ML17304A760

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Loss of Qualified Life & Functionality of Electrical Equipment Due to Loss of Essential Cooling Sys in Unit 1
ML17304A760
Person / Time
Site: Palo Verde Arizona Public Service icon.png
Issue date: 10/13/1988
From:
ARIZONA PUBLIC SERVICE CO. (FORMERLY ARIZONA NUCLEAR
To:
Shared Package
ML17304A744 List:
References
13-EC-EC-200, 13-EC-EC-200-R, 13-EC-EC-200-R00, NUDOCS 8811220481
Download: ML17304A760 (168)
v  d  e


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SUBJECT:

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ENGINEERING SKETCH PAD naic j 5'>>>.'(r i ddt IE

,'dz ow ze)lt~liw J./re na(c 3-EC -ge-2R

. 5t..ECT t(O of i JO(>NO 1

V I

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te'(ADB> atu

~ B tna i ne Dr c, duce ove.

tfhfl 715 eauivaieri'"" ti(ne f=.

w rn: r(u; i.-

(11C" Qua i T was 2 BDveer

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The f"in.i 2'B.l (ll. or l; >(; "-.lb.ii;.;B reef'(=.Bertts tn(.'.,u vs lerii A 1 fnes for Bacn act 1 vat iori Pne?

Ov c "

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S i 'x fna>( 'ilufn lfnb 1P.ri s.. '( VaTie'P Abel~at((? e was able to i ie.

Trl1s cari al so DB considered the

'r-l 1 Te r 2 DOSt aCC1 dent OOB2 ab1 1ltV D.

INPi ( i DATA Rt-'Dfn al id r BSt is s loss of riVAC tefnbenatul B

Dl rtfi les wPre obtairted ft ofil La't(lat 1on MC-EC-~53<<APDendi

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which tne cur ve was rnooe 1 ed in 5 miriute e'nts 2'o.

'the filst 0 M'-r(((tBs.

10 fnin((te segfnents to 12'0 fAlnutes 1n 60 fi(1'nut e segMPnt s vo tnB P'no c T tne n1 s 1l io Dl ol 1 lP The ored HVAC Dnofile was nebl eser(red as a slooe and y-intercebt arid ufnrnari "Bd as fo" lows2 PRBN N(AME LOCA: I QNi S(LQ DE Y-INTERCEPT HVAC1 HVACR HVAC3 HVAC4 HVAC5 HVAC6 HVAC7 HVAC8 ELECT PE RM SMRB RN AF tP RM HPS I R>vi LPSI RM CSP RM ECWS>

CQNT RN

-0. 0743

-(.>. 1 140

-0. 1-40

-0.

$ 863

-0. 1900

-0. 1813

-0. 1757

-0. 1450

+139..95

~166. 51

+185. 86~

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+L~14. 65

+-08. 45

~-203. 90

+<79. 18 PRBN MANE LQCATIQN E.

CALCULATIONS AND R(=SULTS,.

The Dr oonarns used to obt a1n.. t ace iderii obenabi lit y and the

'I he neduct ions in aualif'ied life/Post Drintout of the.nesults are attached.

'PAS=S t

HVAC'1 HVAC""

HVAC."

HVAC4 HVAC5 HVAC6 HVAC7 HVAC8 EL'ECT PE RN SWRG RN AFP RN HPSI RN LPS I RiM CSP RN ECWS RM CQNT RN r'

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'I a>~V R(r. >2%5 0>(> (00>00('D>50

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The l Bsult S Ol the SBVeri lvSS OT HVAC Dl OfileS fOl the Dual ifi ed 1 i l.e Dvst acciderit ober'abi lity ctbnsurned iri houns is surilfilal"1 Bd iri tne fol lowir>o table fof a low.

10 deql ee C nule.

riofil1lial hi Oh, and h1on activation er(el oy.

