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Forwards Response to Electrical Separation,Siltemp Matl & Cable Derating Issues Raised During 870406-15 & 0504-08 Site Visits & 870514 Telcon Re Insp Rept 50-412/87-32
	ML20214U120
Person / Time
Site:	Beaver Valley
Issue date:	05/18/1987
From:	Carey J; DUQUESNE LIGHT CO.
To:	Russell W; NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION I)
References
	2NRC-7-126, NUDOCS 8706110060
	Download: ML20214U120 (104)
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T4f5 2NRC-7-126 Bea r Val No. 2 Unit Project Organuation Telecopy P O. Box 328 May 18, 1987 Shippingport, PA 15077 United States Nuclear Regulatory Commission Region I 631 Park Avenue King of Prussia, PA 19406 ATTENTION:

Mr. William T. Russell Administrator

SUBJECT:

Beaver Valley Power Station - Unit No. 2 Docket No. 50-412 NRC Inspection 87-32 Electrical Separation, Siltemp Material and Cable Derating (attached)

Gentlemen:

Attached is Duquesne Light Company's response to the issues raised during NRC site visits the weeks of April 6-15, 1987 and May 4-8, 1987, and the telephone conference held on May 14, 1987.

DUQUESNE LIGilT COMPANY By

' J(J. Grey v Sr. Vice President LMR/ijr NRC/LMR/SDR/8732 Attachment AR/NAR cc: Mr. P. Tam, Project Manager (w/a)

Mr. J. M. Taylor, Director (3) (w/a)

Mr. J. Beall, Sr. Resident Inspector (w/a)

Mr. L. Prividy, NRC Resident Inspector (w/a)

Mr. T. Koshy, NRC Region I (w/a)

INP0 Records Center (w/a)

NRC Document Control Desk (w/a) 8706110060 870518 PDR ADOCK 05000412 G

PDR 1

$ t, - O \\

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b ATTACHMENT Purpose The purpose of the May 8, 1987 meeting was to discuss the following NRC concerns regarding inspection 87-32:

I.

Siltemp Material 1.

Evaluation of the non-specified siltemp material 84CH in place of specified material 188CH.

2.

Evaluation of possible excess thickness of siltemp on power cables.

3.

Siltemp material defects.

II. Power cable derating due to use of solid tray covers (reference:

Unresolved Item 86-41-01).

Discussion I.

Siltemp Material 1.

Evaluation of the non-specified siltemp material 84CH in place of the specified material 188CH.

The reviewer requested information justifying the acceptability of 84CH siltemp wrap.

The acceptability of this material was demon-strated as outlined below:

Minimum cable sizing criteria with respect to ampacity is defined in 2BVM-42 as 1.25 X FLA (Full Load Amps). Compliance to the cable sizing criteria of 2BVM-42 is assured by the Confirmation Program for Key Design Document" which is outlined in 2BVM-117 and monitored under a separate review.

Calculation US(B)-217 models Wyle Test Report 17666-02 demonstrates that the use of 84CH material produces only a slight increase in temperature from 177*F to 203*F.

The 203*F value is still U< 340*F which is the acceptance criteria established in the summary portion of the Wyle Report.

The acceptability of the high temperature cable is also demonstrated by Calculation US(B)-217 because the insulation thickness of the'high temperature cable is slightly greater and the thermal conductivity is of similar magnitude compared to the EPR insulation materials.

Page 1 of 5

2.

Evaluation of possible excess thickness of siltemp on power cables.

The reviewer requested information concerning the effect on ampacity by excess thicknesses of siltemp wrap on power cables.

Credible installa-tions where siltemp may have been applied in excess of the specified 2 layers at a nominal thickness of.09" per layer include the following:

a) Transition points fran individual wrapped cables.

b) Wrapping of cables around a bend.

c)

Variations in material thickness fran the manufacturer.

General Discussion of Temperature Curves and_ Design Margin in Cable Sizing All of the temperature curves presented to the reviewer at the May 8 meeting were generated with the assumption that the cable carried the maximum permitted ampacity in the L-tray sections.

For a #6AWG triplex, copper cable, this ampacity is 73 amps.

Beaver Valley Power Station Unit No. 2 (BVPS-2) cable sizing philosophy (2BVM-42) requires that the cables be sized for 125% of its full load current (FLA).

A detailed review has been made of all safety related #6AWG, triplex cable which are siltemp wrapped to determine maximum FLA.

This review has shown a maximum FLA of 51 amps.

Therefore,1.25 X 51 amps = 64 amps vs. the previously assumed 73 amps.

Based on the aspects of margin discussed, the most fully loaded #6AWG cable, when carrying its design 125% FLA will not exceed 67'C in the tray section.

If this cable were wrapped in the transition section with 3 layers of siltemp WT-65 (nominal thickness) for an infinitely long

distance, its maximum conductor temperature would not exceed 78'C.

Maximum permitted conductor temperature is 90*C per ICEA standard S-68-516.

In addition to the significant margin indicated, it is demonstrated in test report " Test Report on Electrical Separation Verification Test for Duquesne Light Company's Beaver Valley Power Station Unit No. 2,"

that the triplex #6 cable was able to be loaded approximately 15% above the IPCEA rating without exceeding its rated conductor temperature of 90*C.

Our analysis presented to the reviewer in the form of curves was based on the following two assumptions 1.

Current in the conductor is 125% of FLA and is equal to maximum L-tray ampacity.

Page 2 of 5

2.

Only a portion of the Siltemp erap (as indicated on curves) had more than 2 layers of above nominal thickness.

The remaining section of wrap was modeled based on actual Beaver Valley test results.

Detailed Description of Individual Graphs Graph 1: 6" section of 3 or 4 layers (nominal).

This graph plots the temperature vs. distance in the following installations:

a) #6 triplex wrapped with 4 layers of nominal thickness wrap over a 6" long section.

b)

6 triplex wrapped with 3 layers of nominal thickness wrap over a 6" long section.

c) 250 MCM triplex wrapped with 4 layers of nominal thickness wrap over a 6" long section, d) 250 MCM triplex wrapped with 3 layers of nominal thickness wrap over a 6" long section.

These curves show that the conductor temperatures do not exceed 85.5'C which is significantly lower than its 90*C rating.

For additional discussion of margin refer to " General Discussion of Temperature Curves and Design Margin in Cable Sizing."

Graph 2: 12" section of 3 or 4 layers (nominal). This graph plots the temperature vs. distance in the following installations:

a)

6 triplex wrapped with 4 layers of nominal thickness wrap over a 6" long section.

b)

6 triplex wrapped with 3 layers of nominal thickness over a 6" long section.

c) 250 MCM triplex wrapped with 4 layers of nominal thickness wrap over a 6" long section.

d) 250 MCM triplex wrapped with 3 layers of nominal thickness wrap over a 6" long section.

These curves show that the conductor temperatures do not exceed 87'C which is lower than its 90*C rating.

For additional I

discussion of margin refer to " General Discussion of Temperature

]

Curves and Design Margin in Cable Sizing."

Graph 3: 18" section of 3 or 4 layers (nominal).

This graph plots the temperature vs. distance in the following installations, a)

6 triplex wrapped with 4 layers of nominal thickness wrap over a 6" long section.

Page 3 of 5 l

_______.___,-__..._______,___.,..____...______,__.____._--m

b)

6 triplex trapped eith 3 layers of nominal thickness wrap over a 6" long section, c) 250 MCM triplex wrapped wtih 4 layers of nominal thickness wrap over a 6" long section.

d) 250 MCM triplex wrapped with 3 layers of nominal thickness wrap over a 6" long section.

These curves show that the conductor temperatures do not exceed their 90*C rating.

For additional discussion of margin refer to

" General Discussion of Temperature Curves and Design Margin in Cable Sizing."

Graph 4: Length of wrap vs conductor (#6 AWG - 2 layers max. thickness),

temperature.

This graph plots the temperature as a function of length of wrap for a #6 awg cable wrapped with 2 layers of sil-temp WT-65 wrap at a maximum thickness measured by Duquesne Light Company Site Quality Control (DLC-SQC) in the warehouse inventories.

This curve demonstrates that the conductor temperature does not exceed its 90*C rating.

Graph 5: Length of wrap vs, conductor temperature (#6 AWG - 3 layers nomi-nal thickness)

This graph plots the temperature as a function of length of wrap for a #6 AWG cable wrapped with 3 layers of siltemp WT-65 at a nominal thickness.

This curve demonstrates that the conductor temperature is equal to or les than its 90*C rating for wrapped sections up to 36" in length.

3.

Siltemp Material Defects The concerns regarding material defects were addressed by the following:

a)

A low percentage of material defects were found during SQC inspection of warehouse inventories.

b)

Quality workmanship by trained personnel precluded installation of defective material, c)

Documentation received from the wrap manufacturer indicated that the integrity of the wrap would not be degraded by several of the defects identified during installation cnd SQC inspection of warehouse inven-tories.

d)

Significant margin exists between the minimum acceptance temperature criteria of 340 F established in the sunmary of the Wyle Test Report and the maximum test value of 180*F.

Page 4 of 5

e)

The NRC reviewer acknowledged that the electricians were witnessed discarding suspect material.

II. Power cable derating due to use of solid tray covers (reference:

Unresolved Item 86-41-01).

The reviewer requested information concerning the 80% limitation on "K" tray ECSIS fill.

1 It was explained to the reviewer that this is controlled during the design process.

Any proposed design tray fills exceeding 80% are evaluated by engineering prior to approval and release of installation documents.

This process is defined in 2BVM-42 Rev. 7 which is in signout.

However, this practice has been in effect during plant design and can be substantiated from engineering files.

Transition of these design and engineering controls into DLC procedures is now in process.

The reviewer indicated this item would be closed based on this information.

May 14, 1987 Telephone Conference Item 2

As a result of the telephone conference held on May 14, 1987, the issue of l

reinspection of certain cable wrap installations is being addressed.

An internal verification / review was conducted on April 30, 1987 to reaffirm the confidence in quality of subject cable wrap installations.

Verification was conducted by a QC Supervisor, who performed a visual examination of the installed wrap at each location.

Four of the subject ten installations were randomly selected for inspection.

All four l

installations were acceptable.

Two more cable wrap installations were randomly selected for inspection as being representative of installations accepted just prior to the subject cable installations.

These two cable wrap installations were also acceptable.

l Based on these reviews, the quality of the subject cable wrap installations has been substantiated, i

i J

l Page 5 of 5 i

~ _ _. _ _ - _ _.

REFERENCES List of References Provided to the NRC and Attached Reference 1: Calc. E-107 Rev. 3 Reference 2:

Nuclear Technology Group Calculation No. US(B)-217 Reference 3: Methodology for development of computer model of elec. calc.

titled " Finite Difference Model."

Reference 4: Pages IX-3 and IX-4 of " Test Report on Electrical Separation Verification Test for Duquesne Light Company's Beaver Valley Power Station Unit No. 2" Reference 5:

Series of Curves titled " Conductor Temp.: WT-65 Wrapped Cable"

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YY.q virernen O Bhl/elofe NIe Chbk' fhry amp es 6L in K-Thy 7a~11e. I(pp) cob. 4 [9 and Ble U 2.

ll hidals. G ito. A rnaximus f 18 conclucton con be o>appel w&k stars @ and enwlope 4Ae K-Th y

a m pte;+te s.

==

3.

HanA L cak in Co>,.cluif A

cl (a.) A csnduttin En ai< uen, 3 conclue% rerkee Bles 1.4 rr

,l (ppopa)c.h.8 a and u!as zona n(giin) als a p. 61,le spei,,gmu& Le

=

ma'.dain en when urappng o sng e tE le.x. cdle l

p o een Jurf-leavin#

Alke\\e.T cek ',- con A

sume isscH-A 6Je Ese)do.t 1 oaks, lace,JJos5.m

(.9 tsp 6 35 dvdval ca,,Joit; wmeg.) on sit.nw tasca en4es4Ae cmpu.Hy ra.%g Ehe. is omdue.% in4kcondarl.. kenk -b Vs a.dek1Iea anal sis ocull be. >epui>e 7 lex.

osles y

n 9

='

? ? A s s k h'a n occ. ors and could be evaluated inut Cale, E-in,4-co.d&+- 4 more 4k to condvdm all he qlf ink s - r, s,A n o m ia.

STONE & CEBSTER ENGINEERING CORPOEMTION CALCULATION SHEET A 5010 CD a

CALCUL ATION IDENTIFICATION NUM3ER J.O. O R W.O. NO.

DIVISION CALCUL ATION NO.

OPTIONAL TASK CODE PAGE M l2 29l.)

Elecn,6GRO 1-Io 7 i

SM Me Vl." cab iw. CO,4h (c.~f.)

Coxe.bdo n AA e

d hundle. ohr[4)tilexe.k cab, kraAP T4Pr

'.JT-t.5 -

p n conJudorsEm an Ind;A) con 1& con M,@ d4 sarsw or-6s and envelope -lhe ornpe;fy m}ing of he condoches inde condu.~t' A-condvif ad+h mors N5e asndoc.lc~e1 sp Y in h iwo mm hundler Nr w% gly.

skd be l

or (j) MuIPp le. c.ondoi+s - 7Ee doahy -ikh>- G-li mulkple. condo;h is app ulle. to sasse and

+kke conn on -n cbr. Snee de sa rwP mhngs

'=

ct.

enysleye -)-le 11y}e condvet inair rd sy i+ ulti aho

a ic1\\ew Sek ke. rnul?p ]e coc.dvTi v.cfing_s O;il be.

envelepe1 by su.reMP fe m vp e.b c a b N t.

