1 P. RX 60.00 20.50 34.1/. 91T B2 L2 P TB 87.00 35.21 040.47 R151 B1 LI K RX 60.00 2.89 4. 6.. 97M B2 L2 C TB 87.00 15.07 017.32 2154 B1 L2 P RX 60.00 11.16 018.60 97T B2 L2 P TB 87.00 41.98 048.25 R136 51 L1 P RX 60.00 27.81 046.35
c n O PAGE 5 ( TRAYS HITH km/. CALCULATED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED - =-- R137 J2 L1 P RX 60.00 16.04 26.73 R192 B1 L1 C TB 23.00 1.23 005.34 l R138 B1 L1 K RX 60.00 3."a 005.10 R193 B1 L2 P RX 36.00 .28 7.70 R141 B1 L2 C RX - 60.00 9.80 016.33 R194 B2 L2 K RX 56.40 34.24 060.70 R143 B1 L1 P RX 60.cc 10.71 17.85 R195 B2 L2 P TB 36.00 5.87 016.30 kI45 B1 L1 K RX 60.00 22.18 036.96 R196 B1 L1 P TB 60.00 ?S.47 42.45 RI46 B2 L1 P RX 60.00 13.45 022.41 R197 B2 L2 P TB 60.00 25.47 42.45 R147 B1 L1 C RX 60.00 8.60 014.55 R198 B1 L1 P RX 36.00 .03 0.00 R148 B2 L1 C RX 60.00 27.66 046.10 R199 B2 L2 P RX 69.00 .00 0.00 R149 B1 L2 P RX 60.00 23.26 038.76 R1 B1 L1 K AX 60.00 1.53 002.55 RISO B2 L2 C RX 60.00 47.81 079.68 RIO B2 L2 C AX 36.00 1,68 004.66 3t RISI B2 L2 P RX 60.00 33.14 055.23 R11 B1 L1 C AX 36.00 .25 000.69 l R152 B2 L1 P RX 60.00 12.09 020.15 R12 B1 L2 P AX 36.00 1.77 004.91 lR153 B1 L1 C RX 60.00 7.26 012.10 R13 B1 L2 P AX 36.00 .00 0.00 R154 B2 L1 C RX 60.00 20.20 033.66 R14 B1 L1 P AX 36.00 .72 2.00 RISS B1 L2 P RX 60.00 10.77 1/.95 R15 B1 L1 P AX 36.00 1.77 004.91 RISS B2 L2 C RX 60.00 28.66 047.76 R16 B2 L1 C TB 60.00 22.48 037.46 I R157 B2 L2 P RX 60.00 23.62 039.36 R17 B1 L1 P TB 91.20 59.71 065.47 RISS 81 11 P RX 36.00 11.12 030.88 R18 B1 L1 K TB 60.00 9.76 016.26 R159 B1 L1 C RX 36.00 7.72 21.44 R19 B2 L2 P TB 36.00 9.57 026.58 R160 81 L1 K RX 36.00 1.81 5.02 R2 B2 L2 C AX 60.00 33.23 088.71 R161 82 L2 P RX 36.0J .86 092.38 R2A B1 L2 C AX 28.80 .61 002.11 R162 B2 L2 C RX 36.00 3.09 8.58 R20 B2 L2 C TB 36.00 14.93 041.47 R163 B2 L2 K RX 36.00 4.11 011.41 R21 B1 L1 P TB 36.00 5.25 014.52 R164 B2 L2 P RX 36.00 7.85 021.80 R22 B1 Ll C TB 36.00 5.76 016.00 R165 B2 L2 C RX 36.00 10.88 030.22 R23 B1 L1 P TB 48 00 4.85 010.10 l R166 B2 L2 K RX 36.00 5.32 014.77 R24 B2 L2 P TB 36.00 11.18 031.05 R167 BI L1 P RX 36.00 2.74 007.61 R25 B2 L2 P TB 43.20 31.69 073.35 R168 B1 L1 L RX 36.00 3.99 011.08 R26 BZ L2 P TB 43.20 25.66 059.39 R169 B1 L1 K RX 36.00 4.38 012.16 R27 B2 L2 P TB 36.00 11.55 32.08 R170 B2 L2 P RX 36.00 12.04 033.44 R28 B2 L2 P TB 36.00 6.46 17.94 R171 82 L2 C RX 36.00 13.66 037.94 R29 B1 L1 P TB 36.00 12.59 034.97 R172 B2 L2 K RX 36.00 12.68 035.22 R3 B1 L1 P AX 36.00 12.73 035.27 R173 B1 L1 P RX 36.00 10.58 029.38 R30 B1 L1 P TB 36.00 20.11 055.86 R174 BI L1 P RX 36.00 4.35 012.08 R31 B2 L2 P TB 36.00 6.65 18.47 R175 B1 L1 P RX 36.00 5.51 015.30 R32 B2 L2 C TB 23.00 .60 2.60 R176 B1 L1 C RX 36.00 2.79 007.75 R33 52 LZ P TB 23.00 1.82 7.91 R177 B1 L1 K RX 36.00 6.75 018.75 R34 82 L2 P TB 36.00 13.93 038.69 R178 E2 L2 P RX 56.00 14.49 040.25 R35 B1 L1 P TB 60.00 10.17 016.95 R179 B2 L2 C RX 36.00 12.86 035.72 R36 BZ L2 C IB 60.00 .65 1.08 RISO B2 L2 K RX 36.00 10.35 028.75 R37 BZ L2 P TB 36.00 4.65 012.91 R181 B1 L1 P RX 36.00 .89 002.47 R38 B2 LZ P TB 36.00 17.21 047.80 R182 B1 L1 P RX 36.00 1.49 4.13 P39 B1 L1 K TB 23.00 2.43 010.56 Rl:3 81 L1 K RX 36.00 3.62 010.05 R4 B2 L2 P AX 36.00 4.03 11.19 R184 B1 L1 C RX 36.00 15.09 041.91 R40 B1 L1 C TB 23.00 16.26 070.69 Rid 5 51 LI P RX 36.00 21.32 059.22 R41 B1 L1 P TB 23.00 1( 71 063.95 R185 51 L1 P RX 36.00 10.91 030.30 R42 B1 L1 P IB 36.00 1.82 5.05
R187 B1 LI C
Ex 36.00 4.49 012.47 R43 B1 L1 P 1B 48.00 2.36 4.91 R188 B1 L1 P RX 36.00 10.36 028.77 R44 B1 L1 P TB 64.8D 7.19 11.09 R189 B1 LI C RX 36.00 25.02 063.94 R45 B1 L1 P TB 36.00 15.98 44.38 l R190 B1 L1 P RX 43.20 26.56 061.48 R46 B1 L1 P TB 43.20 25.25 058.44 iR191 BI L1 P 18 23.00 4.70 20.45 R47 B1 L1 C TB 23.00 12.22 053.13 i