I

ENGINEERING SKETCH PAD BY perry'JZ

) SB(4E"~ o/-

CRENA//=/cD Zu=

~ ('IEEI (i3 of HECKEO 0(((i E (1

( lz-EC-Ee-ace

'OB iO Re ar'1 an Q 'iri(~

'c Ivo 1((al-

r. 5:

'1i(( 5)=- 'ri(ial

.I 5 w-ief E1 ts

= exoK

~ ri <as)

P S j rcp bafle e 'vaded service ternoena~

u1' is noi canst arii out r ises ex oorierii Ial 1 v 1 o1 the fi1'st 41 5 minutes and Eiecneases back to the stare irig t ernoenat une iri the next r ive haul-5. it is necessar y to oerfai rn the evaluation iri sufficxeritly small time seqmenis so thai aceuna te r esuli s can be oot ained in irle same rnanrier as cornouteri zed I

iritegraiiori. This eva'<ation wi1 'se 1 minute t irne segrnerits over the ent irc 715 rninuie lass of'VAC or af i le.

The first 415 rninuies in which tne ternoenatu e is rising is reoresented bY segrnerited sieos in which each seornent uses the highest ternoenatune within that segrnerit; This elirninaies the neeo ta model this oart af the orafi'e as a sinole ar series of exoanential eouat ions in acidii iori to being a mar p cariservat ive aooroaeh.

The rernainirio 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> is modeled as a linear'irie iri the fal rn c f y mx +

b wher e it 1 5 a55E1filed that

-ihe" room amb ient. t ernoerat ur e st art s deerea ing 1inenaily at 415 rninuies back ta the sta~t inn tefnoenatune at the end af 715 minutes.

The cornouter ized Arrhenius teehniaue oenfanrned the analysis orily in those time segments in which the FSAR rnaxirnurn arnbierit ternoer atur e was

'e'xceeded by.the elevated. ternoerature.

If. the analysis was. performed

~ aver segments in which the. loss af. HVAC orofile was.less than the FSAR rnaxirnum arnbierit ternoenature, this would have the effect c f adding less than,orie. minute of nea'1 t ime value c ver the arialyzed one

'"minute iirne segment

~

V aria lysis was or 1 y per for rned fan t he calcul at ed elevated.

temoenatuve and ihe FSAR Table

.E-1 rnaxirnurn ambient ternoerature.

Sirce rio ternoerature rise was iricor.oonated inio the HVAC elevated ternoerature, ihe 'analysis is anly aoolicable for a lass of HVAC whi le the o1 ant i5 iri riorrna 1 ooerat irio coricitioris which is consist ant with the sir ole failure cl-iter ia.

The deterrninaiiori of the oast acciderit ooerability dernonstnaied bv incor oarat ion of tne elevated max irnurn ambi crit reouires thai ihe tefnoenature r i e cve1 irle atilbierii be carisidered sirice the 1f)CFR~fi ~ 4p E'.oui orneni ha-. beeri ca 1 led inio service arid may exoerierice se. f heat inq whi ch wi1 1 increa -e the ser vice ternoenatul-e.

!t rieeds to be f etef'rniried if'he elevated arnbierit temoerature at tne start of LOCA/NSf F< wil1 subtl aet f1 ofn the onesent post acciderii aoevaoi lity or esent ly deterfnined t a such a degree that the 18>~ciay olus 111/

L fnaf uin cannot bp rnainia,iried-(

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CflE KEO 0 ENGINEERING SKETCH PAD

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6cEE.P'J dP 2fdzl<l~D ll/-E I)

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ot (JO() Nr 9 ~.Cii'(

HVAC'VAC

-'iVAC3 HVAC4 HVAC)

HVAC6 HVAC7 HVAC8

)C>>>>$

t i

I Si JR(.

Rr= Or HPS

'S>>

CSP

'CI JS CONT

)or-'

Yj R i~i pg RY, Rt>i R!tti R!(i Ri)i 1 t t(>>)

"V 5

10. 39-7 ~ 4~~

L~>>'. 70

16. 78 C
14. 64
24. 25

'OC

) uie

(). 8 BU 5>> 96

13. 4.