'l 4 Cables in duJ%k - 7s~e deutid c.aaje a<npeik d' l,-

ead dv& knle. 4Pcale. s4o haz. eum ruieved apinst de app icoble 174/<3 of Ot/c.E-/07 4J/<.s Iod14 c,/.e an/

l 7a~L}as.2*mHA ocl.l. b tierify -/f,+ #e sitreap v b s g

envoly 4he duc} bot urlues. A a.# casese sitw.1P 'l raf!n$s envelope 8e c)d bnl<' deble. aspaiNes. 5 K"OdhL in Condo # clue So 4he. Ideem'ited lodI>g' of 4es e. co.h a rame*u rn

(o ca. des, e codAt can

a be. erappe.2 u.ie e.ib Sn.ry.w IB8ck-blawket orIJr-(.5 Q.)evew. -fspe. 6r larger lunAes Wbr-hM egineer

STONE & CESSTER ENGINEERING CORPOftATION CALCULATION SHEET A S010 *2 C ALCUL ATION IDENTIFICATION NUMBER J.O. O R W.O. NO. DIVISION G GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 65 112.44 5t Ee reic AL. E-107 DEVE LOPMEN T OF~ R E SU LT5 4 SYMBOLS AHP EGUA TiOAJS - T __ CdL, hyci A,,up k arp et Te-. cskek %.y. 'c TA-.- kluJ %.y 'C i2 R

'>i'k
I 4

i.' Ac - 4 - C-C A befueeru TJ u,d enit,abeh>een onddrd4L eJdroc K ry _ Yrimlrssidence d R'TH - nmLL,.4=vW elTac4 R1 -_. W.d,tuiiGm /,,dA i / >A,bl J<dv} CArma)x Ft R'r - &" l 5 4 -ce i' o bo. 7 tun ~.v. Op.,J.n. -Ff cdcat sn A

7

.a. Tt % 9 u~g a. e u Tu umu,a y vay >Aa Rsa - 7[u,~A. rulh<.a W ca.M.a am0. cat.,' 7le d L-it D D b & c v e t. v.+p '.ancAeo 9, - k a h ai k utn/v '; Jaa. 1 uf S G. u~ t k'_(K.= T-letu.n[ CadacWuih i h-l' I I &cu Ur.Ft."'r ( _. T2cr y,] 4,,,,;gy, b en, 3l UdtZ'-- I = \\ Te - T& ReF 7 Amps R c R..ra is A 36 f be ' oar d/ kr $Eg J g can 8 TH =U+ ESP f pn t Pc E A y 4-H C ys 2.40 { c.t% hv fw Ais ) I \\ / f Tn,g..w & qg <i \\ W 3o 9 y Tdu+ co24 cR, E ru = RI + Rs + R,A O I CA rd uu rv )

a e unc G. e coa e L n 6es u ses c L nan o wvn evn m e a v n CALCULATION SHEET A 5010 93 a C ALCULATION IDENTIFICATION NUMBER J.O. O R W.O. N O. DIVISION D GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 7 jLL4d EL.Ec riLic A L. E-IOT I ~(f = J/ 00 5~W lu. 7 lb = 0-fb 6< A ge&<enca A k w" #at O nu- "L _hkp%e. memo s 6 G = Au ( Pc + S T) - 0. iG lu 9c +0.07 1 Epi.,vqv, "G ' ir CEs v po,, Ifcsik f +c-+zc f e.' E, t 4 "T ' u % c,wh% b Vet' %ke q co L& L/v 9 <n - 's 13 f / $0 ')$V Y NPLS N0 G 4'1

On mi q hw cnhin (GL G GAL sn -11 l.

a t et' 4 y bs IfcEA r 4 tz c g Po *s ry E. 1 it 3 C o1.klsx Cak,* $=$ kn S

Es[b G f$"
Q.

{ 4 => 4 4, 2 U.% = M e. 7 8' k nr pr

0. 2 's 8

= 29 h(y 3, W = 4/ntA, DWV llto v = 32 (fgf. f ) 3" 36 37 El A& / 3s NE 40 46 42 43 "S l 'AA -

.(M hk AL HL. A*

.J) ML 'o $ L

..... -............................,i,...... CALCUL ATION SHEET a soto ss CALCULATION IDENTIFICATION NUMBER a J.O. O R W.O. NO. DIVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 1 12241 E c e.c m c M - E-107 %~{4ttsclw L A),tb Y%ab cakcGuu y sk -rsg 6 - "' WTC f $ wmL d 17 f ' l-o.63+ H,. ($ 'r . A k = 0. 6 3 + M '".y r o.f 9 1 H r. 4tY'F 'o fw =

0. c h +

6

~

13 c5 = - { { 12- ] 3 +$h Mr. (t*. Y Sa _.

c-ew

= G 9 3. 2. 7 9 Wdt

o. z 9 5 4 mL

.7 fN 'l,093.50 9-* fc>R symP uTu Ty =. o at loo - 2oo[F,& ~ d fd w + 4)83 Ek -a a sec 4AJ a+ .Oldin #s-in, mp.1&;on) K = 8 +a (9 a Heit 'f 26 /4 R* *f Ls+ K-o. 8 s+u in Po = A.m y o,a se in, 29 'C - cm % bi}/s0 48) 69s /n F+'*f k)at - O*293I gg, ;n, 33 Po = 8Gt,. 26 *d -cm &.$1L72MP JOSC}l BbuJuY~ we 36 37 3. 39 40 4, 42 43 44 45 46

CALCULATION SHEET e t.seto es C ALCUL ATION IDENTIFICATION NUMBER a J.O. O R W.O. N O. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE d i1141 Ei.u.y a.ic at E-Io7 i 'h value of 'hl' ;s c6+oine.) From. 4le Beace ik)I Odd y

bLC, Spec.i Ac8en fe e in.sa}ufe.)

px,>e>- calN1.[he da.,dS) to-h +9(L) l ' Tw is 4ke 4k&,,ess E4ke a.g(&KakLc.d B ) Fer A Isa cu.Bladuk To =o os+ in., and & WT-c.s Teepe Tu)= c.ow Whene.'. % = Cu\\c O.D. L L caLle 1 g6 1eee f w u "4 mpae;+y 'D = 2.s (C.elle c.D.) 6r 4 c4.6les p(k hJrp,J Cs (CaLIe o.b.) fo>- (o ceLle1 KM N bs = 20 y I9 j 20 2e t2 23 24 25 26 27 28 29 30 36 32 33 34 35 36 37 30 39 40 41 42 43 44 45 46

STONE P. CEBSTER ENGINEEfilNG COrtPOftATION CALCULATION SHEET j exon CALCUL ATION IDENTIFICATION NUMBER ) J.O. O R W.O. NO. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE N i l 2 -f. 4 EL Ec reic AL E-/o7

SUMMARY

OF DEVELOPMEMT OF RESULTS 4 4 h ( d '- 9, l$iVJ 0$ l b{

b[h L

gy u a, we caw yt es, p e, t e.x. ( e sco v ). s ce4 A LL % afa y e ' t, ryl., (eq ;;} p w r y Rereence. 3. 12 CtYLL C % :r.d %#.s,,f z e,>, TCEA f 1:- : t <. Y1 L' Let f t w $ h. (e cnv). y vs-p( cJ& ~ n.ec pn ll ny 50 9, ue a,. l,' @ Lap ra ni = e e e1 + egg e P b

o. ow su' p bg; y

y,3:7 @ %dp ev w ( eg. n 1 p Wee s. @ 6dp eOp).a Fo< 6p) A @ Cd u h. 3 %%[i,t. ju$v l',"u>dickr.1ayyed k

y.,t vy, as ww 9 us-4, A s g p

<,4 cas,,z,am) a

W-g CD sa s a wad mies i n +Ae m.s # A e. a e 3

G 4,91 @ ; G 6e v cuales 7a les.m, m,.2 Z .2rA, and 2ra, s. su cales mies nd rA 38 { CL 5 Q / &ll, 0 U A. OWfDI y 9 Er wnppe-el cales Gr cm,pa>-rton vers us 04 les s' Varibu s !keb)ay's n 45 46

STONE E WEBSTER ENGINEERING CORP' RATION CALCULATION SHEET t sm a C ALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE94 7.7.41 ELEC7-E-t07 i dM4yus Or Rasucrs a S A pain ofAe u nlukak urne rnar tn deen SILTEMP O e.d ca.bles and 4he Cablei /<7 V v' us reae9avs. h> e l$lt nyer d S-21-8' . E i & ic a h coa -oz. Bym. A i r trng67~ dtCbpCoY in, k tskre Vrne. 0/1 V0Picos SiHS Sorne M W h3 Luih StLTEMR A hip let la AUG C1Ye 0%!WWP QndGsanQ%g&\\e f S Wrap d tJhih slLTE 44P LJSihr 4 Sh % o.lo9gtWlpe b ape. fe Omph '&ta &Nto,tuhsheY m nef_ atr red 1O dbe (aku/a 94 1s 6F if$ rdNn o.hl0t in"foIt.[ of is Ot/cula.b'en % %. he USC of Va o g g. g C a hit-diarneks md ICEA promeh are same. e Dale calculoison.t of -n neatens & Cons sen i 7K uiti he a aw i wiit no N mair) Ih QnY 5 i QrQ QlN be 8C Y repired. I?eiennca. a/to,t. E-/S 7 ich czdd>ssses -Mese prob ems. 22 23 24 2S ts ti 28 29 30 3t 32 33 34 3S 34 37 38 39 40 41 42 43 44 4$ 44

: : : : : : :::::::::::~::::::: s;;a 2

ra....... -e i T te I h Ccwmsnu De loM NAietsx QAett RMPACITIES A 0$ fisq Various, Raceu>ay s W. A e loha Air Wmg i ha sitnuo I AAr 4 -c. I 2 3 & 4 & B (* 1 8 8 o CABLE A n.gc.. lyWnadd s $,SS",W*rh K - Tre DocT 046k Wre) in h So%F//f n u e Air sc.naocks ie, con 4ocbs _L %y amJ&a.co L A sia a is rue. a Free air G eAunc-srsue g,%w 7 J $( ]$ 63 73 30 SEE gg o-% ziq 1 19 i2s 175 ioz f93 ,29 fi } "'*-23 ^/ rs 4 ie e i o r-

- [*'

336 278 ll6 275 18 3 29B 2o2. l 9 nl A._/o y[ PJK t - Z8 ,lg f 3g g 3g s} l( ] {<, 4,- 35o4cM z c! -a. E '518 N 5 6Bo t} '1'/ 33M 4k u 0 u.- SboMcM z -c (froen ICEA 946-4 2L, page 2 66 For 9o*C insula /Ld conduc%- SE 5i 1 condu;1-in h e.l Yo*C Orrelienh cL.Ir. Plc,-4zt.,g 2: / En Toe Co' $i free Air ~{ S l. do tus,* D ln c aiy}- Q,,.TcEA @ s c.,cLch,i e m< f4 Lle.El,.7 is use] b'me.s E

h'

@ 1 M.t-in Le a;> Q L - F:. ICEA P'll -diL Z asc.6 L1 -the calk ornoac;$pg o in liee air R l l

a. inv/h her N.,.8t as i

L-Tva} - a>npac;hes 5 rn Ic A P41 -f 2G,' kr.e. Mle ac,le.s in a />ay u);4 p used wdic is <krafk Sr 6 ca b P 1 b K-Tray C 50% Poll -anyaO,T;e1maint&ine<l sqacinNorn \\ C 10EA Psi-Ho b 2.0in. depil of04a in E tra ~iE faAk / 8 e zaa ke - m Nc!0A cable ay/.ck in ack dvd la. sc. reFcal s-to R co\\. 8 4 vsrfi>sk he ay$1krn\\e fub\\es c4= Cal E-Io,7 75Lles l y retneu>el \\, h u.)ere h& 46c g rutiy.s s 1A l %Icee. /n all Cases 4he Sn. TEMP ra%g.s ett veJoye lhe doc %nk-3 O A saeve. Jehild. ar> pa Gks'es-cuL\\e 6 anai s's would he regv;,ej ;FA;s,sk,4on occ.od. 7Xe analyds weold. 6 y covt. red is Cal. E-437 1

I

- - e*:

': lll l:

:"E~""""~*""33

& s& s& s s .5 E b>OOY ((P_tPLE'KA ELB. 1 F tE m PAC,trtES YS. b N b ABLE lM kEE kiR. bRAPPED im $tt.TewP Tm I, YT-lM M" I 2 3& 4A 5 6 7 8 9 ro -s CABLE Ampdp d,Kjpg Tc.Lg K'- % y boc.t c,,ble. crdo g.) ;n -g Agg%s L Tmy So7. Fill Bo,,K. SIEE ,,o se..:,. g s're -uit s ryseLse. s ca,JAs ases s-c. 4hm a-A L, ww J'i 76 53 73 30 75 64 4B !"E c"v_ L_. 89 M t pg E j[_',{ 214 179 12 5 17 5 /02 "6' IM IM M l g E E

- '* 4 335 278 19 6 275 1B3 27B zos I sco f'

Co #A OM g*, m e-2s W,f 394 2(.9 380 587 297 e L -ssoutM ? cg m-29 Sgo m 33f 476 Vei 3 71 mE 5 E-1 : o L -SaoR M z ie o 5; 4 52 l %. poTes ?freu.nce. pd 10. 4ii D 25 z d m5 o In l z 2 o mn E mg 5 H3 3 9 = ? 2 ? u o 2 a i 3h.