TRAYS HITH , CALCULATED PAGE 6 sEl AREA AREA PfRCEtiT AREA AREA PERCENT l 1 RAY BUS LOOP SER LOC AVAIL ABl E PILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED F' '. L E D =. R48 B1 17 P TB 28,80 11.05 038.29 103 B2 L2 P TB 87.00 11.36 013.05 R49 51 El P IB 23.00 3.66 15.91 104 B2 L2 P TB 52.00 15.39 029.59 R5 B3 LO P AX 36.00 25.46 070.72 105 B2 L2 P 1B 52.00 20.32 039.07 R50 81 L1 C TB 23.00 1.90 008.26 106 82 L2 P TB 52.00 6.04 011.61 R51 B1 LI K 18 3.00 .67 022.33 1078 B2 L2 K TB 60.00 1.55 002.58 R$2 B1 11 P TB 23.00 3.12 13.56 107M B2 L2 C TB 87.00 27.96 032.13 R55 BI L! C TB 25.C0 5.14 C22.34 107T B2 L2 P TB 87.00 42.74 049.12 R54 B1 L1 K IB 23.00 .51 002.21 108M B2 L2 C TB 52.00 13.62 026.19 R55 B1 L1 P TB 23.00 2.96 12.86 ?OST 82 L2 P TB 52.00 19.73 057.94 RS6 B '. 11 C IB 23.00 4.89 021.26 109M B2 L2 C TB 52.00 10.84 020.84 R57 21 11 K RX 60.30 24.13 040.21 109T B2 L2 P TB 52.00 16.44 031.61 R59 B1 L1 C RX 6G.00 48.62 081.03 110B B2 L2 K TB 36.00 1.28 003.55 R6 B2 L2 P AX 43.20 57.47 086.73 Il0M E2 L2 C TB 87.00 16.39 18.83 R60 B2 L1 C RX 60.00 30.55 050.91 110T B2 L2 P TB 87.00 19.11 021.96 R61 B1 L2 P RX 3a.00 25.00 041.66 111B B2 L2 K TB 60.00 1.11 001.85 R62 B2 L2 C RX 60.00 32.32 053.86 IllM B2 L2 C TB 87.00 8.83 010.14 RS3 52 52 P RX 72.00 48.06 066.75 111T B2 L2 P TB 87.00 16.66 19.14 R54 B2 LZ K RX 60.00 26.10 043.50 112 B1 L1 P TB $2.00 19.07 036.67 R65 B1 L1 K RX 60.00 14.01 023.35 113 82 L2 P TB 52.00 12.11 023.28 R67 B1 L1 C RX 60.00 49.13 081.88 1145 52 L2 K TB 60.00 1.11 001.85 R69 B1 L2 P RX 63.00 35.58 059.30 114M B2 L2 C TB 87.00 8.95 010.28 R7 B1 L1 ? AX 70.00 51.98 072.97 Il4T B2 L2 P IB 87.00 16.95 19.48 R71 B2 L2 P RX 72.00 45.62 063.36 115B B2 L2 K TB 60.00 .25 000.41 R72 B2 L2 K RX 60.00 15.42 025.70 ll5M B2 L2 C TB 87.00 7.60 008.73 R73 B1 L1 K RX 60.00 12.07 020.11 IIST B2 L2 P TB 87.00 19.53 022.44 R75 B1 L1 C RX 60.00 27.36 U45.60 116M B2 L2 C TB 35.00 .09 000.25 R76 B1 Ll C RX 60.00 30.49 a%0.81 Il6T 82 L2 P 18 35.00 2.36 006.74 R77 B1 L2 P RX 60.00 26.38 .96 1178 B2 L2 K TB 60.00 .74 001.25 R79 B2 L2 P RX 72.00 $1.82 . 97 Il7M B2 L2 C TB 87.00 10.6' 012.27 s R80 B2 L2 K RX 60.00 15.02 025.03 Il7T B2 L2 P TB 87.00 24.fa 028.16 R81 B1 L1 K RX 60.00 6.59 010.98 138T B2 L2 P TB 52.00 17.64 033.92 R82 B2 L1 C RX 60.00 31.87 055.11 119T B2 L2 P TB 52.00 3.48 606.69 R83 51 La C RX 60.00 21.64 036.06 120T B2 L2 P TB 52.00 2 30 004.42 R85 B1 12 P RX 60.00 30.35 50.58 121B B2 L2 K TB 60.00 .98 001.63 R87 52 12 P RX 60.00 18.94 31.56 121M B2 L2 C TB 87.00 11.46 013.17 R88 B2 L2 K RX 60.00 7.14 011.90 121T B2 L2 P TB 87.00 19.75 022.70 R89 B1 L1 C RY 60.00 12.44 020.73 1228 B2 L2 K TB 60.00 1.23 002.05 R90 B1 L2 P RX 60.00 28.96 48.26 122M B2 L2 C TB h7.00 12.00 013.79 R91 BZ L2 K RX 60.00 2.72 4.53 122T B2 L2 P IB 87.00 20.16 023.17 R92 B2 L1 C RX 60.00 5.00 8.33 123T B2 L2 P TB 52.00 5.10 009.80 R93 B1 L1 C RX 60.00 12.44 020.73 124T B2 L2 P TB 52.00 .31 000.59 R95 B1 L2 P R: 60.00 29.54 049.23 1258 B2 L2 K 18 60.00 2.03 003.38 R97 B2 L2 P RX 60.00 15.31 25.51 125M B2 L2 C TB 87.00 13.30 015.28 R98 B2 L2 K RX 60.00 6.10 010.16 125T B2 L2 P TB 87.00 ?7.31 031.39 k99 B2 L2 C RX 60.00 7.88 13.13 1268 82 L2 K TB 60.00 2.97 004.95 100M B2 L2 C TB 87.00 7.38 008.48 126M B2 L2 C TB 87.00 15.59 G17.91 100T B2 LZ P IB 87.00 55.34 063.60 126T B2 L2 P 1B 87.00 27.66 031.79 10lM B2 L2 C 18 87.00 7.10 008.16 1278 B2 L2 K TB 60.00 2.78 004.63 101T B2 LZ P TB 87.00 7.49 008.60 127M B2 L2 C TB 87.00 17.18 C19.74 1C2M B2 L2 C TB 87.00 5.83 006.70 127T B2 L2 P TB 87.00 35.81 041.16 102T B2 L2 P TB $2.00 4.75 009.09 128M B1 L1 C TB 87.00 .11 000,12 n O
/ _T ( ( ) TRAYS HITH \\__/ CALCULATED PAGE 7 cF12L -_=--- =_ _____ TRAY BUS LCOP SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED 128T B1 L1 P TB 87.00 9.36 01d.75 146B B1 L1 K TB 23.00 .05 000.21 129M B1 11 C TB 87.00 2.55 002.95 146M B1 L1 C TB 35.00 .42 1.20 1291 B1 La P IB 87.00 7.02 008.06 146T B1 L1 P TB 35.00 .54 1.54 150B B1 L1 K TB 23.00 .86 003.75 1478 B1 L1 K TB 60.00 3.96 006.60 150M B1 Ll C TB 87.00 4.14 004.75 147M B1 L1 C TB 87.00 2.17 2.49 153T B1 LI P IB 87.00 12.31 014.14 147T B1 L1 P IB 87.00 9.15 10.51 1518 B2 L2 K IB 60.00 5.17 005.28 148B BI L1 K TB 23.00 .05 000.21 131H BZ L2 C TB 87.00 20.91 024.05 148M B1 L1 C TB 35.0f 42 1.20 151T B2 12 P IB 87.00 32.69 037.57 148T B1 L1 P IB 5 2. 0 ". '8 5.30 1528 B2
f. 2 K