9-50

24. 20
30. 19
26. 60 23>> 93
54. 79

'nctfil1 ).a

'l i on 1

~ i='V 6 ~ 48

17. 56 1B. C~6 5u. 14
46. 93
40. 16

, J.B'9. 46 h 1 nil 2.0 BU

7. 68
30. 93 "O. 95 1&8. 20
09. 14 155. 91 1PO. e9 790. 35 The re ults of the anaiysis for the sever( icieniified iacatioris iridicaies ihat fctr a wide r'arine af act 1 vat ict'I'1 enemies ihe aualif ieci life ar the oost aceicient oaerabi1ity is not siariificant ly aitered.

The seven -neur oref ile in which the HVAC is nat oreserit or is returnirin t')e roam ternoeraiures to norma1 iranslates irita hours that aualified life or oo t aceinent aoerabiiitv demonstrated is reduced.

The worst case situai.ion which was the contr al buildir)o had a

129. 46 hcur loss of auaiified iife cr 0.0148 vears for a nominal hinn act ivat ien er)erqy ar

1. P. eV.'he norninai hinh act ivat ian eneroy rear esenis ihe tyoical hi oh end act ivaiian ener gy norrnaily erieount Bred wit h t ne mast carnrnon 1 y used rien met a i 1 ie corn oonent s.

Ir a

cornoanent

i. aualif ied far 4A years this 'trar)slates into a 0. 0.7/

loss of aual ifieci lire er a 0. F89% loss af oualified life if the item was eniy aualified fctr 5 years.

Similarly if ihe 790. 35 hcur loss af auai ified

3. ifB is considered this wi 3. i translate inta a 0 226% la55 if the original aualified -life was 40 years and 1.8/ if-the aualified 1 ife was 5 years.

This 'is "nat sicirii'ficant because:

~

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1 ~ rauiornerit is eoriservat itvel'y 'aoeci by use or. crtriservaiive aciivatiari Bneroies>>ar )additional" aoinn time added ta the calculated reauired time. CDesinnaiea aualif ied lives're tyoical ly rouncied down or are nreater by factors in excess of 1. 8/.

Qua1iried l ife determiriat ion is rot accurate to

1. 8/.

'>>r ~

(he worst case ccridit iori i the control room which is a mild environment and did not oraduce 'losses in aual ifi ed 1 ife which a> e carisidered unacceota'ble.

Safeiv related eauiornerit a<

1 f 1(. Cf R5( ) ~ 49 wctul d Bxoel 1 Br)ce 1 ossBs of aua 1 if'ied 1 i f( t rni(ch less than t ilB wot st case 51t L(ai 1>>on d1 sc(.(s5Bd, 4 ~

10CFR50. 49 Baui ornent is aual ified ia a oost accident'f' e

ooerabi 1 iiy af.

182 davs alus a tniriirnurn af'0% rnarnin in

~

1r) excess its aual i fied l ife arid t'e rninirnurn ctr -00 davs oest aecicierit gual ificlt i =ri i c= r) ervaiivel v deiermined.

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PROGRAM OOO l 0002 v003 Ovl.>4 OV05 0006 0007 OO(>8 v009 0010 Ov1 1

0012 0013 0014 0015 0016

(>017 0018 0019 0020 0021 OOP2 0023 OO 4

OO 5 0026 n(27

)0'8

'. 0-'9 IO I,>3l,l O(>31 l)lI I.")

.>(>34

>,Il)

)036 003 7 I)>>'.'8 I IIl,>g 0>04 0 Ov ~ I

!CIll2

~ ll,>4I

~ >I>44

~ l(>4

)046

~ Il >4> 7 I'l,8

~ 'v4 <<

I'>50 I ll,>5 I rp >'l >>

I I>!5

~ >> >1>4 AI >55>

l (l(>55 I ")57 l)(>58 vv I<<'>CO II'F 1 GO TO THE MIDPOINT OF EACH TINE SEGMENT T>IT ICE+ (TA/2. 0)

I

<< ~ <<<<DEFIML= THE TINE'SEGMENTS FOR THE HVAC PROFILE UNDER CONSIDERATIOM IF T GT 00 AND T LE 05 THEN GOTO I IF T GT 05 AMD T LE 10 THEN GOTO 2 IF T GT 10 AND T LE 15,THEN GOTO 3 IF T GT 15 AND T LE 20 'THEN GOTO IF T GT 20 AND T LE 30 THEN GOTO 5 IF T GT 30 AMD T LE 40 THEN GOTO 6 IF T GT 40 AND T LE 50 THEN GOTO 7 IF r'T

'0 ANI) T LE 60 THEN GOTO 8 IF T GT 60 AND T LE 70'THEN GOTO 9 IF T GT 70 AND T LC 80 THEN GOTO 10 Il= T GT 80 AND T LE 90 THEN GOTO 11

'F T GT 90 AMD T LE 100 THEM GOTO 12 IF T GT 100 AND T LE 110 THEN GO10 13 IF T GT 110 AND T L'E 1

0 THEN GOTO 14 IF T GT 120 AND T LE 180 THEN GOTO 15 IF T GT 180 AND T LE 240 THEM GOTO 16 iF T GT 240 AND T LE'300 THEN GOTO 17 I'

GT 300 AND T LE 360 THEN GOTO 18 IF T Gl'60 AND T LE 415 THEN GOTO 19 IF T GT 415 AND T LE ENDTEST THEN GOTO 20

~ << ~ << DEFINE THE TEMPERATURES FOR EACH OF THE SEGMENTS TTA<<90. 76 TTA~(5/9) <<(TTA-32> 0)

TTA>>TTA+273, 0 GOTO 100 TTAI 92. 48 TTA-(5i9><< (TTA-32. 0>

TTA TTAi273. 0 5g qn~

\\

Oq

+Am I

LISTING FOR HVAC1

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16:BC:Ol

.:7 '..'>

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HDRI~ "THE LOSS OF HVAC PROFILE FOR THE ELECT PE RN IS EQUIVALENT TO THE FOLLOI4ING TINE AT 104F:"

HDR2>I"EA MINUTES

'OURS DAYS" PRINTER ON PRINT HDR1 PRINT HDR2 PRINTER DFF 4

<<<<<<DEFINE THE FOLLOWINB TERMS

<<>><<>>l.

INPUT THE DESIRED LENGTH OF TINE SEGMENT THAT EACH EVALUATION SHALL BE PERFORMED.

TA~I INPUT THE TOTAL EVALUATION DURATION ENDTEST=715

<<<<.<<<<3.

INPUT THE MAXIMUMAMBIENT TEMPERATURE FOR THIS AREA IN DEGREES F.

TTSI>104. 0 TTS>I (5/9)>> (TTS-32. 0)

TTS~TYS+273. 0 THESE CONSTANTS ARE NOT NODIFIED KB<<0. 00008617 X>ILN(TA)

TSMO FOR "EA=O 40 TO '2. 0 STEP 0. 1 YI*EA/KB FOR TINE=0 TO ENDTEST STEP TA

>IRQG (OF 3 cJ064 0> >65 Cs(s6 6 0067

~ >068 0069 vo /0 0(> /1 i~CJ /2 v07-0074 AA'/5 i)076 v >77 0078 0079 0080 v081 O(ih2 00(]3 A(>84 0<J85 008C os>87

~)088 0>.>89

) >90

~ >091 t.>08~

IJv94 (It>95

<tv~a vi.>97 v098

'099

~3] s)0 Il]IJ]

~ I 1 s.>2

~ I 1st,

~ t) ts4 rJ l Csc is]C>/

~Il >8

~ ~ l 03

-sl l (s

~ ~ ] l l "1 ]~

~

~ ))3

~ll >4 isl l5

~ >1>C

~J l >7

~Il ]t]

~ Il ]9

~ >l =i) i.> ]21

' l 22 RAz

] ISTleG 3

lv

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]4 l7 FOR HVRC1 TTR 93.65 TTA (5/9) <<(TTA-32. 0)

TTA=TTA+273.0 GOTO 100 TTA=94 58 TTA~(5/9) <<(TT4-32. 0)