i
- 3: :::::::: : :

a ; ; a ; ; ; ; : 8.. Yc TA BLE 3E f Ced, eu ) -g s Ng CABL E AHPA cit ES POR VARIOUS R ACE h/AY IMSTA LL A TiOU S to "E +o ! KV THRE E. coMDUC TOR CABLE S i 1 2 3 + r 6 plic T { (ouPdIT h[th(f g yy a CASLE-S/7E 6A D E p/A4 E Tc 4 H - TFW Io rett insca et.4r pg A PA R T A 87L l - C ABLE_ sE g UK5- 09 au jg6 173 2_ i i 2 C) Z N l _c..I &) IE ! O$

8 a

e ku - 05 AATE 2_ g o 2.63 3 14 3% c< [+p) I g g:, '* 8- + I ) 298 280 342_ 328 g c9 z A f ( n th g *= >; "[' ~ '[, ) f rg f40 FM 51 3 kg yj c (y c f we M cabb ompadh in eack dudbask, calc. E-Lo A 5 5 0 Un Y P>ob were ytNiewel a icd Yttb N Is CA\\c E -101 Ykb N1 5 $5 s( fod 2 A col gan\\S $s a 6 -to ver,Ty J e 58' Temp rdh 3 enzl pe4he z p mg endeMechcbe_op\\ abk. A!;,es../,, o//aseraesurme raffw cKc.s = "= p o @ 1 - enL C h..... tl 9 a n t f re~ uces r-n.tu go 'c-c,. L tn i l y 513

v J a L.F o'c k J a..I s iv -

i ? 5, f r-z I H - Titw. ra n z yc t s y-4c. 4t t page E, TdL K, %.g 0.1L fu q %, q c.u, u,u,..,v s : a sp.:.9 ) g W " 0% L A O*L/ f((