IB 60.00 6.82 011.56 1498 B1 L1 K TB 23.0' .00 0.00 1326 B2 L2 C IB 87.00 25.d9 029 I5 149M B1 Li C IB 87.1 .25 2.80 152I B2 L2 P IB 87.00 34.95 040.14 149T B1 L1 P IB 87 .60 6.30 1538 B2 L2 K TB 60.00 2.64 004.40 150B B1 L1 K TB 6L .86 006.45 133M B1 L1 C 18 87.00 23.68 027.21 150M B1 Ll C TB A7. .07 2.37 153T B1 L1 P 1B 87.00 15.55 017.87 150T El L1 P TB 87 .62 8.75 1348 B1 L1 K IB 60.00 6.80 011.33 151M B1 L1 C TB 52 .60 1.15 134M B1 L1 C TB 87.00 17.40 020.00 151T B1 L1 P TB 5 F.36 4.53 134T B1 L1 P TB 87.00 30.05 034.51 152B B1 L1 K TB 60.ud 'S 003.05 1558 BI LI K TB 60.00 9.29 015.48 152M B1 L1 C TB 87.00 .25 2.56 155M B1 L1 C TB 87.00 16.96 019.49 152T Bi L1 P TB 87.00 6.35 7.29 155T B1 L1 P IB 87.00 48.15 055.34 153B B1 L1 K TB 60.00 1.65 CO2.75 1568 B1 L1 K TB 60.00 8.89 014.81 153M bl L1 C TB 87.00 1.09 1.25 15?M B1 L1 C TB 87.00 15.37 017.66 153T B1 L1 P IB 87.00 5.55 6.37 154 T BI L1 P IB 87.00 46.79 055.78 154B B1 L1 K TB 36.00 .36 001.00 1378 B1 L1 K TB 60.00 10.28 017.13 154M B1 L1 C TB 87.00 .84 9.60 157M BI L1 C TB 87.00 10.49 012.05 154I B1 L1 P TB 87.00 4.35 5.00 157T BI L1 P IB 87.00 19.68 022.62 155B 61 L1 K TB 36.00 .46 001.27 1588 B1 L1 K TB 60.00 4.28 007.13 155M B1 L1 C TB 87.00 1.54 1.77 138M B1 L1 C TB 87.00 5.62 006.45 155T B1 L1 P TB 87.00 4.35 5.00 158T Ba L1 P TB 87.00 25.18 028.94 156B B1 L1 K TB 36.00 .46 001.27 159B B1 L1 K TB 60.00 10.69 017.81 156M B1 L1 C TE 87.00 1.54 1.77 159M B1 L1 C IB 87.00 9.49 010.90 156T B1 L1 P TB 87.00 7.21 003.28 159T B1 L1 P IB 87.00 18.06 020.75 157B B1 'l K IB 36.00 .32 000.88 1408 B1 L1 K TB 60.00 9.58 015.96 157M B1 L1 C TB 87.00 1.54 1.77 140M B1 L1 C TB 87.00 8.28 009.51 157T B1 L1 P IB 87.00 7.21 003.28 140T B1 L1 P TB 87.00 14.60 016.75 158B B1 L1 K TB 36.00 .42 001.16 !418 B1 L1 K 'i B 60.00 8.62 014.36 158M B1 L1 C 15 87.00 S.52 6.34 141M BI L1 C TB 87.00 6.39 007.34 158T B1 L1 P TB 87.00 8.34 9.58 141T B1 L1 P IB 87.00 10.99 12.63 159 B2 L2 P TB 52.00 6.65 12.78 1428 B1 L1 K TB 60.00 7.50 012.50 160 B1 L1 P .B 52.00 20.11 038.67 142H 81 L1 C TB 87.00 5.58 6.41 161B B1 L1 K TB 36.00 .27 000.75 142T B1 L1 P TB 87.00 11.57 13.29 161M B1 L1 C TB 87.00 6.87 7.89 1438 B1 L1 K IB 60.00 7.08 011.80 161T BI L1 P TB 87.00 13.36 15.35 143M B1 L1 C 18 87.00 3.92 004.50 162B B1 L1 K TD 36.00 .25 000.66 145T B1 L1 P TB 87.00 10.15 11.66 162M B1 L1 C TB 36.00 7.67 21.30 1448 B1 L1 K TB 25.00 .97 00'.21 162T B1 L1 P TB 87.00 5.36 006.16 144M B1 L1 C-1B 35.00 1.50 3.71 1635 B1 L1 K TB 36.00 .76 002.11 144T B1 L1 P IB 35.00 .35 2.42 163M B1 Ll C TB 87.00 8.31 9.55 145B B1 L1 K IB 60.00 3.96 006.60 1631 B1 L1 P TB 87.00 6.08 006.98 145M B1 L1 C TB 87.00 2.07 2.37 1648 B1 L1 K TB 36.00 1.94 005.38 145T B1 L1 P TB 87.00 11.59 13.52 164M BI L1 C TB 87.00 10.34 011.88 [)
( ) (m,] (,) TRAYS HITHN /.6 CALCULATED PAGE8ofik y AREA AREA PERCElli AREA AREA PERCENT TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED 164T B1 L1 P TB 87.00 11.05 012.70 183T 51 L1 P IB 35.00 .00 0.00 ___ ____q 165B B1 L1 K TB 36.00 2.14 005.94 184M B1 L1 C TB 35.00 .00 0.00 165M B1 L1 C TB 87.00 10.59 012.17 184T B1 L1 P TB 35.00 .00 0.00 165T B1 L1 P IB 87.00 11.05 012.70 1858 B1 L1 K 18 23.00 .93 004.04 1668 B1 L1 K IB 36.00 2.27 006.30 185M B1 L1 C TB 35.00 5.50 15.71 166M B1 L1 C IB 87.00 9.42 010.82 185T B1 L1 P TB 35.00 4.16 011.88 166T B1 L1 P TB 87.00 17.26 019.83 1868 B2 L2 K RX 23.00 .50 2.17 167G B1 L1 K IB 60.00 2.50 004.16 186M B1 L1 C RX 108.00 .95 8.70 167M B1 L1 C TB 87.00 3.26 003.74 186T B1 L1 P RX 108.00 8.21 7.60 167L B1 L1 P IB 87.00 22.84 026.25 187B B1 L1 K TB 23.00 .08 3.40 1688 B1 L1 K IB 60.00 .29 000.48 187M B1 L1 C -B 35.00 .53 1.51 168M B1 L1 C TB 87.00 4.17 004.79 187T B1 L1 P IB 35.00 .16 4.50 163T B1 L1 P TB 87.00 8.09 009.29 188B B1 L1 K TB 23.00 .08 3.40 1698 B1 LI K IB 36.00 .37 001.02 188H BI L1 C TB 35.00 .00 0.00 169M BI L1 C TB 87.00 11.93 013.71 188T B1 L1 P TB 35.00 .16 4.50 169T B1 L1 P TB 87.00 16.31 21.04 189 B1 L1 P TB 35.00 1.19 3.40 1708 B1 L1 K 18 60.00 .52 000.86 190 B1 L1 P TB 35.00 4.10 011.71 170M B1 L1 C TB 67.00 13.55 015.57 191 B1 L1 P TB 35.00 2.87 008.20 170T B1 L1 P IB 87.00 29.34 033.72 192B B2 L2 K RX 60.00 16.63 027.71 171B B1 L1 K TB 60.00 .42 000.70 192M B1 L2 C RX 87.00 29.69 034.12 171M B1 L1 C TB 87.00 14.02 016.11 192T B1 L2 P RX 87.00 29.76 034.20 171T B1 L1 P TB 87.00 28.05 052.21 1938 B2 L2 K RX 60.00 16.96 02d.26 172B B1 L1 K IB 60.00 .42 000.70 193M B1 L2 C RX 87.00 