TTA=TTA+273. 0 GOTO 100 TTA=96. 05 TTAII(5/9) <<(TT4-32. 0)

TTA=TTR+273. 0 GOTO 100 TTA=97. 16 TTA (5/9) <<(TTA-32. 0)

TTA~TTA+273. 0 GOTO 100 TTA=98. 04 iTA~(5/9) <<(TTR-32. 0)

TTA=TTA+273.0 GOTO 100 TT4~98. 77 TTA>I(5/9) <<(TTA-32. 0)

TTA=TTAi273.0 GOTO 100 TTR~99. 38 TTA~(5/9) <<(TTA-32. 0)

TTAI>TTR+ "73. 0 GOTO 100 TTA--99. 92 TTA>(5/9) <<(TT4-32. 0)

TTA=TT4<<273. 0 GOTO 100 TTR~]00.4 TTA=(5/9)<<(TTA-32.0)

TTAIITin+273. 0 GOTO 100 TTR=100. 8 TTA~(5/9)<<(TTA-32.0)

TTAIITTR+273 ~ 0 GOTO 100 TTA=101. 2 TTA (5/9) <<(TTR-32. 0)

TTR=TTR<<273. 0 GOTO 100 YTA=101. C TTA=(5/9) <<(TTA-32. 0)

TTRI>TTA+ 73. 0 GOTO 100 T lt'R~]03. 6 11AII(5/9) <<(TTA-32. 0)

TrnttTTA<<273 0 GOTO 100 Trn ]05.2 T TA>l(5/9 ) <<( TTA-3

~ 0)

TTA=T)A+273. 0 GOTO 10O 1 fn= 106. 6 TTA=(5/9) <<(TTA-32. 0).

TTA>lTTA+273. 0 GOTO 100 T ]4'tl ~ ~l] tJ 1 6 ] s-6 ]4A: /

.s:l l9: >]l U-Vl I

]

l g

(t) 0

0

'I 0

>,>> q>>.>,, p>>.

's>' >>

~

( ISTING FOR HVACI

>TTA>>TTA+273.0 GOTO 100 TTA>>109. I TTA>>(~/9)<<(TTA-32.0)

TTA~TTA+273.0 GOTO

>100 Pi(>>6RAz

>> ~,r6 Ol 01.=8 0'. 29

>l -0

~ ~ l31 0(33 01.4 0135 0136 7

)136 Al.9 0140

(>141

.>> 42

>.> 1 4 3 0(4>4 0(45 0146 0147 0> 4h

~ ~

100 l01 HOURS><<TS/60. 0 DAYS=TS/1440.0 PRINTER ON PR INT EA, TS, HOURS. DAYS PRINTER OFF TS=0 NEXT EA END TTA~-0. 074/<<T+139. 95 TTA~(5/9) <<(TTA-32. 0)

TTA~TTA+273. 0 I

IF TTA LT TTS THEN.GOTO 101 B=X-(Y<<( (1 ~ 0/TTA)-(1. 0/TTS) ) )

A=EXP(B)

.TS= TS<<A NEXT TINE IC(27>27

-7 S'

)9(>n r

y

0

. ~.; LOSci Or Lt ~ ~

~ t'

~ ~ 'I tc

=. /

l. ic c.

3 hVAC PROFILE FOR MINUTES 329.4107

<<36. 167

't3. 0938 350. 1958

'57.

4781 364. 9455

<<7

. 6034

80. 4571

<<88. S122 S~i6. 7742 405. 2491 4 l3. 9429 tc22. 8617 4 -?. 01 441. 4004 451. 0336 4l60. 9187 THE ELECT=- PE RM IS HOURS

5. 4902
5. 6028
5. 7182
5. 8366
5. 9S8
6. 0824
6. 2101
6. 341
6. 4752
6. 6129
6. 7S42
6. 899
7. 0477
7. 2002
7. 3567
7. 5172
7. 682 ENT TO THE FOLLOWING TIME AT 104Fc EOUIVAL DAYS