f. f f a k} {

)j b 0 c) .g gg l c.a.tn 1 uc 4au u / 1 h

i 3

~~~;:::~rs;;;;;;;;

a..,...... t ? TAf$LE3IAlCalun<-/ s I C A f>L E AM PACi tie S F OR VARiOUS KACE h/AY I/JS TA L L A Ti ONS o l's = A 4.*o U K V TH RE E CONDUC TO R C A BLES ") f 2 3 4 5 6 $$' #'Q* \\'l ? voc T 1 - COMpuiT u e i cAot c - si e. r>A4K pjAng Te.g H - TEA '/ rA/frer M-6V t i-n g 3 r4 g T AIR I-Cable g UK a - 09 gas ji6 i73 2 ii 190 c# 2 -{ ci o z" (= __{n} O$ 2 o$ 4 "" - 0 5' 2 KO

2. 6 3 324 287 I' E 7@'

.A... (%) a o -. 84-+8 Pa 'l 298 2 80 3 f 2. Sol me E~ _. A t _ D 5ul 1_ G t ry 4+0 636 48l 3[ ! $"5 [L { 500h I y z (A O Io z o ma E ma e i M @ i - coJ..c(.I,....t.~v.n.41 f Fnenv IfC L A y-s s - tic. l9s 515 -fo r 90 C 2 S l o c.sk,,...c t o c A,J,,wt A i,. ) i f C l @ H - Tnan Fane i rc e a y.,i. i t c, gnt 9e 3c, Tn!K 3aC

U'iry 2L f

0 0 \\ in l' d' a 'l e H o u s d 'i J P a' g = Q 'T,. f.<< AhD [Fs>vIfCt^ j'v 90 *C i (- 4 t - 1 i c. ppt 300 utJi.I c->.s c h, e...L Wc AJkt sin l t

1 - i G a;i y Ilj {,i-O> G p >d g $4 E_i 8,aC;g;m5gj$ I 2 e3gy jl ai" h ggc' g Sn 1

g. o " E.

s - sNA" ~O t, g' b ) o 3 7 3 2 0 o 8 9 9 I } N 9. 9 B. B. 6 W l r f 0 _. o 0 o o i 3 l J G +. s P M hi _3 i eJ/t l 7 1 l '0 _ 5 n. l 4 3 9 E n bc9 n 2 3 5 b uO i E f 5 0 8 7 6 u. i 1 S u 1 l l s H , o 09 f 9 p2 T 8 7 t G ~' 3 3 2 i W S ( 6 L 0 5 cv S s o s. c od l l E 7 (o 5 /' o o r c P o f) c l S E s n m .a 3_7 r g H iD 'f f 2 e P +M r 3 6 o I 7 A w A 7 3 z aM> I R K 4 d rJe W 32 1 1 i >T .s s 4 l m {n 4, w'A uI2 S %__.8 S 2 88 e E E 3 f b c 1 f 4 2 0' 9, 9 L L s i 5 6 u . c a4 d l 3 A A usaY' 1 3 C p' 9 _8 6 ,. u ~ C ) 3 1 V_5 3. 0 6 ot R E n ~ n 3 O X T 5 9_9 Z e s a v F b - d. 0 Rb E E E 2 6.r v e o 3 o 2 1 s b L S L r w L. n B R P 9 r d + 9 3 3_ A O z A 6 6 l 2 6 I T T R e 9 ( s 6 7 2 T> l a 0 C T R 0 . _f 4 " J, H 6 r A 1 V w kl F ] S 7_9 3 h 0 d 0 2 _3 1 9 [ i v.pu T oc u 2_1 t 2 r 0 9 i R T 6 P 1 1 1 0 T 2.- i A A n u I \\ R R t. u E W J 9_1 7_ 7 6 ol 3_r 7_ 3 1 D $u 7 z T 0 3 c I R 2 T e Y 0 _ 4 1 E _2 T ) D f I C N EO. +.7 5 g 1 3 t o 3 A u E A U z f T c I a o 'f s r 6 E !( _3 1 T M E q M ._0 L 0, o 0 o 0 IA k l A L P (J x. B

i. 'i)k 5_0 o

0 0 w E A c f 5 5 o e 0 o L C n( 7_1 b l f f o 1 S 0 6 NdT . _o l 0 0 a A I# 0 o n r v p C i , " J [),lI T y 9 )' M'f [' f g c D ( A "}'

0 e

6 ( 8 e g c- [" i g s y j l 1 'lI

u

x: : : ::::::a s

a..,.... i l TABLE XA g 4 2 to -o i Cht>LE htWACITY VrthTIAlft FhC TOK S Full CABLES WehrfEp Wi~lti Sl'L - TEH F' W T-C f~ TA f E \\** i +$ 600 V TRIPLEX CABLES g I e 1 - CA8L E UMPE R WRAP - m3 I iT. j n usstAti% PiAA4r it R I

{ K HI O@

O l' CA b L L (JAcs e i orsAnL j l sig e 1"in -o c.ug.c r.4 n a i T/i...) e, It. ) < li -) 1. sp TH I W Wa TH ia a I ETd O. E a a ("(~c") C Oc aE o.o 75 0.1 i4 0.739 2.22 0

10. 1 & 9 4z.519 1.278 6.78(o 9.340

/7 40'/, o.941 ' r',g" a., o.100 0.373 i.2si

1. r y 4.96r I. Fr3 f.o*fB g. w/

6ml /2.N 3 0.65) %e 8" c W-) O.f00

0. rz g 4577 1.197 5.634 6.931

.%5(.

3. 51 t.

6 7G1 b.133 o.&50 EF 5 d; un - 2' i J (%) Ng 3 @a ' ' " ~ " O.130 0.68i 2.057 4.459 4.769 5~.901 .%8 2.783 L}.11.0 8.46\\ o.6 % ? 5 en "

f. [.no}

2 go o "n - 29 0.150 o.t13 2.5sc o.sss 4.1us s.z a .a t 2.4,o

4. sot.

7.t.ss,o.sso i mg

c. 6-)

g : -i a J e*'t l' W d' lGi I' C h.,,f. d..u 4 Ta de t ThcEsa n T[i,v.}: i w s - m -fo)s n>aud so v v %CQ * of l 1 p.ua, c.its y ( Mienh.v Ato.1, ils (c'b Hen ct Zo,19f t. C e v.,, A a w c.,.LA pk. ) ' u,,,, 8tnic wL e nt - t i, Tae l. <, /, 7 1 g s ( ) e f, (c.lf 0.p.[' vatt;g u l n PL c, y <ifie d.v t m -isz ' g r.1...v h.u, f'u k n<Niil t,oot/ p,vey wfC ; Albeba,,, y,. J \\ dalsi Hmel zo,191g N

:::: ea:::::::::

~~:~ ~:~esss: ss;ss: a..,....._ I TABL E H A NNO J CA6L E AMPACIT y DE R A TIM 6 F AC Tog S FOR CABLE S tv e A P PE D IVITH SILTEMP-188CH +$ "' z j O 600 V TRIPLEX C A5L C S n9 8 6 - CA BL E UN DE R WRAP: E$ o3 A A' 0 A ri s J ,) R Rm Rrn R, A Rw Rw A Ryu y gd'[ F [ gg 1 t i s o-1.217 2.220 10.169

12. 3 89 l,Z78 7 5r7 28,177 37.ot O o.6 &o mg p"

, g g ,m 3.773 1.f8f

6. 96 5

3. 5r3 l.04 9

4. 54 7 n.918 23. 61 +

o.Go3 F, 5, di o o m 4 734 1.297

r. 6 54 6.93j

,856 3.618 14.5547 19.o31 o.gos y, g } o 1o j 6.444 1.f39 4.7 69 T. ') 0 j .938 1.223 l1.496 16.2s6 0 612 5 $j 4 o E Hi l 6. ')4-g O. 9 35

4. L 8 3 T.166

% 2. Z, 4 8') lD.l8'l l3.648 D.G2 % 5 g o Tf., b l MW b CS UU FbN OS i h Ih 0 Nx+ i9 aS,zt., ze +z7 i 8 m 2 i ~ 't

=s: : :: ::::::..,.

3 TAf>LE R A .e A n cAra r AMPACIT Y DERATidG F Ac TOR S foK CASL E S hlR A ff' E P VITH SIL -TEMP V7-4 r TAPc (* " +'o 600 V TRIPLEX C AP>LES 4'g (6 Y - CASLES UMPE R WRA P - in e e s LR$ sa O2 o I / -g o n z Pr [i.; R R sg Rru R Rw R% R 'rn Jf j, f'j f g," t t

1. s+ &

2.220 10.169 42.329 /.278 12 0 2450 3395 60 9 2 5 3.ize 1.5 6.str t..r r s 1.o i+ g 74 3 is.q e z i. 98 .stt PE g

y' 2

C o as de 3 9u_' i.2 97

v. c.5 +

6.931 .sst. 5.97 it.o7 i 7 9o .6tz. w; R e! O 2 6 093-1.i39 +.769 f.90i .938 4,[,(, p.p$ f Y $f . (,40 5 $3 g, j9o

0. 933

4. 2 f.3 f.264

.ggg g.j 3 7.P8 l 2. 97 . (,4 o _ P ma ,j ." l o g z ? NOTEO Dt rdpMc 4 he. C C4 U f.** W FA P O d' p g 57-i Mk.t-1%,M,2f.,zB{2.9. E o t m ? (II D-

l

: : : : : : :: :: : 3 :: : :: : :: : :: :: es;;;2 ::::

a.. I_n T A f>L E E B g.g i " o' c Ar.: r AMPACIT Y DE ft ATidG F AC TOR S FOR CAST E S 'klR A PP E P VITH SIL -TEMP WT-4 r TAPE M" +-o 600 V TRIPLEX C AP>LE.S "g i &6 CASLE. t>MPE R WKA P - in g i, e o2 2 se n = P, (c.l R Rsg Rrii R/ Rw RE R 'rn ,f g#C Si 5 o3 1 ~ r' 2 2.117 2.220 10.16 <> 'i2. 3 29 1.278 i s. 4 2. 26.742. 43 4f 634 3 o" CQ z n 3.753 1.5gg 6.96f 8.Ir3 1048 9 38 11 527 27 76 655 mg g gg I z Ho c g r-d - 3

4. 7 3 j i Z 97 T.6 3t 6.931 854 7.51

/ d.o?b 22.% 555 45 A S::l 0 m { 3 { 6.144 1.139 f.769 5.90f 9 38 S.84 //.218 /8.os .672

6. o + g o.933

+. 2 83 r.z66 35z s.n io.co z. 16.o3 sn h ! "I j ~ e = = 2 3 ) Wu. (b bi vtpwredt O e ca.bh o der wrap as givew k T O.E l p g n., o v.+ n, ts, zu, c Qtq. 1 o E 2 CD

: : ::.::::::::=ra: : : : : : : : : a-
2 ;

a..,.....- TABLE V gg E [% O CAP;LE AMPAciTY DERATIMG FACTORS FOR CAP >LE3 WR APPEP WITH SiLTEMP ffBCH pl ma 5 KV THREE COMDUC TOR CABLES g 6 1 - CABLE UtJDER WK A P - O lt res tsa ** s {j"j D, Rr Rsg Rrn Rv Ro[ ] E "'- ,j g Rn 7 n, ,. g o [ Ci 75pfj z.090 2.1 74-

5. r y5

7. 7 s 7 1.332 4.9so

&9% .9% f. nS ! f! "Ni$[! * 'If _. I Uf_ 4 774 l'#65 I I4 45* 72 +0 '952' c E 5 -!i "5-48 2.90o

1. s~ c 4 4.247 r.781 o.073 3.14 s

(,.2.so .959 i h{..b55* $j j j O ~> 3 } 3.220 1.430

3. 8 3 f T.26T 0.T79 3.469 6.12 /

, aj % o z 1s [ ( (g Q, p, 54 % f @ tv VA $ t {lt's $ 4 2 OL O y f(EfYW $0US - 30) m^ Vu smAtt r eu puu eJL ; Albulun m. s 5 i krLL %s LT i 193t j 5 E r C l v.h Ih TL e c.h etn cR, ) f, E l W c f u e [' iD R TH =R R h/ 4 Eu)._ "' S S I A I + 1 b i un +

i

4

: : : : :: : : : : : : : : s::::::: : : asa 2 :;

a..,....

D e TA P2 L E Y A. A ; I j No C A6L C AHPAGl TV DE R ATisl6 Fht TOR S FoK CA6LES UK A Pt'E() UITH s:it -TEMP KIT-6f TAlt as

i

!E 5KV THRE E CoouCTOR CA6L ES +i o g @. 4 - Ch6L E UNoCR klRAP s l' ny r a ns ) D= o -t ei a

z E

S R,0 Rm RW RA I II"f "l 5 ol . c si lM I N e " 8' - 8 ') 2.0 go 2.i74 F. S' { 5 7.7I7

2. 71 7 Y. 67 9.5 61

.foo 2 E . k (W.I _. m. r-o= c" l o n s - or

2. t c o 1.734 4.771

(,. rG r 2.3M 4.fD 8,229 893 J ! r*. L%) -= -! e "p o i

k 8 - + 8

2. 9 00

1. T 6 4-

+.'L17 T.7if 2.001 3.69 1 155 B9') E 5 0k ~ _- al.lMt} o = 4 = y, 5 5.21o 1430 3.33r

f. 2. 4 r I.sto 3.Z4

(,.5% 998 x = r< f ro. ) P ma 1 zc M 3 o E -1 = t f A r6v h W JV k[ S$, 0 CE $[A 43v z B W - 50 9 } l ? 6 D, (ML o DJ 'O< NL = y 2 5 i fav I*m4X/ ret / pwev cJ[y A Al,,,div 4/s.5 E E [ A. (I'W 2 1 / n fk

S t ge 0 564 il V {A

/ s. z ? ~ \\ i V Ttl KI+fut~RW N = 1

STONE & WEBSTER ENGINEEfilNG COPoonATION CALCULATION SHEET smn CALCULATION IDENTIFICATION NUMOER C A D M id 8f J.O. 0 R W.0. NO. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE/d/~3 117tl ELEtT E-10 7 1 3 AAtdms+ A 4 } ma anL&dy cosa %r 5u.Tsue &h

P"C"" I"5 A O d

it i3 14 IS 16 lf te 19 20 2I tt 23 24 2S to 27 te 29 30 39 32 33 34 35 34 37 30 39 40 49 42 43 I 44 el 46

. = 41v/ / s-/o? 'Imi 1.4 V r1 ' " C.. .-/A l 4 p II AMETEK FABRIC-CH-SR scs.vc2L ^ mic omsio, S U LL572N = S. 1* l THERMAL BARRIER,.';tv. sa2 CONTAINS NO ASBESTOS 3 FOR HIGH TEMPERATURE INSULAT10N SILTEMP' is a family of flexible high. silica text:!es with outstanding thermal resistance. SILTEMP s 5:m:!st :s refractory matertal and dces not me!t unti!:emperatures exceed 2000'F. t j TYPICAL APPARENT THERMAL CONOUCTIVITY 2.50 - 2.20 - SILTEMP 188CH 2.30 - /: t: 2.20 - SILTEMP S4CH $g [ 2.to - a 2.oo - a 130 - z p t.so - GUARCED HOT PLATE

! b

#3 - tested 2 'M ~ in accorcance 5 i t.30 - ,, i r, l O ~~ , 's o - ASTM C177 75 { N t.:3-i I f Ei ' '8 - g i co - l .30 -- 1 .so I l l 11Il l 1iiiii Ii i iiii l. j j iHHIsIii11'i11h41s'lss1 MEAN TEMPERATURE. 'F. I l l l i 3 HAV G / 900 GAEEN8ANK RCAO e WILMINGTON. OELAWAAE :99C8

3-CNE. 3 2139M400 we cannot antic oaie ali conoitioes uncer -meien tnis in*ormation anc our crocucts. sr t e roct. cts of ot.aer anuf act.reas a :: -

oination aitn sur crocue:s. may :e useo. Users are acviseo to mame eneir own tests :::e'er mne :~e saferv vc sw.ta:ia:y :t n:- swen oroowet or crocuct :omeination 'or :neir own surcosas. I i V J . set v. m,. novas %. s a 1.

Ca!C-Afy-)psM

- D

[.h _.__ T AT TAC H MEUT - A \\ eleonone: (3C2) 995-C4C0 HAVEG OlVISION *900 GREEN 8ANK. ACAO, WILMINGTON, DE 19808 Te4en: 835347 March 13,198a. Mr. Keith Petty clo Stone s. '#ebster P. O* Box 2325 Boston, MA 02107 Deer Keith: Per your verbal request of March t,1985, Information on Sittemp WTSE is as follows: 1. Thermal conductivity of Siltemp WT55 tape measured at -I -1 F'I 125'F, is. O. ti34 8tu irt hr ft Z. Radiatiert resistance for Sittemp WT65. was obtained by irradiating the tape for art average of T.* x TOT rods for 21 hours and.therr-measuring tensile strengths of irradiated and nonieradiated' (control) samples The nonirradiated. samples had a tensile strength of 176 pounds.perincit of width and the irradiated samples had e tensile strengtt? of 18.T pounds per inch of widtfr. Based on these test results, we believe the Siltemp tape to-be uneffected by radiatiert. 3. A copy of our typical chemical analysis for cloth is enclosed. A tape analysis should be similar. We have also enclosed.a roll of Sittemp WT65 1/2. Thank you. for your request for informatfort and please fec me know if you have further questions. Very truly yours, AMETEK, Inc. Haveg Division g/){ W$ b William F. Cann, Jr. j Technical Services Supervisor ^ WFC/gf J __y_-

4 IUNE G CtC5 IEN LNblNLt MING COHP0H AT10N CALCULATION SHEET nwo n C ALCUL ATION IDENTIFICATION NUMBER C.1gt.pp65 J.O. O R W.O. NO. DIVISION D GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE/8 l u 4i ELEc.T E-/e7 2 3 M4W S 6 IL TEMP hg h Y g e t vec lMhbboA c%va.c]re.hWa 60

I h

13

/

/ 14 IS 16 .s 17 le 1 49 20 f' 29 22 3 23 24 29 26 27 20 29 30 39 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46