30.05 034.54 172M B1 L1 C TB 87.00 12.86 014.78 193T B1 L2 P RX 87.00 32.34 037.17 172L B1 L1 P IB 87.00 29.18 033.54 194B B2 L2 K RX 60.00 17.91 029.85 173B B1 L1 K 1B 60.00 .71 001.18 194M B1 L2 C RX 87.00 50.24 057.74 173M B1 L1 C TB 87.00 17.12 019.67 194T B1 L2 P RX 108.00 75.84 070.22 173T B1 L1 P IB 87.00 30.43 034.97 1958 B2 L2 K RX 36.00 10.15 028.19 1748 B1 L1 K TB 60.00 1.07 001.78 195M B1 L2 C RX 52.00 17.56 033.76 174M B1 L1 C TB 87.00 17.00 019.54 195T B1 L2 P RX 52.00 35.81 068.86 174T Al L1 P IB 87.00 24.34 027.97 1968 B2 L2 K RX 36.00 .84 002.33 1755 B1 L1 K TB 60.00 1.38 002.30 196M B1 L2 C RX 52.00 4.51 8.67 175M B1 L1 C TB 87.00 20.84 023.95 196T B1 L2 P RX 52.00 10.77 20.71 175T BI LI P IB 87.00 39.59 045.50 197B B2 L2 K RX 60.00 16.13 026.88 176B B1 L1 K IB 60.00 1.53 002.55 197M B1 L2 C RX 87.00 28.71 033.00 176M B1 Ll C TB 87.00 25.22 028.98 197T B1 L2 P RX 87.00 22.32 025.65 176T B1 L1 P TB 87.00 41.07 047.20 198B B2 L2 K RX 60.00 4.52 007.53 177N BI L1 C TB 35.00 5.44 015.54 198M B1 L2 C RX 87.00 11.50 13.21 177T B1 L1 P TB 35.00 5.77 016.48 198T B1 L2 P RX 87.00 4.44 005.10 178H B1 L1 C TB 35.00 4.49 012.82 1998 B2 LZ K RX 60.00 6.55 010.91 178T B1 L1 P TB 55.00 1.49 4.25 199M B1 L2 C RX 87.00 10.95 12.58 1808 B1 L1 K TB 25.00 1.55 006.73 199T B1 L2 P RX 87.00 5.60 006.43 180M B1 L1 C TB 35.00 9.83 28.08 2008 B2 L2 K RX 60.00 7.73 012.88 180T B1 L1 P TB 35.00 9.03 025.80 200M B1 L2 C RX 87.00 9.48 10.89 181H B2 L2 C TB 35.00 4.97 14.20 200T B1 L2 P RX 87.00 3.34 003.85 181T B2 LZ P TB 35.00 3.75 010.71 2018 B2 L2 K RX 60.00 4.09 006.66 1828 B1 L1 K IB 36.00 .93 002.58 20lM B1 L1 C RX 87.00 2.03 2.33 IB2M B1 L1 C 18 52.00 7.57 14.55 20lT B1 LI P RX 87.00 91 1.04 182T B1 L1 P TB 52.00 4.53 008.71 2028 B2 L2 K RX 60.00 1.50 2.50 183B Bs L1 K IB 23.00 00 0.00 202M B1 Ll C RX 87.00 .00 0.00 183M B1 L1 C IB 35.00 1.54 4.40 202T B1 L1 P RX 87.00 00 0.00 n O
TRAYS WIT l.s_,/ t CALCUL ATED \\- ' PAGE ? cF I; AREA AREA PERCEfI AREA AREA PERCENT TRAY BUS LOOP SLR LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED

_ -- =--

2038 B2 L2 K RX 60.00 2.87 004.78 220B B1 L1 K RX 60.00 5.11 008.51 205M B1 L1 C RX 87.00 10.87 12.49 220M B2 L1 C RX 87.00 18.52 021.28 203T B1 L1 P RX 87.00 11.88 013.65 220T B2 L1 P RX 87.00 18.70 21.49 2048 B2 L2 K RX 60.00 14.11 023.51 2218 B1 L1 K RX 60.00 5.24 008.73 204M B1 LI C RX 87.00 13.12 15.08 221M B2 L1 C RX 87.00 18.52 021.28 204T B1 L1 P RX 87.00 15.69 018.05 221T B2 L1 P RX 87.00 18.86 2'.o? 2058 B2 12 K RX 60.00 11.90 019.83 222 BI L1 P RX 52.00 30.92 059.46 205M B1 L1 C RX 87.00 11.50 13.21 225 B1 L1 P RX 87.00 32.06 036.25 20$T BI L1 P RX 87.00 6.16 007.08 224 B1 L1 P RX 87.00 8.84 10.16 2068 82 L2 K RX 60.00 12.57 020.95 225 B1 L1 P RX 87.00 3.74 4.29 206M B1 L1 C RX 87.00 19.47 022.57 226 B1 L1 P RX 52.00 3.33 6.40 206T B1 L1 P RX 87.00 20.43 23.48 227 B1 L1 P RX 52.00 3.33 6.40 2078 B2 L2 K RX 60.00 12.49 020.81 228 B1 L1 P RX 52.00 3.53 6.78 207M B1 L2 C RX 87.00 19.85 022.81 229 B2 L1 P RX 35.00 2.46 7.02 207T B1 L2 P RX 87.00 20.69 23.78 2s0 B2 L1 P RX 35.00 3.75 10.71 2088 BZ L2 K RX 60.0C .56 9.30 231 B2 L1 P RX 35.00 2.70 7.71 208M B1 L1 C RX 87.00 5.03 005.78 232 B2 L1 P RX 35.00 2.70 7.71 208T BI L1 P RX 87.00 7.27 8.35 233 B2 L1 C RX 35.00 .00 0.00 2098 B1 L1 K PX 60.00 4.95 008.25 234 BZ L1 C RX 35.00 .28 8.00 209M B2 L1 C RX 87.00 30.91 035.52 235 B2 L1 C RX 52.00 1.10 2.11 209T B2 L1 P RX 87.00 35.29 40.56 236 B2 L1 C RX 35.00 .81 2.31 2108 B1 L1 K RX 60.00 8.85 014.75 237 B2 L1 C RX 35.00 .28 8.00 210M B2 LI C RX 87.00 25.78 029.63 238 B2 L1 C RX 35.00 .28 8.00 210T B2 L1 P RX 87.00 33.95 39.02 239 B1 L1 C RX 52.00 .00 0.00 211B B1 L1 K RX 60.00 4.67 007.78 240 B2 L1 C RX 52.00 .29 5.50 211M B2 L1 C RX 87.00 7.82 008.98 241 B1 L1 K RX 52.00 .00 0.00 211T B2 L1 P RX 87.00 24.15 027.75 243B BZ L2 K RX 36.00 .57 001.58 212S B1 L1 K RX 60.00 5.10 008.50 243M B1 L2 C RX 52.00 .15 000.28 212M B2 L2 C RX 87.00 13.91 015.98 243T B1 L2 P RX 52.00 .38 7.30 212T B2 L2 P RX 87.00 14.56 16.73 244B B2 L2 K RX 36.00 .57 001.58 213B B1 L1 K RX 60.00 5.54 009.23 244M B1 L2 C RX 52.00 .18 000.34 215M B2 L2 C RX 87.00 8.43 009.68 244T B1 L2 P RX 52.00 .38 7.30 213T BZ LZ P RX 87.00 7.71 8.86 245B B2 L2 K RX 36.00 .65 001.80 214B B1 L1 K RX 60.00 2.72 004.55 245M B1 L2 C RX 52.00 .36 000.69 214M B2 L2 C RX 87.00 .95 001.09 245T B1 L2 P RX 52.00 .38 7.30 214T 82 L2 P RX 87.00 8.87 010.19 2468 BZ L2 K RX 60.00 11.21 018.68 2158 B1 L1 K RX 60.00 3.29 005.48 246M B1 L2 C RX 87.00 42.26 048.57 215M B1 L1 C RX 87.00 7.81 8.97 246T B1 L2 P RX 87.00 29.25 033.62 215T B1 L1 P RX 87.00 2.07 2.37 2478 B2 L2 K RX 60.00 11.58 019.30 2168 B1 L1 K RX 60.00 2.71 004.51 247M B1 12 C RX 87.00 16.65 019.13 216M B1 L1 C RX 87.00 3.68 9.97 247T B1 L2 P RX 87.00 5.14 005.90 216T B1 L1 P RX 87.00 11.12 012.78 248B B2 L2 K RX 60.00 11.32 018.86 2178 B1 L1 K RX 60.00 2.99 004.98 248M B1 L2 C RX 87.00 14.06 016.16 217M B1 L1 C RX 87.00 9.35 10.74 248T B1 L2 P RX 87.00 3.63 004.17 217T B1 L1 P RX 87.00 13.04 014.98 249B B2 L2 K RX 48.00 9.48 019.75 218B B1 L1 K RX 60.00 5.49 009.15 249M B1 L2 C RX 70.00 8.44 012.05 218M B2 L1 C RX 87.00 10.38 011.93 249T B1 L2 P RX 70.00 2.04 002.91 218T B2 L1 P RX 37.00 17.41 20.01 2508 B2 L2 K RX 48.00 9.50 019.79 2198 B1 Li K RX 60.00 4.80 008.00 250M B2 L2 C RX 70.00 7.73 011.04 219M B2 Ll C RX 87.00 12.30 014.13 250T B2 L2 P RX 70.00 1.78 002.54 219T B2 L1 P RX 87.00 18.38 21.12 2518 B2 L2 K RX 48.00 9.86 020.54 n 3
TRAYS HITH _ CALCULATED PAGE 10.fl9 AREk AREk PERCENT AREA AREA PERCENT TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED -- =- 251M B2 L2 C RX 70.00 7.31 010.44 268M B1 L1 C RX 87.00 16.31 018.74 251T 82 L2 P RX 70.00 1.46 002.08 268T B1 L1 P RX 87.00 26.18 30.09 2528 B2 L2 K RX 48.00 14.33 029.85 2695 B2 L2 K RX 36.00 .32 000.88 252M B2 12 C RX 70.00 6.35 009.07 269M B1 L1 C RX 57.00 1.19 002.28 252T B2 L2 P RX 70.00 1.58 002.25 269T B2 L2 P RX 52.00 10.51 20.21 2538 B2 L2 K RX 48.00 7.01 014.60 2708 B2 L2 K RX 36.00 .32 000.88 253M B2 L2 C RX 70.00 2.06 2.9'4 270M B1 L1 C RX 52.00 .7. 001.48 253T B2 L2 P RX 70.00 1.84 002.62 270T B2 L2 P RX 52.00 8.06 15.50 2548 BI L1 K RX 48.00 11.28 023.50 271B B2 L2 K RX 36.00 .32 000.88 254ft 21 11 C RX 70.00 4.82 006.88 271M B1 L1 C RX 52.00 .38 000.73 254T B1 L1 P RX 70.00 .14 2.00 271T B2 L2 P RX 52.00 7.44 14.69 2558 B1 L1 K RX 48.00 8.95 018.60 272 B1 L1 K RX 87.00 .17 000.19 255M BI L1 C RX 70.00 3.97 005.67 273 B2 L1 P RX 87.00 20.98 24.11 255T B1 L1 P RX 70.00 2.31 003.30 274 B1 L1 P RX 87.00 36.92 042.45 2543 B1 L1 K RX 48.00 8.97 018.68 275 B2 L1 C RX 87.00 14.29 016.42 256M B1 L1 C RX 70.00 4.11 005.87 276 B1 L2 C RX 87.00 .75 8.30 256T B1 L1 P RX 70.00 2.31 005.30 277 B1 L2 C RX 87.00 2.30 2.64 2578 B1 L1 K EX 36.00 3.78 10.50 278 B2 L2 C RX 87.00 3.16 003.63 257M B1 L1 C RX 52.00 .14 000.26 2798 B1 L1 K RX 36.00 3.87 010.75 251T B1 L1 P RX 52.00 .28 5.30 280B B1 L1 K RX 36.00 6.25 017.36 2585 Bl L1 K RX 36.00 3.78 10.50 280M B1 L1 C RX 52.00 31.05 059.71 258N B1 L1 C RX 52.00 .14 000.26 280T B1 L1 P RX 52.00 28.32 054.46 258T B1 L1 P RX 52.00 .00 0.00 281M B1 L1 C RX 52.00 30.27 058.21 2598 B1 L1 K RX 48.00 9.09 018.93 281T B1 L1 P RX 52.00 27.24 052.38 259M B1 L1 C RX 70.00 3.69 005.27 282M B1 L1 C RX 52.00 27.11 052.13 259T BI L1 P RX 70.00 2.59 005.70 282T B1 L1 P RX 52.00 26.42 050.80 260B B2 L2 K RX 36.00 2.75 007.63 28.3M B1 L1 C RX 52.00 25.15 048.36 260M B1 Ll C RX 52.00 2.34 004.50 283T B1 L1 P RX 52.00 26.56 051.07 260T B1 L1 P RX 52.00 1.70 3.26 284B B1 L1 K RX 36.00 5.62 015.61 261B B2 12 K RX 36.00 2.16 006.00 284M B1 LI C RX 52.00 25.29 048.63 261M B1 L1 C RX 52.00 2.42 004.65 284T B1 L1 P RX 52.00 26.56 051.07 261T B1 L1 P RX 52.00 1.70 3.26 285B B1 L1 K RX 36.00 5.70 015.83 2628 B2 L2 K RX 36.00 2.48 006.88 285M .71 L1 C RX 52.00 24.59 047.28 262M BI L1 C RX 52.00 4.57 008.78 285T B1 L1 P RX 52.00 26.28 050.55 262T B1 L1 P RX 52.00 1.97 3.78 2868 B1 L1 K RX 36.00 1.51 4.19 2638 BZ L2 K RX 36.00 3.05 003.47 2878 B1 L1 K RX 36.00 6.08 016.88 263M B1 L2 C RX 52.00 5.20 10.00 287M B1 L1 C RX 52.00 25.11 048.28 243T B1 L2 P RX 52.00 1.11 2.13 287T B1 L1 P RX 52.00 25.94 049.88 2648 B1 L1 K RX 36.00 .45 001.25 2888 B1 L1 K RX 36.00 3.38 009.58 ZS4M B1 L1 C RX 52.00 2.53 004.86 288N B1 11 C RX 52.00 23.15 044.51 254T B1 L1 P RX 52.00 1.32 2.55 288T B1 L1 P RX 52.00 25.09 048.25 2658 B1 L1 K RX 36.00 .45 001.25 2898 B1 La K RX 36.00 2.51 6.97 265M B1 L1 C RX 52.00 2.81 005.40 289M B1 L1 C RX 52.00 19.97 038.40 265I B1 L1 P RX 52.00 2.16 4.15 289T B1 L1 P RX 52.00 23.09 044.40 2668 B1 L1 K RX 56.00 .45 001.25 290M B1 L1 C RX 35.00 18.26 052.17 266M B1 LI C RX 52.00 3.90 007.50 290T B1 L1 P RX 35.00 22.20 063.42 266T B1 L1 P RX 52.00 2.76 5.30 291M B1 L1 C RX 35.00 5.56 015.31 2678 B1 L1 K RX 60.00 .54 000.90 291T B1 L1 P RX 35.00 10.83 030.94 267M B1 L1 C RX 87.00 4.19 004.81 292M 31 L1 C RX 35.00 5.22 014.91 2671 B1 L1 P RX 87.00 3.17 3.64 292T B1 L1 P RX 35.00 10.58 030.22 2688 B1 L1 K RX 60.00 .09 1.50 2938 B1 L1 K RX 36.00 4.41 012.25 n O
TRAYS HITH t CALCULATED PAGE 11 *Fij - =-_--- = _____- AREA AREA PERCENT TRAY BUS L00P SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED AREA AREA PERCENT 293M Bl 11 C RX 52.00 4.92 009.46 '28T B2 12 P RX 70.00 47.83 068.32 293T B1 L1 P RX 52.00 10.19 019.59 3298 B1 L1 K RX 48.00 11.81 024.60 2948 El L1 K RX 36.00 3.24 9.00 529M B2 L2 C RX 70.00 6.6i 9.52 2958 B1 L1 K RX 36.00 3.24 599.00 329T B2 L2 P RX 70.00 10.53 15.04 295M B1 11 C RX 52.00 .72 odl.!8 330B B1 L1 K RX 48.00 29.95 062.39 295T B1 Li P RX 52.00 4.70 009.05 330M B2 L1 C RX 70.00 27.12 038.74 2968 B2 L2 K RX 3C.00 7.01 19.4/ 330T B2 L1 P RX 70.00 19.09 027.27 296M B2 L2 C RX 52.00 4.76 009.15 331B B1 L1 K RX 48.00 25.96 054.08 29&T B2 L2 P RX 52.00 1.60 3.07 331H B2 L1 C RX 70.00 21.64 030.91 297B B2 L2 K RX 36.00 3.96 11.00 551T B2 L1 P RX 70.00 10.72 015.31 298 B1 LZ P RX 35.00 2.86 8.17 3328 B1 L1 K RX 48.00 25.52 053.16 299 B1 L2 P RX 55.C4 2.86 8.17 332M B2 L1 C RX 70.00 21.14 030.20 300 51 L2 P R" 35.00 1.58 4.51 332T B2 L1 P RX 70.00 10.41 014.87 301 B1 LI K RX 87.00 9.35 010.72 333B B1 L1 K RX 48.00 24.40 050.83 302 B2 L1 P RX 87.00 18.13 20.83 333M B2 L1 C RX 70.00 20.46 029.22 303 B1 L1 P RX 108.00 66.24 061.33 333T B2 L1 P RX 70.00 10.25 014.64 305 bl L2 P RX 87.00 13.82 015.88 334B B1 L1 K RX 48.00 28.61 059.60 5SEM Bl L2 C RX 87.00 6.55 007.52 334M B2 L1 C RX 52.00 18.53 035.65 308T B1 L2 P RX 87.00 24.60 028.27 334T B2 L1 P RX 52.00 9.05 017.36 309M B1 L2 C RX 35.00 4.83 013.80 355B BI L1 K RX 36.00 21.75 060.41 309T B1 L2 P RX 87.00 30.13 034.65 355M B2 L1 C RX 52.00 18.52 035.61 310M B1 L2 C RX 35.00 1.93 005.51 355T B2 L1 P RX 52.00 7.97 015.32 310T BI L2 P RX 35.00 5.73 016.37 3368 B1 L1 K RX 36.00 15.80 043.88 312T B1 L2 P RX 87.00 23.09 026.54 336M B2 Ll C RX 52.00 11.37 021.d6 313M B2 L2 C RX 87.00 23.85 027.41 336T B2 L1 P RX 52.00 3.63 006.98 313T F2 L2 P RX 108.00 2.10 001.94 357B B1 L1 K RX 36.00 16.05 044.52 314M '2 L2 C RX 108.00 23.01 'I.30 357M B2 L1 C RX 52.00 10.97 021.09 315M B2 L2 C RX 52.00 15.58 029.96 357T B2 L1 P RX 52.00 3.77 007.25 316M B2 L2 C RX 52.00 7.57 bl4.55 3588 B1 L1 K RX 36.00 3.14 008.72 317M B2 L2 C RX 52.00 7.57 014.55 338M B2 L1 C RX 52.00 2.10 004.05 318T B1 L2 P RX 52.00 1.41 002.71 338T B2 L1 P RX 52.00 .85 1.65 319M B1 L2 C RX 52.00 2.28 4.38 359B B1 L1 K RX 56.00 13.26 036.85 319T B1 L2 P RX 52.00 .96 001.84 339M B2 L1 C RX 52.00 8.76 016.84 320M B7 L2 C RX 52.a0 15.16 029.15 356 T B2 L1 P RX 52.00 3.32 006.38 320T B1 L2 P RX 52.00 19.45 037.40 340B B1 L1 K RX 36.00 3.64 010.11 321M B2 L2 C RX 52.00 4.32 008.30 340M B2 L1 C RX 52.00 6.00 011.53 321T B1 L2 P RX $2.00 2.37 004.55 340T B2 L1 P RX 52.00 4.02 7.73 322M B2 L2 C RX 52.00 10.45 020.09 3418 B1 L1 K RX 36.00 2.22 006.16 322T B1 L2 P nX 52.00 16.76 32.23 341M B2 L1 C RX 52.00 .71 001.36 323M B2 L2 C RX 52.00 5.42 010.42 341T B2 LI P RX 52.00 .67 1.28 525T B1 L2 P RX 52.00 14.17 027.25 3428 B1 L1 K RX 36.00 10.80 030.00 324M B1 L1 C RX 35.00 5.92 016.91 342M B2 L1 C RX 52.00 6.95 013.32 324T BI 11 P RX 35.00 10.61 030.31 342T B2 L1 P RX 52.00 3.98 007.65 325M B1 11 C RX 35.00 9.98 028.51 345B B1 L1 K RX 48.00 9.43 019.64 325T BI L1 P RX 35.00 17.28 C49.37 343M B1 L1 C RX 70.30 2.55 3.64 32&M BI L1 C RX 35.00 9.30 026.57 345T B1 L1 P RX 70.00 2.97 4.24 326T B1 LI P RX 35.00 17.28 049.37 344B B1 L1 K RX 48.00 8.72 018.16 327M B1 L1 C RX 35.00 3.35 009.51 344M B1 L1 C RX 70.00 1.20 1.71 327T B1 L1 P RX 35.00 6.07 017.34 544T B1 L1 P RX 7G.09 2.74 3.91 328B B2 L2 K RX 48.00 32.64 068.00 34fB B1 L1 K RX 36.00 6.82 018.94 32GM B2 12 C RX 70.90 33.27 047.52 3453 B1 L1 C RX 52.00 2.37 004.55 )