. 2288

~ 2334

. 2383

. 2432

. 2482

. 2S34

. 2588

. 2642

. 2698

. 2755

~ 2814

. 2875

. 2937

~ 3

. 3065

. 3132 3201

t

>>s >>sf>AI"I

~ ~ >0 I

~ ><

~ >3

)i>~ >4

>> ~I I~ >5

~ ~ 'I ~ f>

~ -.'> ~ > 7

~ > ~ ~ ~

Ij'>>I S')

(>

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>>. ~ I -'

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~ >': s 6

~ >>

~ I 7

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.w L ISTI!IG FOR HVAC2' HDR1~ "THE LOSS OF HVAC PROFILE FOR THE SWGR RM IS EOUIVALENT TO THE FOLLOWING TIME AT 104Ft" IIDR2 "EA MINUTES HOURS DAYS" PRINTER ON PRINT HDR1 PRINr HDR2 Pf!INTER OFF DEFINE THE FOLLOWING TFRMS

>>*f. INPUT THE DESIRED LENGTH OF TIME SEGMENT THAT EACH EVALUATION SHALL &E PERFORMED.

TA~)

INPUT THE TOTAL EVALUATION DURATION Et,DTEST~715

~ ~ ~

INPUT 'lHE IIAXIMUMAMBIENT TEMPERATURE FOR THIS AREA IN DEGREES F.

TTSf<<104. 0 f1 5>> ~ (5/9) <<(TTS-32. 0) fT: ~f15+ 7..0

'IHE E CONSTANTS ARE NOT MODIFfED s(D.-(>>. 0(>008617 X s> s I's ( I s I )

15>> v

.-(>Is t.>>>=0. 4v TO 2.0 STEP 0.

1 Y-f:sl>/KB ssiR 'fIME>>>>O 10 FND'IEST STEP TA 16>44>20 "7 SEP 1988 o

Q

~

~ - 4 I>

~

~

I

~

~

~

(ID Tu I'HE MID>>OINT OF EACH TIME SEGI'IENT T-f I YI.+ (1 A/2. 0)

~ 1

~

T s >-.

is> f

["

I s

~'

I=

1 i.

1 I>

I>>

If I

I I

I ~

f

~

I I>

I f

Is'

>I f

~ ~ ~

ls;t INII Tt>E TL>(it>ERATURES FOR EACH OF THE SEGMENTS I I >>>>~'j), 66 i

~ ts>> ("/')) a (TTA-32. 0)

I;tl~ITA+ 73. 0 6>>10 IOO I)>=.F INI. 'IIIE Tlt>F SEGMENTS FOR THC HVAC PROFILE UNDER CONSIDERATION

(>>T OO At>>D T LE 05 THEN GOTO 1

(>I

(>5 AND T LE lv THLN GOTO 2 i:T 10 At>D T I.E 15 THEN GOTO 3 Gf 15 IINI) I LE 20 THEN GOTO

( I': AND T LE 30 THEN GOTO S iaaf 3(>

ft>'~l) T LE 40 THEN GOTO 6 61 4:>

AND T LE 50 THEN GOTO 7 s'r. V ftt>I>

T LE 60 THLN GOTO 8 l

I 6>>>ND I'E 70 THEN GOTO 9 f:f /0 t>Nf)

T I 6 80 TtiEN GOTO 10 s:f f>,s >lNI) T 1 F. 90 1'hEN GO10 11 6 I 0

A'.<I) T LL I00 Tf(EN GOTO 1 2

(> I I OO AND 'I I I I 10 1'Hi;N GOTO l3 s>7 I IO At@I) 1 I.E 120 T>ILN GOTO 14 Or 12>s AND r (E IOV 1HEN GOTO 15 01 I 80 ANI> 1'L 240 Ttll;N GOTO 16 (if

.='4<,> ANI) f a.l= =00 1'hEN GOTO 17 0 I 3)0 At'll) T Li 360 THFN GOTO 18 i" 360 AND 1