.na ~.. 'd gum M Al I A L H, M a N -.- - o! n i v z =3 i i AtTEMP' 'AMETEK ' l br a I FAE8ic,CH = =c::cCT I HAsac oivisio. SUL' ETIN *S-:C6 THERMAL.SARRIER .ANUAAY. IS84 CONTAINS NO ASBESTDS f THE ALTERNATIVE TO AS8ESTOS CLOTH 108 H10H T D 2 OESCRIPTION r APPLICATICNS l StLTEMP* is a family of 11emble silies tatiles wuh aceiten break strength and improved abrasion resistance. Sit. TEMP SILTEMP is. sed primark n ).cc work such as weiding sea euming ope ations, partmtarly for re:lacement or uoestos - has been especially doefoped to replace asbestos cloth in 40 dotit. It is also aseful for thermal a..d e!cctrical insulatiori in plications where protection against e.tzreme heat is required. SILTEMP has aceifen thermalinsulation charactenstics ovee. staess-reiioing. SLLTEMP can also ne!p eenserse energy oy reducuts heat !ou at openings in osen and furnace operations. < a very wide temperature range and does not melt until. tempe-sture aceeds 3.000'F. SILTEMP also offers acellent

ehemical resatacce and ciectrical insutstion properties. Both StLTEMP 84CH and IS8CH c:n be certified to meet military mlWMTY spectrication MIL.I 242448 o/> request.

\\ SILTEMP is also siadable as slening. mat. tsee. :::d ears. v TYPICAL PROPERTIES OF SILTE7.lP 84CH AND 188CH l SILTEMP 84CH SILTEMP 188CH I Color I Tan Tan Weignt. or.,yc.' i 18 a 46 f i Thickness. in. 030 C5a Steax stren(th. !DsJin. I Waro 90 22C Fill 70 '70 l } Saica content. % > 96 > i6 I vesting remocrature. 'F. >1000 > 3CCC Acil edtn. en. l 36 36 I Acil iengtn. vos. 50 50 / i y HAV G s SCO GREENSANX ACAO e W!LMING'CN. CELAWi AE '58C8 e $-CNE. 202' 4334-w he tannot anrict:ste ad c:ecir:cas vecer anien : sis.crcreatica ans cu :rceucts. sr :se :ro%: s at :r-c seu*ae:. rs n : j- => nation witn our aroeucts. tav :s usec. Users are acusec :o ena=e :aeir san :ests n :eremn ere satan anc s. t s:.i r, :: esen s.cn arceuct or :roowet ccmcenation for tse r own.n.r:cses. } I' k 24sm .uerex.,. .... ::. s a s

~ s e c x.. :, * < i s.n e. ~GT ~ATTWCWHEM T =O ]up, C 3 ~ ^ ~ tu.u E-io7 e MIFTEK p,C - uvic omsion TAPE WT Bul.LETIN HS.110 THERMAL BARRIER NCVEMSER.1983 CONTAINS MS ASBESTOS c AN ALTERNATIVE TS A38ESTOS FOR HOT WRAPPINE AND ENERGY CONSERVATION APPilCAT10N3 DESCRIPTION APPUCATIONS SILTEMP* woven-tape-is a refractory sulca product SILTEMP woven tape u sased pnmanly as a wrapping that has salvaged edges designed to prevent the unravel-where minor edge u.vsveling cannot be tolerated. This 1 ing that is experienced with sonne silt tapes. SILTEMP application includes wrappings for seals and, gaskets woven tape was developd to replace asbestos. tape in that must be cycled during use. applications where protection agaanst extreme heat is re-quired. SILTEMP woven tape has==41*at thertnal in-sulados characterisdcs over a. wide temperature range and does not melt until temperamros exceed 3,000'F. SILTEMP woves tape also offerr resistance to many ch=nt= and may be use as einemeal ia-* SIZES OP'WOVEM TAPE Nondned Th Nandno6 Thicknees, Nomines Thicknese, Q.030in. 0.000 in. 0.000 In. Codw Wietit.In. Code l Whitft. In. I Code I W1oth,irt. WT361 1=% i WT851 } 1=% WT191% 1% + 0 - % WT381% 1% + 0 - % i WT651% l 1% + 0 - % WT36 2 2+0-% i WT55 2 1 2+0-% __ l WT38 4 l 4*O-% l WTES 4 1 4+0-% l ? WT364 l 6+0-% l WT864 1 6+0-% Nominal Rou lesssa Nominal Rod length Nominal Roll length is 100 feet = 10% is 100 feet e 10% is 50 feet = 10% l l l Three pieces per roll are allowed. Mini:num piece Alp s 5 feet. HAV G M 900 GREENBANK ACAO e Wil.MINGTCN. OEl.AWAAE 198C8 e PMCNE: (302) 995.C400 we cannot anticioate ad concitions uncer wnsen inis ent,rmation ano our crocucts. or tne oroouc:s of otner manuf acturers in com-

ination niin our crocucts. may ee usec. users are aav. sea to mans ineir own tests to cetermine tne sarety ano suitaodity of eacn sucn :tocuct or stocuct comoination for tneir own oursoses.

i

STONE & CEBSTE'l ENGINEERING COTtPOT!ATION CALCULATION SHEET A $010 M CALCULATION IDENTIFICATION NUMBER CAIC'fp di /# J.O. O R W.O. NO. DIVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 112.41 7 t.E4.T f-107 1 2 3 WL S 6 LTEMP M k M lY1 D %C or beemhsre ks.ukko, il 12 13 14 IS 16 17 18 19 to 29 22 23 24 tS 36 27 28 29 30 36 32 33 34 35 34 37 38 39 40 41 42 43 44 45 46 -n

STONE P WEBSTER ENGINEERING CORPORATION CALCULATION SHEET A 5010 66 CALCULATION IDENTIFICATION NUMBER CAk.Py 2.4 J.O. O R W.O. NO. DIVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE28 1224l ELEcr E-#7 AAMment' C 3 ._au-co. se,rce /MAub suo 69 x a suss clore runs i on z s t co~ravaa e s ww 1 LORAD a ACl407/34l/5 e __1 ~ l 1 /4>S/6C dAiL I I av73/ hee, 44244l.S ,a i: - I e3 reauw ra (tur-45 sex d

7. AM se

,3N Gias C is

TAleC @btud, AtauM4rsa) to i

[*// LAMY ~j )gt C// $//fRM$ W W AMS U" T"' cosepo44 ae ,/ => r_ y 2* T T a I b_ \\ m> > u.c. saa,- a,- -.a ND ^>' W drT S/b/c A N Ar4S ~

9t_,

G/sess cler// - 73NE /bA 2 " ~.tenynssaros wnennf 33 34 3S 34 37 38 39 40 h[& & T bO l 4y R J.L C,c/3 1/E 6eabisS / v 5 /b/f-- 0A o uTG/b/'E eG kW /MI--S 4 t

STONE & CEBSTER ENGINEERING COR@ ORATION CALCULATION SHEET 650$o es CALCULATION IDENTIFICATION NUM8ER CALL' Pp 13 / J.O. O R W.O. NO. OlVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 8 l 22 4) ELfLT E-to 7 8 2 M64 /nskilakca Pn h nin. YL DP it 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 44 s ......m.

STONE & CEBSTER ENGINEERING CORPOMATION CALCULATION SHEET

r. so,o n CALCUL ATION IDENTIFICATION NUMBER C4k-P$ A Y J.O. O R W.O. NO.

DIVISION & GROUP CALCUL ATlON NO. OPTIONAL TASK CODE PAGE/* d J2 2 Yl Et.sc,Talen 2-10 7 f A4A. h ent D S Til k mc Nmo: % % J % A ty y oF inJakm ~d za.kY IO lI i2 13 44 iS I6 lT I8 89 20 28 22 23 24 23 26 28 29 30 31 32 33 34 35 36 37 38 39 40 46 42 43 44 4S 46 I i

. xg gy,y wy so u-ATTACH MdVT D pg 2,6 Revicod 02/00/96 USE ONLY BLACK INK Attachmsnt 2BvM-21 STONE & WEBSTER ENGINEERING CORPORATION FJMayer Job Sk %EAVER VALLEY POWER STATION-UNIT NO. 2 OR OBV # 3 NO 12:410-0.F.E. NO 10080-C.O. NO. 6289 Time 2 ' 3f FM Date f/13/ % TELEPHONE MEMORANDUM. Incoming Outgoing M tween b.. l Y of SWEC and 6. 6Af 70LUGG$of O KO A) [TE. Subject Y$A Ev59hvsN rf.Tx& al. TuAe.h Ofauf t n' [Pr)Pd \\ ' '~ THE JOB ECOK CR 25V NUM8ER'MUST BE PLACED IN UPPER RIGHT $UMMARY L. LV u l d.

8. 8AKTOLU(Ll 2+s t$n TWiMnLL234.hviC[P) e, n M a ~ s a L.,eu % (eet3 a,2 ru1.9 s u

{ AusYew u \\ fl ll O. StricA u d Ai1 R d u H ri 2 2 /n ot h f) / 1 / @ TL tlawb AmidiviC & inuA L u biul Nas Mail I E9L ) hr= 4.n n _/ \\6 gg Ok rU bA AM t/5 r O YLC thtd 5 EttY t 2, u f Nun, O< n +- / \\d WQ ' f M. / Preparer The above is a change in yes__ no__, ProjEngr / budget / schedule Concurrence llequired caly for thange inbudget/uhedule) cc: X JAKLINE _X JTHOMAS X WHBchlke CHWilbur X RJPasionek X AADasenbrock X CORichardson,Jr JDSutton WRHunter Attn RMC Site X WJParker,Jr RERoemer TMJacob Distribution X KBGooden Vlechpammer JAPi::t CEEwing _1_SJDonovan RFRossi AYWong RJSwiderski FNMorrissey AJFiorente TPNoonan JOWebb NBGoldstein DMAducci RObadiah X HFFoley -Y HWDurkin

a IUNE & Ctg $ILM LNulNttNINu GONPOR ATiON CALCULATION SHEET Aseio es C ALCUL ATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISIO G GRO P CALCUL ATION NO. OPTIONAL TASK CODE PAGE b 3 l 22. Yl 5lr.L lCa. 2 -lo 7 A 2 L M0h S 0mpr%, if Sn.rnP 84CM S Sn.nMP I8bCH 9 80 ii 12 13 14 l$ 16 17 IS 49 20 21 22 23 24 39 26 27 20 29 30 31 32 33 34 35 36 37 38 39 40 4l 42 43 44 4S 46

STONE S CEBSTER ENGINEERING CORPORATION CALCULATIOM SHEET AHakJ,<nen+ E -. n CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. DIVISIOP & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 28 i z 2. 4: El.crJc ! E-lo 7 As 2 Co-pa>r n E sn:rcae e+cu +; sur=~ e 18scu S C.alak +o be mode}e-].* *&, TRelen, Nic a -I9 -Ee m. "Develog*en'f b ResulM UsinO seckanOe. Erm%as o +his r R 'm - R'z +.% k ?s not deaen&f upon be OL]chu hSu.rsnP R'1 and % e>stbrs. ma.ityIa C'z = I.2 717IreymslMiH _r.pmain~ /L ~ ft. % m Ie H Re =.oiz. n' ev /og A, W=3 y en %+polskanbL MakJ,$en+ A Bullekn HS-li1 nr 8 CH ew a see r+ at too-zoo *F b i K.:.72. fo,77 stu-in. +/x FT* *f n gv = [72. L l'oi ng )<.:. 72 A Tu -in, y l jJy f+* 'F 0~0m ff hTh(30s)$f n 698 219 llA f4' *f fG f yg8 o a f,ls)sY ,EfSI 81*V-Ih 32 l gw, a n.z n,/ n = %2.5 C'-C Gr Saram e McM n \\ var i 3s h D, + Flr ), where. L 04u) =.os e) b, 7.n 6 % (RJ && a L L(em))

b..

73 9 +.s2. .ss 9 a 39 40 46 42 43 de 49 l 44 k

STONE & CEBSTER ENGINEEQ1NG COQPOQATION CALCULATION SHEET MMatc1me d E n wo. CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGEJ'O JZ.L41 Elechte.d E-/c 7 A B O (sW) -.ont b)(?4z.s)/,j :.1.LLne = z.zW 6,.,a.1 n S+. $om. 756le. 5 qDL %(l88c)+-) previou Chhukin, -3.475 7Eero,,al s. S. r k = we ubere Da bo . 259, n 's 3, A " 4.x, 2".25 or 80 Da (AYca) = 3 h.1), //.SI,I derms.l-4. b ~ . 9 5 %+.2. s i3 Son 'Ta*de.E jy12 Ruc f8M) = /6./St. 7[ern l A.-N R'ru.(sica) = Wr + Ru + 2r = t 2 73 + t,ved t //.52 = idsplbs dEt 19 O f*0. FI O f" 6 8 kTM [28I f 5 a n'rn it,9oY 23 & inca (ree.sg 2) k e u . ?o t w 27 Ub nb U*Yhf h $! 6 cs$le$ Y h $ M 0 U L6 00 e is, / 7o /ess s a n wu7i ora su e inscu. wa,, ~

4 ysfddbeq.

pahTe sin is up/an d 2 7o. 7EeM er W. it /16 Mejb7!bt im g -h 4 3 Cs on. 3S 34 37 30 39 40 46 42 43 44 45 46 I l _,. _ _ _. _ _ _ _ _. _ _ _ - _. ~ _ _ _. _

STONE Q OEBSTER ENGINEElilNG CORPORATION ,',s CALCULATION SHEET CALCULATION IDENTIFICATION NUMBER CALCUL ATION NO. OPTIONAL TASK CODE PAGE 2 DIVISION G GROUi e -/o 7 J.O. O R W.O. NO. Elec h a i 2z+; I 2 JAbe~+ F 4 B G F 200% % ke w,,g SitTasP 188CN lo il 12 13 14 IS to 17 IS 19 to 21 22 25 to 2S 26 27 IS 29 30 34 32 33 34 35 36 l 37 3e j SS 40 di 42 l 43 44 45 48

STONE & CEBSTER ENGINEERING COAPORATION

4 CALCULA, IQh SHEET T

,5,* ' /H te % m s,..? /~~ s sa,e m CALCUL ATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISION 0 GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE2a 1 ~2. 2. + 1 iiilleSyrea.I E - 1O '1 bs E 2007d Ow.pla[ les i5 $1 4/$shel rs%P 186c. 6 s, n

% Sip.

^>k.s-I 9 mo R,r 4mobi h f.- ~64It 2iT pg /2.. l. 2 73 ge%)-2 f+. Tea m 'A " _ whe>< A =. *,4 7', IS "

t. s W=3 au+s-10 Q, = k =

b,a f(To , K >.= ' o S f A,. b =139 fo[os +) =. /.D(o.5 [Rse 4 Ah.L 6 rer./a i e .1s 9+ % = S(4,t.f = 9.59(, 74erins).n.-ft I.063+.vs u ke-e g w E,- /as M Rv=.oi2.( w ) p /g Do4 is sc t..zs *c -cm opg8.?csh) we /,00 = .on. (3)(sc,L.2s) ,7se = 4 924 Mesm l.4-R tS /. z 7 A + 9,59(, + 4, fz 4 = /5,7 fg$pw/.JL -ft Ta'ra 4 R'I+ E v 4,+ E w 2' 'IEb\\e E y IL ' /2'301 II!!'r's)a-T"? il TM. ~h m. t clarsGng Gr a '. Arn . J n, sat _ .8gS n'r n y Is.-isa Gne,u - Arm ur-cs ord b laym OlH' #ls NipIe.k h a r S - cls hs.h'n be5,8YYf72hh.3Ib12h] y i Sm.e -l-kis is lower -Man -Lee la7e of te8c14 4dere-Ts n0 im pat. t.ypon -FAT.s Ca/cvIaion wAen -~ uu,he les e n Ca Re de.mhk, analysts is Oe }ous& de.hanas -L5e which h hazel or wAen sitreuo <>r cas is a.mIrea. 46 i