TRAYS HIT _L CALCULATED PAGE 12.5 i AREA AREA PERCENT TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED TRAY BUS LOOP SER LOC AVAILABLE FILLED FILLED AREA AREA PERCENT = 345T B1 L1 P RX 52.00 5.41 010.40 366M B1 L1 C TB 35.00 1.09 003.11 3468 B1 L1 K RX 48.00 1.39 002.89 366T B1 L1 P TB 35.00 4.84 13.82 341M B1 L1 C RX 70.00 2.54 003.62 367M B2 L'2 C RX 52.00 2.25 4.32 34&T B1 L1 P RX 70.00 4.63 006.61 367T B2 L2 P RX 52.00 .89 1.71 3478 B2 12 K RX 48.00 9.63 020.06 368M B2 L2 C RX 52.00 2.00 3.84 l 347M B2 L2 C RX 70.00 5.69 008.12 368T B2 L2 P RX 52.00 .89 1.71 347T B2 L2 P RX 70.00 19.91 028.44 369 B1 L2 P RX 52.00 .88 1.69 3488 B2 LZ K RX 36.00 8.04 022.55 370 B1 L2 P RX 52.00 2.50 4.80-348M B2 12 C RX 52.00 2.01 003.86 371T B2 L2 P TB 52.00 2.08 004.00 348T B2 L2 P RX 52.00 3.79 007.28 372 B2 L2 K RX 72.00 35.13 048.79 3498 B2 L1 K RX 36.00 2.36 6.55 373 B2 L2 K RX 52.00 28.64 055.07 349M B2 L1 C RX 52.00 1.57 003.01 374 B2 L2 K RX 52.00 12.90 024.80 349T B2 L1 P RX 52.00 .71 1.36 375 B2 L2 P RX 52.00 23.71 045.59 3508 B2 L2 K RX 36.00 7.45 020.63 376 B2 L1 P RX 52.00 2.31 004.44 350H B2 L1 C RX 52.00 .45 000.82 377 RX 7.20 .68 9.44 350T B2 L1 P RX 52.00 .41 7.80 378 RX 16.50- .64 3.87 3518 52 L2 K RX 36.00 5.52 015.33 379 RX 16.50 2.16 013.09 i 1 351M B2 L2 C RX 52.00 1.6L 003.09 380 RX 15.00 1.06 7.06 351T B2 L2 P RX 52.00 2.14 004.11 381 RX 15.00 1.28 8.53 352B B2 L2 K RX 48.00 19.71 041.0( 382 RX 16.50 1.62 9.81 352M B2 L2 C RX 70.00 18.60 026.57 383 RX 16.50 .97 5.87 352T BZ L2 P RX 70.00 18.72 026.74 384 RX 7.20 .56 7.77 353B B2 L2 K RX 48.00 22.22 046.29 385B B2 L2 RX 60.00 .00 0.00 353M B2 L2 C RX 70.00 22.86 052.65 385M B1 12 RX 87.00 .00 0.00 353T B2 L2 P RX 70.00 18.96 027.08 386 B1 L1 P TB 87.00 25.47 29.27 3548 B2 L2 K RX 48.00 22.15 046.14 387 B2 L2 P TB 87.00 25.47 29.27 354M B2 L2 C RX 70.00 23.54 033.62 388M B2 L2 P RX 52.00 21.58 041.50 354T B2 L2 P RX 70.00 19.18 027.40 389M BZ L2 C TB 35.00 5.15 14.71 3558 B2 L2 K RX 48.00 26.28 054.75 389T B2 L2 P TB
.00 4.24 012.11 355M B2 L2 C
RX 70.00 26.69 038.12 390M B2 L2 C TB 35.00 4.75 13.57 355T B2 12 P RX 70.00 22.40 052.00 390T B2 L2 TB 35.00 4.06 011.60 3568 B2 L2 K RX 57.50 27.65 048.08 391M B2 L2 L TB 35.00 1.03 2.94 356M B2 L2 C RX 70.00 29.00 041.42 391T B2 L2 P TB 35.00 .31 8.80 355T B2 L2 P RX 70.00 23.14 033.05 3928 B1 .L1 K RX 78.00 2.58 3.30 3378 B2 L2 K RX 48.00 27.73 057.77 392T B2 L2 P RX 108.00 .87 8.00 357M B2 L2 C RX 70.00 29.25 041.78 393 B2 L2 C TB 64.80 1.80 2.77 357T B2 L2 P RX 70.00 23.70 033.85 400M B2 L2 C AX 43.20 .00 000.00 3588 B2 L2 K RX 57.60 33.48 058.12 358M BZ L2 C RX 70.00 30.71 043.87 358T B2 L2 P RX 70.00 27.05 038.64 3598 B2 L2 K RX 57.60 34.33 059.60 359M B2 L2 C RX 70.00 .98 1.40 359T BZ L2 P RX 70.00 1.64 2.34 3508 B2 L2 K RX 57.60 34.38 059.68 360M BZ L2 C RX 70.00 .98 1.40 360T B2 L2 P RX 70.00 1.64 2.34 361 B1 L1 K RX 35.00 .79 2.25 362 81 L1 P RX 52.00 9.48 018.23 363 B1 L1 P RX 52.00 10.92 021.00 364 B1 11 P RX 52.00 2.58 004.96 16 5 B1 L1 P RX 52.00 .88 1.69 l O O s
PV ' # 3 f E] 4TTACtitAEl Public Service Company of Colorado i [] Specification 93-I-170 v Cable si:es (.8om') @m) ITEM d Diameter Area x ITEM d Diameter Area (1) .58 .2642 x (15) 1.8 2.5588 (2) .63 .3117 x (15A) 2.32 4.2273 (3) .968 .7359 (158) .845 .5608 (4) .845 .5608 x (16) 2.78 6.0699 x (5) .945 .7014 x (17) 3.288 8.491 (6) 1.29 1.3070 x (18) 3.115 7.6209 (7) 449 .1533 (18A) 1.29 1.307 (7A) 44 .1521 h (19) 2.595 5.2889 (8) .445 .1555 (20) 2.275 4.0649 (8A) .5 .1963 x (20A) .945 .7014 (88) .55 .2376 x (20B) 2.035 3.2525 ^ (9) .64 .3217 x (21) 2.02 3.2047 x i (9A) 715 .4015 x (21A) 1.385 1.5066 )' (98) .27 .0573 x (218) 1.5 1.7671 x 4 x l (10) .72 .4072 x (21C) 1.76 2.4328 l x (10A) .34 .0908 x (210) 1.24 1.2076 X (11) .825 .5346 x (22) 1.07 .8992 x (11A) .39 .1195 x (23) .925 .672 i (118) 45 .1590 x (24) .81 .5153 ( 4 x (12) .955 .7163 x (24A) 1.45 1.6513 I x e (13) 1.34 1.4103 x (248) 1.62 2.0612 x (13A) .63 .3117 x (25) 1.145 1.0306 } x (14) 1.57 1.9359 x (25A) 1.244 1.2164 i I x (14A) .74 4301 x (258) .757 4496 I i i f i . _ _,__ _ _,__ m. _,,.,. _ _, _ _ _ _.