I.E 41S 1'hEN GOTO 19 i> I" 415 AND 1'E ENDTEST THEN GOTO 20 6ln 0

I pJ m

JI 0

-.>r.!I

. a:> I ii)>j I

~

~ ~11 ~ I>

~

~

~

I "\\

~ I

~

~

OiA IIVAC T 1 A=9S. 97 I ii)= (S/9) cr (YYA-32-0)

TTA=TTA+273.0 GOTO 100

'I TA=97. 37 YTA~(S/9) I (TTA-3~~. 0)

TI A>>TT>1+27. 0 Gi)TO 100

~ I 1'TA=99. S8 is ils> (5/9) CI < TTA-32. 0) f i A>>TTA>273. 0 60'TO 100

'I TA=101. 2 I Til=(5/9) a (TTA-0)

Y>r'1>>T'TA+I"/.. 0 Gvl'0 100 Y T>1'= I 0~~) 6 1 TA=('a/9) ~ (TTA-R. 0)

I ail>>TYA+273. 0 I!13TO 100 I iA>>103.7 1 i>i=(S/9) r (TTf)-32. 0)

sA T)A+ 7.v

~!010 100

'i TA='IVIi.C I fil~(S/9) ~ ( TTA-.-'.0)

I I il=YI sir>-.)7 ". V iii)1 O I 00

'ffrl -10~>.

I>

I f<<.=<:,/i>> <1rf)-3". 0) f!is'-1 iA>~~73. V i.-<)l 0 I 0<>

I

~ ~ ~

I i>(r 1 Tsr>'- (ijl'J) ~ (11f>-~~. I >)

~

i ail-Tl >1+'"73. 0

~:v I f)

I <a(r I;r ~

I >,IC ~ ~ CI I 'I> iss iS/'.)) ~ (ll ai-3:".. as>

.! ils> I I >)~: 7 ': 0

' -as>I II>s>

> I ~ Ir!/, S j ~ I a I;a/9) a i'ITA-3," s>)

1

. s

~. i ii)r,"g >. 0

~

1 i 0 I i>i>

> I I~<:I/I)) ~ ('I fi)-3>'. I.'>)

is-I if>a.(73. V "r'Ii)

I ~ >I.'s Il l. I

~

~'I-(:/9) ~

< T (A-3 I ~ I 1 s f> I a.;. 7 3. 0

's

> f) 10<>

I >is

>,'I.a/9) > (T (As-3~. V) f ~ As 7 fA ra~73 ~ V

.!~1>ii 100

'I TA~ I IS. 7

~ (>

Cal i (TTA ',r I>)

~

1

~

)6)/>5) 06 c7 Cc;I 1988 o

I I

n g

ff!n O -)

I 0

C

~ ~

f-'f '-;t. '0

~ 'i'

~

Clf{fo f

(

"~ ~

Ci

~..'/

~ f. 6

~ I I I

,9 1?

"'vf I ~ \\I I iSTIAG FOff HVAC2 TTA'=TTA+273.0 GOTO'100 TTA=-119; TTA~(5/9) <<(TTA-32. 0)

TTA=TTA+273. 0 6Ol'0 1 00 S

YTA -0. 114$ +T~166. 51 TTA=(S/9) + <TTA-32. 0)

TTA=TTA+273.0 f

if'TA LT TTS THEN GOTO 101 B~X-(Y*<(l.0/TTA)-(1. 0/TTS)))

A*a:XP (B)

TS=TS~A NEXT TIf'fE 16f 45) 44 27 bEP 198()

I v.

)

0 W

p

~ ~

f fuL<<S.=TS/60. 0 f)AY '-'TS/1440. 0 Picfr~iCR ON Pff l ~i)