Reference 2 STON E C CE BSTE R EN GINEERING CO.UOD ATION L, CALCULATION TITLE PAGE CSEE INSTF.UCTIONS ON REVEGSE SIDE CLIENT S PROJECT PAGE l OF 2 7 C ALCULATION TITLE (Indicotive of the Objective) C A CATEGORY (d Oh! $lS & dVlieh a f t<ro b l<. O Vr1/ I - NUCLE AR f SAFETY RELATED wp JM4tru c For Elecimal Seperifiou o, o, o OTHER C ALCU L ATION IDENTIFIC ATION NUMBER RREN PT O J. O. O R W. O. NO. DIVISION & GROUP O. TA CODE WORK PACK AG E NO. 1224I NTtLD U-tB)- 217 421

APP ROVA LS - SIGN ATUR E 6 D ATE REV.NO.

SUPERSEDES CON FIRM ATION INDEPENDENT OR NEW

C A LC. NO.
R EQUIRED ( A PR E PA R E R (S)/DATE(S) RE/IEW%% ATE (S)

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i Page 1 of 2 COMPLETE & LIMITED CONFIRMATION PROSRAMS SPECIFICATIONS-DRAWINSS-CALCULATIONS REVIEW CHECKL. I ST

DOCUMENT (5)/QA CAT./ REVS REVIEWER

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f817-2/7-6 3

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STONE & CEBSTER ENGINEERING CORPOMATION CALCUL ATION SHEET r.n C ALCUL ATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 12241 W U SM)-2/7-6 1 2 faipo3el64y 41Ye l 5 kNl0 $ ( lh & $1) /$ b (V R~ Mmd evA de u J 4 n te . fire w v,o h be e < n) ?< e/<d m k repar~ M,. w. 'c euks-rkJA u Oy<. #e anG, +e# Ada e rc fe% / 6 < r& t/,r2 dy6,14A b base.. M+ d < se rad by ede /k f.1t by embe /Amnd >>vdelly +ch,i ne.s, to 4 s 4 rM k - pdty n c4d for A, ww /w, wry &<m/. fac ata n 34 fYE I( $d4 / 4 ! / d $5l ti t8 29 30 31 32 33 34 3$ 36 31 38 39 40 41 43 43 44 4$ 46

STONE & CEBSTER ENGINEERING CORPORATION CALCULATION SHEET .9 O 5010 66 CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. DIVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE I 2Mt A/1~ l} YY3)- 217 -b 2 h sntfs : /Jbw%A(uns preyeud a d rm to sadle, as dn a r possiUe, Me festruct/ve d madtihts ( % Mk Rot 19 D 91, Xel/), Die 80 d>cdia of th s >- w s b wl{y condM L/m JerF d ~Je I. %sd/ ev i A,w-open wpisol Mbb ~t3,12a s de pys C 44. ro 9 l1 'l 2e awJ J (d ase ><d2r Mc 9es>>chy' s/ % m de( 6 cQ h pie vrca ril&+p cc mdcud(. 71n uude ( uns ya, Xe/ n, Von t 23 nwmber Xs no o v'1, d Du <<r4 yre&f~ c* f),e. fsu.pentua. f M w. I ie s u d t i / M e r e; c m , wien2 m s eupssed 6 f4 i$laJVerf% th it9cn/t, 30 nu vns vi t M ea b wls<, w ss> Lee 32 nstm +a nei sa>ha. J u,p o d u n / i n sic 4 > 'l n y /,/ fed s.~J A p u led a p g s c n h. kn bs /A rn s s< s(ened b 4< en so u fige nie 1'coynk nem ni teder ne uA~a s ripihc4~ s> th d Ne w w - x - Jnynker. 43 44 45 44

b 12241-US(B1-217 -0 zm i 6 3 s a i i i p4 G dads-Tenpersn. Dnsies,f -v s l /f60 i 4 i y i l[(fp ~ ~ l 1 I' l I i e I i o I 1 k / YE'O I l i o u, W j s I j (f 1 / I2n I IJ f I ~ l I f r + 1 I l I j / O I / o -E / .-t

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p3 l / 4-- +- 1 1 i i i 1 1 f --- t e i i f l_ r- /-.- 2 [- l ~-4 2 (b ./ --4 n __ _Tpr 1-1 l - - - - -b t / t 2 4 u i p. g / _ $ ~~~~~~ L. . ~~T ~ ' '... _ ". _. _ ^1 T I- ] i ~ 0 f la IS to 6 to i I I i

12241-US(B)- 217 -0 9 0 i i i i 1 l I I bbfh?/fiTMGEr Y Mc EM 7#M3fM f ,.m i I kN i i i ) N l f i / I f \\ o l_. i to G00 I ^ \\. I N ( i i t I f i C blkmr s',/CH Yarba WhJ4-\\ t I \\ c Tro,prdaye w i pp.._ i z-- y l l I Oh 1 i i I_ l I I N_ i /_ / i l I_I I i l H-c'n i 1 !pfL3 l !i i W G/ki,,p113cy __ l-l .. c.- .q I L-e u. f. i. y il v<a -L l._! r 2( -T j n ,/ /l t ~ ~g 9[0 II

[ Q

_y I i a _6 f-j i o; 4 { ___L 7 so og i1 H' ar s. < n< e re,,.e = (l rs,ff!*en,.y(HM) G 2 Shs : -l - + - - - l

i. Ma. oT v4 rorpet cdies = 16 *P __. :I-i

+r '--h._._ ~~ 2" 2 Ma sT of swee cabh> = t'i ' F _.- r.Dr 1 - t.__ _ I ~~ i i e i l' l d~__._7 d I I I i 'I i 1/_ J___. )l/.- __r 1 1- = I , G -.. s d fe m p i n c H In p"7 ..___ /._' i 1 n___.._ ~ i a i s ,c _y _.-.._.u.-. i 7/dfE (WA>) ~~~- ^ ~~ ~ ~ ~-~t~~~ i O f jo IT D 2f 30

STONE & CE8 STER ENGINEEQlNG COQPOR ATION CALCULATION SHEET sua CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. DIVISION 6 GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE n2vi Air vsm)- 2i7-o t t cuc h sim s ; of indhid 8104 w yb<x sf' n'9C/L 1}e use u,rA vn JJ d x 419e f x4/e L>m + A 2 4 *F J7iy n pub ikrtAdwa. W & n!<P rwIaid. 12< puL rep ></d -/uynlus n' Tes t 16,cs>ifj kedin / // )6A i is / ? 2/*/*(J4/hd. 3), ZS >wim d vYe/J i> <a dr)i 4 4 J f u incit, f),; nd, so t.nchdn /%# At pu A ln'PS ll web we n* s<. by 2 6 *F h 17zi + 24 = 203.i'l= It sk al k A J t)J a< yiAa. 4,y,1%.ued 4 t wu>< A !A ky cdIc fut~.d s#*O

2i. 7 ""mdeb 1

,l m> der is n<J epid'c4 & f4e nde (, 1).ve ane a sf ys ni N/ r /bv f$ n s a c ca a, d l s / w/a4 m k

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s>&e & 4ilds d /Ae fuk 7'erjri. ret a. typ&us au n Jat flie sur.e. bM 4st d w/e I, f),>,vtniuI' d >1dtomdw/ stprifi&, t Re s lh bepd f}c pe h 4" p u h h v 17<. h u r nat nfi)ja 4 % si,;ih d ll conce c.a4le aa t/esdadii ef 5nkrad m,abroif, W/ slo l,I AilnuL 42 o u 4 x<< d d foy a f)a >><rdeIs, ,l 4S 44 .,, - -. ~.. _ - _,, _. - -. ~ _ _. ~. - -. _ -.... _. _,... _ _ _ _.,. _ _ _ _ _ _ _. _ _. _ _., _ _.

STONE & CEBSTED ENGINEERING COT 4PORATl0N CALCULATION SHEET A 5010 66 CALCULATION IDENTIFICATION NUMBER J.O. 0 R W.O. N O. DIVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE t2241 IU T~ U ff8)-2) 7-6 i 2 //,pn 4/wie%M y : 9 5 f {0$ i$ 0 W(( A }l}9 # ) l[ A f 8 /, 0 dA M Vh~lF 3 C ,)H [f>F M Wf lW b C A txs+Ae d iL E. % ps,f m c w dcte/ y g pc deh-.( by /4 E/cchiu/ 6,4 6 de 'l c<mf.,. vide-I, d'esf ia ye h >tna. t, m c shefs 44md -de ( H tAe a,yryrde 2, e se r+ w 4p <4i~. tk avnd nu.6( ic im.# +o & %d ml su pnyam 9 ~/1 A +, y y e S we no. 2-, n s, o ne A d ei 6 s h en ven lie./ n M fMe hst yesuAfr, c/v>~p fAe 1'iic wrq m4md a +Ae -del A, <k Menu & 30 f (A AJ l A

t' V C VM

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w >q mdm d. nee > 40 4t 42 45 44 45 44

STONE & CEBSTER ENGINEERING CORFORATION CALCULATION SHEET i so,, C ALCUL ATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE /229/ alt U10$)- 217-o A rswM s : S A,s mf n asuf a 01er< nfM a sed /d ar & tlew s : to

i. % t k n.< k 6 1 2, c 7%y f e 4/c is by &rmf rdide ply, flo eswes hsvies Af es)/e ws ll rher & w n

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STONE & CEBSTEA ENGINEERING CORPORATION CALCULATION SHEET ,we C ALCUL ATION 10ENTIFICATION NUMBER J. O. O R W.O. NO. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE l22}l NT O YG)-2/ 7 -o 2 &.Iy & C.IcMta : F ,= 7Ae 6.1y o+ Ge < dol %u ampids .4 of /4 Ord dde b /Ju TAf-A ElO+~l g wipeu ynyn, k gds aufQ<r 6/ks : i. Ale udwer w1dmd deardy((), yxih%f(q,) nd z, l,' <bumd vbdddy (K) ll .3, th A % der a m bde de s L m M A c/r-en J uJ wIer4 b,9c.f 1. c to esA nde, f)e ph4 w9 a, b4 d' (2ese 'l ntnd't i heT~ Mi '#4 N'~*t", C4 h/d d a fA tu mkt c m es f ), /4 c m e (Ac hM (%kms if ind sudz, r, iteJ /s.d v r % 4th ho (V WS YK ff $M &N i .Y h4 vflWf i %na,- %s ad ew,on ties, 40 4 A lAll V e f %$ 6tA det f4 4; b (tr m m u.d n.fd

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STONE 8 WEBSTER ENGINEEftlNG COGPO3ATION-CALCULATION SHEET

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& Mt0 M CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. N O. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE k Il29'l W uSQ:)-21'l-o 8 3 W Joyua% I, desl~ l 13 i) Me fest s d-We nd ae M i) }lt. Snapce cs//c 4veyles 4 4 Akv G (4kg-n) rs s fVm X e {. 3 lh cel4 sh 3 nW /Att/e pvr1 o.ovc & o. sn U (4Jk w<m) ut is 7J&dwbd* T/ecradhefon As drA W edc v of O, / 7 'l n1. ( Ncl, Y) aystb of a/d wtlFunn1~ 12e % ef 13 9 wt &c s, duty N41~ NKC-01 ( Xel. 5) O D. /5 a.9IG vA A ej. 3 / rke Icl d ce hp>L i, Jc sV td spywr n 4 %os: /- tu'w; al) n 29 yjg,1w,hr so Sl gly I h.]/{ is .~ I kM / 1 ~ ~ 40 g 1 ge, /e/ ( llel. 7) xw R /,.yas <f $bhpb% k-

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STONE & CEBSTER ENGINEEQiNG CORPORATION CALCULATION SHEET & 5010 66 CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISION D GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE d inyt or u s(n)-217-o 2 t Mfff$ k O.J)YS fibf f4){ 'HY (gdy) o, i,9 'y [sool ehyen0fNAp Yle f 7) C s nv .~(f ,,, e Cru ve r %)ct ,o 0, 6 75

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l3 kf$si b' (see n) CaUe 3D = 21g[,111 + 2 (D.675 = 0 7 /Il " 's a 46 l // C+ flc so +. M v p = e,7/1 f 2 (,'l?] = d' AR s' i. j 19 Ve{ hts

Alade I t

si 11= Q,4sz *- o,711)s 1 = 3 6,1gz w y 3 i 24 Okt 2 8 t/ 0 I7 lE )ti 0 0$l y 2 29 so 34 32 33 34 s4 /? /4,/?V)g sr e j, #2 7 m y3 y //s h t t 3 W [6' ll$- = b,07] w es y~ 4s + c 44 el 44

STONE & CEBSTER ENGINEECING COQPORATION CALCULATION SHEET nm CALCULATION IDENTIFICATION NUM8ER /3 J.O. O R W.O. NO. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 1724l NT v341)~217-0 i l s t d e V Ilt"b m 4Y OWYY LvVrJlCL-ef TCt./$bf3' i l bun]ed b c]h 'V 9 t D*' io Dc. 12 i / (i \\ l. 16 I, s' p AAdc=JolLin'njMt.1 ~ T11 = f A G d e 4 A c = Gc VY o, 25 g R: PMu3 of rm(/ o /6. ~ g af d. (Q NB = 2 M'i = s/dre o{ <~lle l b ri c o m A P t' C 31 l Ad n "~ 33 Q = 2 62 = an,I A U = OW ~ P 'I M 3. D e. = z (ou)+ Dw 2 (Dl + Dw ~ = Dw ( +l = (/o /i ff)Dw*2.IS{D*

o

= 42 { 43 44 45 ) 44

~ STONE & CEBSTER ENGINEERING CORPOR ATION i CALCULATION SHEET /k s010 M C ALCUL ATION IDENTIFICATLON,NdM&(R s f' J.0, O R W.O. NO. DIVISION & GROUP CALCdL ATION NO. C'hTIOAAL TASK CODE PAGE_ / 2 l'f / N[ // S [U)- 217 -Q t wistuals : m Colft~ f TYclV : (ficS.9) d n N/y * /1o?/y l' lov U?s 7s "/kk su q/ a;o W = 0 b22f k tj s i e-IL ~ /d&>r 11 f /7 bWV

. 56.12 lblp']

/4 0 % v o,n64/y'/ ~ 3 6,624 4/x = 17 & SHnp I??cP i (Rd.9) ki y = h a/yf /w s, af4 " Ad-as l 'c Voim = 1 (1 ' ( o.o vVf. s, o sa < /~f 25 / 2 Yn a. 2S Atnfy 3L e 3 y og i b,0464t' gf,5s' /l/y' ~ cr b,6 $2 lh 30 3I (Re h) k -kJw (8 yci+ e riofo 'F b.od n hstvn+0s figcp i 34 I !. 2 Y d !& W,hy 'o r= = 0,ja vpf, tol =.o s 0 06M- (*F-(rull ) X: u (/;)c/I) /C - /, 3 Y C '// */h; 4 7 : a. / /1 =.so 000 2 4 ( ti ) 2 3. 39 (M. 9, w) cp = s.z. d@p hv glas 'c %,wn: fAth Ih 2 ' 1 k5r A(* ~ 0'0* 4 II

f* j' $
O ' 5 6 f41 cp= p, u I tirpjjy

...~-J___.n.-.-._, --,,,..c..-._._.,.,,,,;,,,,

STONE O. CESSTER ENGINEERING CORPO? ATION CALCULATION SHEET A $0'.0 M CALCULATION IDENTIFICATION NUMBER ,b J.0. 0 R W.O. NO. DIVISION O GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE I?2+l NT us(n)- 2/7-o i ,) o*Y / s! k l 6 S Vi & $M l O N$ nW ch >,,.s) n% -be-nafendr 4 dou nV;., /c.lJu 4 urd wy siyacus/y 4, rfm1 ht. 64 l( ~ h a l'7 drjby ft'f - 0, ooooo 2 GT)Vlu..-.op (= 7s'I4lp 3 6.6131 /Ww' ( f Y tl 22 O h}}f f $e 24 ///o h 1 - 2nt 26 f-17 (. 952 - 0. w')(D[ s,yy n (45.4) 1 n 4~.m U 61 o, //7p - O.ofIf [9/g s u4/ =- 3, /yIL i nrle 7nt -- o. o 34 tu u h. 1 '7_ g :p( 01W - 4*N3 )] = o,170 s

3 Ag 3.

r 3. 41 y h t,.p n 2 - gzt - o:0 2n k 4, 44 45 46

STONE Q CEBSTER ENGINEERING COZPORATION CALCULATION SHEET & 5010 SS CALCUL ATION IDENTIFICATION NUMBER /1 J.O. O R W.O. N O. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE I2 NI AM' l.H60-217-o i 2 }Iftrdt 2. 3 4 .kS W W W h*tThtm Mkg 4+ /r At b U"W f ? x A T { O* $10 ' *4'I-9,11 7 ' ~ I \\