2-oT 3 Q y y [3Od s .g (JcQ g A REA (26) 1.08 .9161 x (44) .34 .0908 (27) 42 .1385 (45) .57 .2552 (28) 44 .1521 x (46) .693 .377 (29) .56 .2463 (47) .79 4915 (30) .6 .2827 x (48) .98 .7543 (31) .7 .3848 x (49) .217 .037 (32) .78 .4778 (49A) .198 .0308 x (33) .215 .0363 x (498) .217 .0369 (34) .47 .1735 I (49C) .217 .0369 (35) 49 .1886 (490) .393 .1212 (36) .57 .2552 ) (49E) .487 .1863 (36A) .6 .2827 (50) .393 .1213 (37) .78 .4778 x (50A) .393 .1213 (37A) .92 .6648 x (508) 443 .1538 (38) N N x* (51) 487 .1863 x (38A) .25 .0491 x (52) .742 .4324 x (39) .35 .0962 x (53) .613 .2951 k (39A) x (53A) .136 .0145 I (40) .54 .2313 x (538) .217 .0369 i (40A) .693 .377 (54) 1.0 7854 r (41) .684 .3677 x (548) .32 .0004 (41A) .79 4915 x (55) .745 4359 (416) .7f 4989 x (42) 47 .1735, x (SSA) .18 .0254 I (43) .52 .2124 x (56) .373 .1091 x
.563 .c (Ok Djd AMA (Svi) _ M OSE k (62) 1.33 1.3893 x (74) .62 .3019 A (63) 47 .1735 x (75) .765 4596 (64) 475 .1772 (76) .83 .5411 C7 M ),12. .*.852. x (65) 405 .1288 x (77A) .53 .2226 (65A) .366 .1052 x (778) 476 .1778 (658) .264 .0547 x (77C) 498 .1951 (65C) .195 .0299 x x (650) .304 .0726 x (770) .679 .3628 x (65F)' .195 .0299 x x (65G) .245 .0471 x x (65H) .216 .0366 x (66) .176 .0243 x (77E) .793 4939 (66A) .16 .0201 x (78) .105 .0087 x (67) .158 .0196 x (79) .56 .2463 (67A) .126 .0125 x (79A) 416 .1359 (68) .22 .0377 x (80A) .232 .0423 x (68A) .268 .0564 x (80F) .571 .2561 x (688) .22 .0377 x x (68C) .18 .0254 x x (680) .14 .0158 x x (69) .165 .0214 x x (69A) .13 .0133 x x (698) .238 .0445 x x (70) .37 .1075 x x (71) .37 .1075 x x (72) .372 .1085 x 7FA .14"? 02i9 x (73) .545 .2333 x
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i OVERSIZE l DOCUMENT PAGE PULLED SEE APERTURE CARDS NUMBER OF OVERSIZE PAGES FILMED ON APERTURE CARDS i l l APERTURE CARD /HARD COPY AVAILABLE FROM RECORD SERVICES BRANCH,TIDC FTS 492-8989 I 1 t i l l
,e ....s.... 1 h Public Service ~ ch =_ R.O. W1LUAMS, JR. E O TONS 2420 W. 26th Avenue, Suite 1000, Denver, Colorado 80211 September 20, 1988 Fort St. Vrain Unit No. 1 P-88327 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, D.C. 20555 Docket No. 50-267
SUBJECT:
NRC Review of FSV's Fire Protection Program Plan
REFERENCE:
1) PSC letter dated April 1, 1985 Lee to Johnson (P-85113)

2) PSC letter dated June 13, 1988, Willians to Docu-ment Control Desk (P-88200)
Gentlemen: This letter documents and summarizes PSC's actions and comitments resulting from the August 31, 1988 meeting between the NRC and PSC representatives on the open items associated with the NRC review of the FSV Fire Protection Program Plan (FPPP). The three topics discussed were: (1) fire detection coverage (2) concentrated cable locations outside the defined congested cable areas, and (3) emergency lighting verification. (pdWf 9 lei A g0', 4g hft) -0009280284 000t?20 P {DR ADOCK 050 7 f o (
P-88327 Page 2 September 20, 1988 Regarding fire detection coverage, PSC provided drawings which detail the present fire detection coverage at FSV and acknowledged that additional fire detectors will be installed to ensure coverage as previously committed in Reference 1. Furthermore, PSC comitted to install additional fire detectors in areas not previously comitted to, including areas such as the Fire Water Pump rooms and welding shop. It is anticipated that these modifications will be completed by start up after the 4th refueling outage. PSC will keep the NRC informed of any changes in the present schedule. The analysis results of the concentrated cable locations outside the congested cable areas, using the methodology defined in Reference 2, were exhibited at the meeting. The analysis identified no locations where cable concentrations exceed the agreed upon limit of 350% of 40% filled cable trays within a 20 foot radius. Attachment 1 provides a copy of Engineering Evaluation EE-FP-000E which documents tnese conclusions. Verification testing rest.l ts of the emergency lighting will be addressed in a follow-up lette:' (P-88343). If you have any questions or coments, please contact Mr. M. H. Holmes at (303) 480-6960. Very truly y'ours, h fW R. O. Williams, Jr. Vice President Nuclear Operations R0W:LAV/pjb Attachment ec: Regional Administrator, Region IV Attention: Mr. T. F. Westerman, Chief Projects Section 8 Mr. R. E. Farrell Senior Resident inspector Fort St. Vrain I}}

v t e Letter Sequence Other
TAC:66508, (Approved, Closed)
Initiation Request, Request, Request, Request Acceptance... Administration Meeting, Meeting, Meeting Questions Answers Results Approval Other: ML20096C267, ML20154M436, ML20154N901, ML20206A268, ML20236C636, ML20236Q429, ML20237C032, ML20245E654, ML20245E660, ML20247F625, ML20247G557
MONTHYEAR1988-08-18 [Table View]

ML20154M436