6.550 M

,o x 3 2A df.1. ii } ll 3 421 '4R it 3 1) f)gy lh w t = W ~

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f. 'lf I 22.3YL 6 ttL o.71s t t u 6.l 15 45.0) 2(,,51

+LA j fr) f o')? j.475 3t,24n .029L I,01b 15]S.Q 26.51 0 O O zoo, 4t O m o 0 I 4e s i ,~-

STONE & CEBSTER ENGINEERING CORPODATION CALCULATION SHEET swe a CALCULATION IDENTIFICATION NUMBER PAGE!7 J.O. O R W.O. NO. OlVISION G GROUP CALCUL ATION NO. OPTIONAL TASK CODE 17241 NT u s&) - 2/7-6 2 be Yb b $ /*TO 0f ~~ E f ( Ni ( ) k'e f, /o j x = x, [l + a, (t-t d? A = 239,$+ %I s .) QY Y g to g O [. 8 0 N 88 ? !4,5 + 7), in .3 g = 010 3 [I + 603 n @ - 2 0 = 0' 5 76 3 ,4 15 16 f0V fY i l 4.06)?5(5V-2f[a t 4.VV7 Yl _ o,yo3 L no El OV 70Y b tS a g ~ h.YO f ado 3kI([dv~dr = /' 7 26 (-w /o73

G er g.,,4.)[/f,4011f(/073-Ah]'2' I

30 31 bW e y = z 'g = (17f(. s70) 0.zny ~th/i p: 62Rfx,$. /2 m ,. s,2 72( ~ ~ f **- of /2m 40 p= $ 721 x l' N : 12,1L4 " HS/ i 4' .4YT 4 yo : @20 0,H & 22,]yf N 2 w / 2 alfe 3 46 i - - ~. -., - - ~. _ - - -, -... ~ -.. . -.. ~ - - - . ~. _. -

STONE P CEBSTER ENGINEERING CORPORATION CALCULATION SHEET & S010 66 C ALCULATION IDENTIFICATION NUMBER J.O. O R W.O. NO. OlVISION D GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE /2ZyI A/7~ uff!1/-217-0 31,2 Y O'h l t43s f = E 2,3 d X = /,417 fowe,. 'I w$l<. kW $ 7/rN-/ Ao4 m /6 /, o, 4,c>o 7 2 /4fo. 4.0/so /> 3, 10 4,l. O, t 2 ff, 1%. 0, </214 Io So I%M b 7157-ISff frofd to 7. JW,(. O,

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It 13 6. 15 6er1 / 6972 /23, /r o Lw M*4( 20 28 EE $$0 JrO L b6' 2. n 26 21 h hb ~ 24p+ G &cu ik{j 28 p t, b 'f 30)I Sn I ~l' tterf M 19ec/e) ( 3I 09 TwoI S007- -I-4e#o= 0 094 P /1 ss 9 l 44 3 eat foo / -t, 66c#, 10< W

M 3

i 36 As~ %h /k enmmIse\\(G)H plubc & hdor9 s s s / l w appro. y ul /s s.1 Aaorh la 7A7%9 A, /4 @ thndd be p# 6. 4/m, 4A,5 ns w r, e dy se~olu l w&f w& ' Dek th co eRoctcJ= &, A,F = 6A F, it i l

STONE & CEBSTER ENGINEERING CORPORATION CALCULATION SHEET (N $010 66 CALCULATION IDENTIFICATION NUMBER Ik J.O. O R W.O. N O. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE l2291 di T UVB)- 2/7-o i 2 0 f UfYO S T S 04 in 3 So u f - 2., 10 ft l2 43 af 7 o o 2, f oo i -/ Y(Ge#) =

o. 6/I 16 11

( ~ he h0 t n,, u 20 8(6e[F) u.nl)(. 4) =- o, Of / 1 = b, Of t 42o 23 24 {/ /(( Q $0 lS A 50 # f O W(, 27 28 29 69 3n 3 S 00 7, -2, 31 32 33 ha b h& $hf fbh 'Y 0 o i 36 31 38 39 40 di 42 43 44 45 46

STONE & WEBSTER ENGINEERING CORPORATION CALCULATION SHEET ~< a wa n CALCUL ATION IDENTIFICATION NUMBER 20 J.O. O R W.O. NO. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 112 4I N7' U T(8)- 2/ 7-6 1 daindQ G / t y u u t t A Fa u w d e le > ~ & a 3 cy,Ji p ),

2 2

( Xef, 13),pg 72 7 I s r y= .4S2. , + 74 w -= tQ n, s "( 1-I - I,Y7d + . y dm'*E {=,J dis w c os-0 .3 Ll- ' ' 2/ l4 4 XV- ,s , 476 ir y : f._ /, 4 74 y'7 Y ~ '. 4 7L 2 V 7/ o.22/ Fj '-' X

l'f '

(,zi)'+(1,I)' hv deinih e : 24 die Pj2-1 A i f, -je A zib, M c( l = cs z i 27 28 4 7/ S / " ' W 7/ '- /*

== 2 30 Ai 7 (,62) = 3w' = 32 33 i (. 32 0 = 3 C F,.ie ) .4 35 l. lZ n $$ be 0 38 b ) 6 c $f 3 sp t - S ev 2 = A /0 7 X o.9 = 0. 640 D 3)J X 0.4 6,114 3n 2-5&o 1 = = <c 44 45 46

STONE & CEBSTER ENGINEEQlNG CORPORATION CALCULATION SHEET A 5010 65 CALCULATION IDENTIFICATION NUMBER J. O. O R W.O. NO. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE 1224) /J 7~ U S(H)- 217-o s' w ha nrde 3003 = s? Y Vff'R d4 N6/e 700 2 15 & H vi m d 7 a A~4 W s-7F'F 8 y#f 72 Ne{e 4%d C & Pv<At h W r/w)& is ascr{, dd t'6ruys & ts' erd'c to paasf bx

12,

i2

W I3 14 C4m mcA~

f--, h m d n y n m (e

S o s 2 16 17 Cn1M 20 3av1 -5'oo 7 22 F

hc = o 27 ( k 4/. ( /, 30 26 [o v- &c y (fa ry0 L3T x iStmeA d" /r) '/C 2. k ( /* / '* y 6.<!?Ir70VI#[W-h - 6,27 = 2, t 2 = 2 sp J,3){ p 3 si j -S so 3 Oele<L several fMS li^r Y'"O & h7~ p rsw4 @ I. m 'F(kc) lw sw]c 7eiNnr(ue,) 35 bOVdC s.o 5: I sam ( , y; e '=- . WM t 1 s' ye/c E e, 27 ( - /N

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s. m s TEEHS NOITALUCLAC NOITAROPROC GNIREENIGNE RETSBEW & ENOTS

STONE P CEBSTER ENGINEErilNG CORPORATION CALCULATION SHEET A 5010 r1 C ALCULATION IDENTIFICATION NUMBER J.O. O R W.O. N O. OlVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE I?2yI })r UVII) 217-0 e 2 Yep wT & m du hc tyCM nuttw ( ( nv:bl undoaN -* 2z) T-fa <crm 4 c$u?~ d) pxvms wkI w ks nm 44 <w ncey+4< At &Aurser, 'c y d4smk-s, & dmAl y4ysicd yropnbe] ] m(d Gkun d tk pckJ <ss"Gy ocA e ht(k }198mJrh>,030 f 2 fr 85% 0.6${ = 2 C % ss2 a 20 R bh f Vf y W $V f ~- b. f $ 0$ YW e 22 23 1 1 6, oS1 N Nti~ Volm A/nl< t = n( 954 o7/8 \\ r y 23 26 2, 28 29 0 $) ) W' W 33 & Af lVYl (0 l (~'(.nn.ou) Rdc l-Pao I x = vc.ese.,,3% q =.rcoJ I 40 }4u9 ff s kwle I OS N 0.0 S Vf ~~ A l 42 0' (urla urde) l u u n za I = 45 46

STONE & CEBSTER ENGINEERING CORPORATION CALCULATION SHEET A 5010 fl CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. N O. DIVISION D GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE I 22f/ Ai r /)W21)- 217-) 2 Ald e 1-2 4 ,jyt l l=7(787 lGT = 2 1 At $ 8 % l 0 O hh

b, D Y q

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x a n, a + 9 r0 ec 12241-US(B)- 217 - 0 Me M a {>M 5M M .5 g Ou > O .X M F SN s* M x ee k N.. O G i N4 r og og a M N M $ M 9 P= 4 > O e4 N M e Aft 9 P= 9 D e M N M t M 4 F* O e e s=e N M & Efl 4 P* 9 9 O==e N 6 P* e4 e4 ** e4 M M M e4 ** e4 N N N N N N N N me N M M M M M M M M M M & S g Q Y O .4 O .O O

g O

P N 3 2 W M M 4& N N.e eQ e-M E he M O 4N P O eg >O G c =.

96 O

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33 3

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D E

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e e

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OO OO*

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e oM@

4 O 9 s e=e Z m MO M se s=e e=e O - *OO 9Mpe m +4 Z M m N LD N

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Z OOOO O O P*

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=

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O o=eP= O O N N e

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- e e e f e 8 8 e O M pe e4 M>

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M N > e a=o a=e NO O 999 6 e4 O g q g e e e, P* s=e NO

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ese P*

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N ltt a m

4 N&&& * * *

O O O O ms N N N M N M M e @ In in AA la aft Efl aft in til til O e4 e4 e4 O s=e ce ce e

gg g OOOO M ut M ce k M M,. S Mz ~ Em "O 44 4444444444 OOOOOOOOOO M = OO e e * * * *

e e

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OOOOOOOOOO * * * * *
M e

M > ** M m N me af N N N N 4%s #4 N M g e4 s=e N & M M M M M M M M M M M M we M LA P* re P* sue M M @ @ @ Ifl lit Efl in P= F* P* P= G $ @ p @ @ D g @ $ @ $ O O O O ** e4 sue N lin N I E N

- a=e ce M M M M { O O O O O O O O O O O O O O O O O O - O O O O e4==e es ce e4 es ce se N

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e e 12241-US(B)- 217 - 0 4 et 9 m g b= M M ZM 4 3> E Z Ou >= 0 S. i Me

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.g F* @ Q N.. O u N4 r9 re A et N M 4 in 9 F* e e O e4 N M @ m 4 P* 9 e O e4 N M & m 4 Pm e e O M N M e m g Pm e e o s=e N 4 P= re we M s=e ce M es s=e ce we fe N N N N N N N N N M M M M M M M M M M e W & Q ep w eO v e4 Oe 4O O >g $. w e* e e e C F* P* ew 9 9 e= m in 4 W M M 43 N N eo se me eo E P= O M O 4N e C e P-O e C e P* O OOO F* W 4 O O Oqe 4 m O J. O Nme W e O M e e ce e O M (J M C N N R re ce W 4O O 4a p Ce9 = * + e 'p e e dOOg O th e P* MP*m&O pe N O OOO P= a 4

e. Pm in. 4. ee O. 4. cee O. 9 O O O

e E m Ome m >= EL O OOOO O pe M s e a M 4 re M N s=e N es e tw ce mO re m O O e Z OO F* e ce O e *

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NeMM ee ce NO eme N N re m W P*F* M M C O in O LA P*

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w P=

0 =

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en e

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* * * * * * = =
F*

M Do y eO* MM ce N pen M N M M reN y >g m M OO * * * * * * ** OOOOOOOOOO m J e O = c o me N M & re N M @

* * * * * = * * *OOOOOOOOOO * * * = *
M M

M Ia M N N N N Ned N N pe N M & M es N & M M M M M M M M M M M M es M M P* pef

M M M

e4 M M M M M m e sP e a sa nn sa sn e* n n e* e e e e e e e e e e e e O O O O s e M.=e N m N e M.- N > O ee O O O O O O O O u C O O O O O O O O O O O O O O O O O O O O O M M ee M ee e* ** M N 5 m we N M @ In 4 P* 6 e O e4 N M M &n 9 P= @ e e ce N M @ in 4 P* G e O e4 N M & In 4 P* O e C es N Re > rececece M peeosgeoc4 N N N N N N N N N N M M M M M M M M M M & W @ W ee 3 NE Nb e's 9: 8 .o e w M. Oew to aZ M .=. U mM $ e== i s mum u s

STONE & WEBSTER ENGINEEnlNG CORPORATION CALCULATION SHEET 8 A 5010 f4 CALCULATION IDENTIFICATION NUMBER J.O. O R W.O. N O. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE I224l NT l}93)- 217-6 1 2 $C chev$li oS Thn>>d WideI 7 8 9 10 tI 12 13 I* ffQ 4k dt fit IS 16 566 V is is $0e7 to 21 [Gvgef DY( 30) 24 I 25 26 27 28 l!ck Soerce. Dbl<. Suu3 Air Usued few) 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 i l

STONE & CEBSTER ENGINEERING CORPOR ATION CALCULATION SHEET .n CALCULATION IDENTIFICATION NUMBER 2 J.O. O R W.O. NO. DIVISION & GROUP CALCUL ATION NO. OPTIONAL TASK CODE PAGE i224i A)T t)sle)-ti7-o I?e4eecma c

5

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12241-US(B)- 217 - 0 b b ')'d// SECTION I @ OKONITE CABLES General Conductor Informatidn STRANDING - i Table 1 1 - mmmelu_leLLDr_mq*Iem*Inna.IIstaJJM12immim - CONDUCTOR $0U0 WlRI CLAS$ 8 CLAS$ C CLAS$ 0

"8"'

3h'I"*"/, Numtwr Diam of Number Diam of

Sae, Number Diam (-f Apprca Dam

["$, of Each Wee. of Eacti me of Each wre. 00. Aar or 3 WCM CU Al CU At i'- 22 ti40 25 1 1.94 7 96 0C29 ' 1.98 20 1.(20 32 0 .3 10 0.942 7 12 1 036 , 3.15 19 1.290 35 9 3.90 1.19 7 13 6 0 041 , 3.98 18 1.6 70 40 3 4 92 ~ 1.49 7 15 I 046 5 01 16 2.580 50 8 7 81 2.38 7 19 2 .058 7 97 14 4.110 64 1 12.44 3.78 7 24 2 0 073 12.7 19 14 7 37 10 5 12 6.533 80 8 19.77 6 01 7 30 5 0 092 20.2 6.13 19 18 5 37 13 3 10 10.3&3 101 9 31.43 9 56 7 38 5 0 116 32 0 9 75 19 23 4 37 16 7 9 13.090 114 4 39 63 12.04 7 43 2 0.130 40.4 12.3 19 26.2 37 18 8 8 16.510 128 5 50.0 15.20 7 48 6 0 146 - 51. ' 15.50 19 29 5 37 21 1 7 20.820 144 3 63.03 i 1 16 7 54 5 0 164 64.2 19.16 19 33.1 37 - 23 7 6 26 240 162 0

79.4 2 L15 7

61.2 0 184 81 24 60 19 37 2 37 26 6 5 33.090 181 9 100 2-30.45 7 68 8 0 206 102 31.1 49 el 7 37 29 9 4 4I.740 204 3 126 4 38 44 7 77 2 0 232 129 39 20 !9 45 9 37 33 6 3 $2.620 229 4 159 3 48 43 7 86 7 0 260 162 49 4 19 5.? 6 37

37.7 2

66 360 2575 '00 9 61 37 7 97 4 0 292 205 62.30 19 h1 37 42 4 I 83 690 289 3 .133 77213' 19 66 4 0 332 258 78 60 37 4'6 61 37 0 1/0 105 600 324 9 319 6 97.;5 19 74 5 0 373 326 99 10 37 52 4 61 41 6 2/0 133.100 364 8 02.9 122.5 19 83 7 0 419 411 125.0 37 60 0 61 46 7 3/0 167 800 409 6 507.9 154 4 19 94 0 0 470 518 157.0 37 57.1 61 52 4 4/0 211.600 460 0 6435 1947 19 105 5 0 528 - 653 1990 ,37 15 t 61 58 9 250 37 82.2 0.575 772 235.0 61 st 0 91 52 4 300 37 90 0 0 630 926 282.0 61 161 91 57.4 350 - 37 97 3 0 681 1081 329 0 61 75 7 91 62 0 400 37 104 0 0 728 1235 376 0 61 81 3 91 66 3 500 37 116.2 0 813 - 1544 469 0 61 90 $ 91 74 1 600* 37 127.3 0 8.11 1853 563.0 600 61 99 2 0 893 1853 563 0 91 81 1 127 68 7 61 110.9 0 993 2316 704 0 91 90 8 127 76 8 750 61 128 0 1152 3088 939 0 91 1048 127 88 7 1000 1250 C-91 117.2 12E9 3859 1)?3.0 127 99 2 169 86 0 1500 ?-- 91 128 4 1412 4631 14080 127 108.7 159 94 2 1750 '-T .27 117 4 I 526 5403 1643.0 169 !01 8 217 89 8 2000 1?7 125t 1632 6175 1877.0 169 108 8 217 96 0 2500 li7 140 3 1824 7794 2370 0 169 12.' 6 21? 107.3 ' Alterwe Strandings O l I i 1 i I

hgc); 2, f (6f f 12241-US(B)- 217-0 j.. A PRODUCT SPECIFICATION FOR WHITE, GLASS CLOTH THERM 0 SETTING PRESSURE-SENSITIVE SILICONE ELECTRICAL TAPE (" SCOTCH"BRANDELECTRICALTAPENO.69) 1. SCOPE This specification defines a white, glass cloth, thermosetting silicone, pressure-sensitive adhesive electrical insulating tape. 2. REQUIREMENTS

2.1 Qualification

The electrical insulation tape furnished under this specification shall be a product which has been tested and has passed the Qualification tests specified herein.

2.2 Construction

The tape shall consist of.0045" (.114 un) glass cloth coated on one side with a white non-corrosive thennosetting silicone pressure-sensitive adhesive.

2.3 Rolls

The tape shall be furnished in 36 yard (33 m) lengths wound on 3-inch (76.2 m) inside diameter cores. 2.4 Physical Requirements: The tape shall confom to the physical requirements specified in Table I.

2.5 Workmanship

The workmanship shall be in accordance with high-grade manufacturing practice for this type of product. No. 69-4EGS 11/75

Paga No. II-18 g )! #!$ Test Report No. 17666-02 12241-US(B)- 217 -0 ? FRONT VIEW TERMINATION WRAPPED WITH 2" 3M 69 TAPE MOUNT TO UNISTRUT WITH 3M 69 TAPE b i c.7 o O SWEC PROTECTIVE WRAP 188 CH COPPER b ~ SILTEMP WT-65/ 3M 69 WRAP A HULTI-Y T SET M COPPER BUS BAR g as DETAIL A wo l [ [ TWISTED PAIR 16 AWG TARG l 1" 3M No. 69 TAPE EVERY 6" SWEC OR SILTEMP WRAP l 2/C 16 AWG TAPGET CABLE (BARE) - TRIPLEX 6 AWG FAULT CABLE (WRAPPED) TRIPLEX 6 AWG TARGET CABLE (BARE) l l FIGURE II-1: TEST NO. 1 l

g s ) i 1 I I8 I g . h councoun= i. ust i. N a

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M,} 3, d Paga No. H-14 g.- 12241-US(B)- 217 - 0.. Test Report No. 17666-02 3.0 RESUL'IB (Continued) 3.1.1 Results of Test No.1A (Continued) Appendix H contains the following data from this test: 1. Notice of Anomaly No. 3 which documents the failure of the Tw. Pr.16 AWG target cable with one-inch separation. 2. Figures H-4 and H-5. Figure H-4 shows the test setup. Figure H-5 plots temperature data recorded during this test. 3. Photographs U-8 through H-13. Photographs H-8 to H-10 show the pretest setup for this test. Photograph H-11 shows the overall damage at the end of the test. Photographs H-12 and H-13 show the damage at the location of the two fires that occurred. 4. Data Sheets which contain functional test data before and after this test, and data recorded during the Overcurrent Test. 3.1.2 Results of Test No.1B Test No.1B was conducted using the procedures of Paragraph 2.0, and successfully met the requirements of Paragraph 1.0 of this section. The fault cable jacket experienced a 58 F increase in jacket temperature with 87 amperes applied over 15 minutes. The fault cable temperature was deemed too low to continue to the next current level, by the SWEC Technical Representative, and fault cable current remained at 87 amperes for an additional l 2.5 minutes until all fault cable temperatures were above 100 F. At this point, the current was increased to 316 amperes per phase. The fault cable did not open circuit with 316 amperes applied for 8.4 minutes. The current level was then adjusted to 429 amperes (the maximum available current from the Multi-Amp Test Set). The fault cable open-circuited in 35.52 seconds at 429 amperes. The fault cable ignited after 30 seconds with 429 amperes applied. The fault cable began to off-gas with jacket temperatures of 327 F (approximately 2.5 minutes with LRA applied). c i As the test proceeded, the cable jacket swelled and then burst releasing heavy off-gassing. Extremely dense smoke occurred Jugt prior to the ignition of the fault cable. The maximum fault cable temperature of 1998.8 F occurred at 8.9 minutes at Thermocouple No.1. The fire burned for 2.5 minutes and then sElf-extinguished. t l l Two areas in the wrapped section began to smoke heavily prior to ignition at the top of the cable. These were areas where the Velcro tape applied to SWEC wrap melted and formed porous areas in the 3M No. 69 glass tape wrapping. After the top of the fault cable ignited, two pieces of burning insulation fell and caused ignition at these two areas. These fires were small, localized, and self-extinguished in about two minutes. l WYLE LABORATORIES Huritsyme Facmty l l

I acA N /d/ 3 1 2241-US(B)- 217 - 0.. 4 ARA-T-K I FABRIC-CH-SR ' TECHNICAL HA4.EG Dtvil10N SULLETIN HS.117 THERMAL BARRIER JULY,1932 CONTAIN8 NO A8BE8T08 FOR HIGH TE PERATURE INSULATION SILTEMP* Is a family of flexible high silica textiles with outstandirts thermal resistance. SILTEMP is similar to refractory material and does not melt until temperatures exceed 3000*F. TYPICAL APPARENT THERMAL CONDUCTIVITY 2 so --. 2.40 - - - SILTEMP 188CH D / 2.30 - C SILTEMP 84CH 2.20 -

, 2.iG -

r,p 2.00 - 8 190 - h 1.s0 - GUARDED HOT PLATE 130 - tested ' 80 " In accordance t 1.50 - with l ASTM C177 76 gg t.10 - l h t co - l .90 - l '80 l IIIIl l l l l 11I i II IiiI EEEEEEEEEI'EII'EII'EIII MEAN TEMPERATURE, 'F. l Jbv Q 900 GREENBANK ACAD e WILMINGTON. CELAWARE 19808 e PHONE:(302) 995 0400 { We cannot antic:cate all ecmditions uncer wnien this inferreation ans cur creewets. or tre products of otner mariwf acturers :n ecm. l eination witm ou creawets. may es usec. Users are advise: to rease tneir own tests to determme tne safety are suitaciuty of eacn r l Jen Dro3 wet of Droduct combination forineit owfi curposes. l L J Ciste er AaseTRN. me.

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fl % h 9,/f ( d l ,o 12241-US(B)- 217 - O s Revised 05/19/86 USE ONLY BLACK INK BVM-31A1 m ' STONE.tr WEBSTER ENGINEERING CORPORATION HJBennet Job Bk BEAVER VALLEY PCWER STATION-UNIT NO. 2 OR 2BV # 4 93 / JO NO 12241-0.F.E. NO 10080-C.O. NO. 6289 Ti ene 2.6 RM Date

//15/9'?

TELEPHONE MEMORANDUM Incoming Outgoing 7 Between C/ 7# of SWEC and I LL b of AM M / Subieat W)/Al/C 4L MTA-DJ S/t.7 CMP THE JOB BOOK OR 2BV NUMBER MUST BE PLACED IN UPPER RIGHT GUMMARY 5 L t.- (A+J DhS(ssN N2 $Dh>/Os hr 4.Y 6At $L-DA / I/ L 72Qf M bE/6#"/"- 'M" C d42 7 2hd!$r * /A'l. 9 Yc.H /e

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& C/h Eb 0* $ s Preparert The above is a change in yes_ no_ Proj Engr / budget / schedule Concurrence (Required only for change in budget /schedulel cc s. X JAKLINE X JTHOMAS X CORichardson,Jr CHWilbur X RJPasionek X AADasenbrock X WJParker,Jr JDSutton WRHunter Attn: RMC Site X SJDonovan RERoemer TMJacob Distribution VLechpammer JAPizzi CEEwing RFRossi AYWong RJSwiderski JASteinmetz FNMorrissey AJFiorente TPNoonan (Req only when W is JOWebb NBGoldstein DMAducci involved) RObadiah X HFFoley X HWDurkin

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\\ Page No. IX,4 Test Report No. 17666-02 3.0 RESULTS The results of the eight Ampacity Tests are summarized below. Current at 89-91 C Test Initial Maximum Conductor No. Cable Size Wrapping Current Current Temperature 1 Triplex 250 MCM Unwrapped 300A 468A 458A 2 Triplex 250 MCM PW C 355A 4115 342A 3 Triplex 250 MCM PW A 337A 327A' 323A 4 Triplex 250 MCM PW E 337A 360A 346A 5 Triplex 6 AWG Unwrapped 85A 114A 713A 6 Triplex 6 AWG PW C 80A 84A 83A 7 Triplex 6 AWG PW A 80A 86A 84A 8 Six Triplex 8 PW C 60A 60A 48A AWG in a bundle 1 Appendix I contains the following data applicable to all eight tests: 1. Figure IX-1 which shows the test setup. < 2. The Instrumentation Equipment Sheet which lists the equipment utilized.to take data. 3. A typical environmental chamber circular chart which shows the chamber control temperatures for Ampacity Tests No. I and 2. Appendix II contains the following data from this test (the data has been separated into sections to enhance the clarity of this report): 1. Figures IX-2 through IX-9 which plot temperature data recorded during this test. 2. Photographs IX-1 through IX-17 which show the test setup for the different Ampacity Tests. 3. Data Sheets which contain Ampacity Test data. WYLE LABORATORIES Huntsville Facihty

f R2ference 4 Pags No. IX-3 Test Report No. 17666-02 2.0 PROCEDURES (Continued) 2.3 Ampacity Test The Ampacity Test was conducted by initially passing a minimum of 80% of design ampacity for the cable size, allowing the cable's temperatures to stabilize and then increasing the current in 5% increments until a steady-state conductor temperature of 89-910C was achieved. The Ampacity Test was conducted using the following procedure. 1. The test specimen was connected to the Multi-Amp Test Set output stabs. The cable terminations were made in series. 2. The thermal aging oven was energized and the temperature was allowed to stabilize at 40 +1 C as measured by the four thermocouples that were within four inches of the tesCspecimen. 3. The following initial current levels were applied. Initial Current Test No. Applied 1 300A 2 355A 3 337A 4 337A B 85A 6 80A 7 80A 8 60A 4. The applied current and initial conductor temperature were recorded. 5. The cable was allowed to conduct the above currents for 15 minutes. 6. The applied current and conductor temperatures were recorded. 7. If conductor temperatures were less than 90 C +1 C (192.2 F - 195.8 F), the current was increased by n maximum of 5% of the design ampacity and Steps No. 4-6 were repeated. 8. The current that created a steady-state, not increasing, conductor temperature of 90 C +1 C for 30 minutes was defined as the ampacity of the cable. 9. In order to verify the cable's ampacity, the applied current was increased by 5 percent of the free air rating if a higher current level had nct previously been utilized. The conductor temperatures were then allowed to increase sbove 91 C. 10. The test specimen and the thermal aging chamber were de-energized.. WYLE LABORATORIES Huntsville Facility

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ML20214U120

Contents

Text

SUBJECT:

SUMMARY

2.1 Qualification

2.2 Construction

2.3 Rolls

2.5 Workmanship

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ML20214U120

Text

SUBJECT:

SUMMARY

2.1 Qualification

2.2 Construction

2.3 Rolls

2.5 Workmanship

Navigation menu

Search