Ctl, iS. tuQURS. DAYS P ffI tifr. R OFF

~

P. I

<<,II t f;ff

L Oaa OF i il

~ M

.6

.7.8 1l. l

~ ~

l. 4

~

~

l. v/

~

8

l. 9 HVAC PR(3FILE FOR MINUTES 623. 2917 663. 8786 707. 6 29 7S4. 8211 805.'7335 860. 6859 920. 0219 984 '159 1053. 3751 1128. 24.4 1209. 204 1296. 78.6 1391. 556 1494. 1464 160S. 2.65 1725. 5695 1855. 95S6 THL= SWGR RM flOLJRS 10 3882 1 1 0646
11. 7939
12. 5804
13. 4289
14. 3448 1S. 3337
16. 4019
17. S563
18. 8041
20. 1534 21 ~ 6131
23. 1926
24. 9024
26. 7539
28. 759S
30. 9326 IS EQUIVALENT TO THE FOLLOWING TIME AT 104Fl DAYS

. 4328 461

. 4914

. 5242

. 5595

~ 5977

. 6389

. 6834

~ 7315

. 7a35

. 8397

.9005

.9664 1 ~ 0376 1 ~ 1 147

1. 1983
1. 2889

'I

'a\\

~ a,

~

~

a<

r

~ a. pa,.g

~

a

~

r

. ~

~

~

~

.a.

~

a>a 'I ~ a I'i'

~ 's Iv" 2 ~ o

. L>R,I AC3 r Die)~-

ILE LOSS IDR,~II"EA PfciNTF>c UN r lii>>i nDR2

~CI > T tf)>1a

~4 I>>>TE>. i)rf-0F tcvAG PRGFILE FDR Yr>E 'AFP RN Is EQUIvALE>uT To Tr)E FDLLDMING TINE AT 228FI"

'JINUTEG hOURS DAYS" I

I p

I 88)36)33 I.G SI.P )960

.'>Isa

'I >>,a (I \\ ~

~

~

f)cr= a"'= YnE ruLL.OICIIVG TEICMS

~

~ < ~ 1.

>uf)L)T T>.E D='SIRFD LEVGTH OF TI>s)E SEGME)aIT THAT EACrt EVA'ATION SHALt BC PcRFOr)MEDa

'fA>a) a

~

aU Yn" 70 AC EVAI LJATION DllRATION sa Ls s ES 1 r. 4 a 1

i a ~ ~3;.a>PL)1 Trc I>>AXIisll>l'I A~0I Cn)T TENPERATURC FDIC THICS AR"A In) D"GR=ES F.

"i:r 2 ~a>>. 0 5= (b)9>

a (.76-32.8)

L~.

o

~

~ ~

~

I '

I =

f:0>>GYA >>T5 A>c-luU>T MODIri ED

'aa 0

aalscac:ICL>L>s17

>. ~.;. ( fA)

->C

~Ii ". 4>)> Tu r a)I 3 sE> 8.

1 L) 70 wDTES S.

P TA

~

~

~ r La a

'1 ~'r..

nt.'DPUI

>VT OI EACH 71.>IE SEGM a)T i ic r L Al~r. Is I

a

'a

~

~

~

I I

I I

, I' Ir

~

~ ~ r ~

~ I ~ a Oar

~ u fs-

.:. 7

~ ~

I'i I

I I;I I

'L ~

h.'

os L

~

o

'LI 4 ~

- vii 1 I:-

7 '

IE S GMcNTS

> u'l 7'rE

>cia> 'i

~

.=. I)'5 Tt-=N DLI'rO 1

A.l!

I t.=

1(a Th:n) GOYL)

.>a) fcr '

..E I ~

1'ti'=N 00"0 3

I r il' 7

6,"a>s Yr'l GO 0 4

'll i ~ f s.i>

Lait T).=N 00 0 S

A.it i

- 6 i>G T.v 0(!Tu 6

~ >O <<ri" t

>.I inc 1> I:Iu i>L>a'0 7

A.lt 7 I.;. f::I 7>

nt GL)YLJ 8 L.v) i'.>r, I! I' f

7Lc l I"=nl ol)"0 9>

7cs A>>0,

= t)is Yr>=N GO>.O

)ais c

u)>

ra>ac>

a

'. I:. 'G I'",""cu (j0'Ll )1 fl,i!

~

)CaD f

-'as (jt>YCI 1 9

's>-I'.'

'r

)

~ L) 1 t filu l,>0"0 1

I ss Assi) 7 '

a'sil Tn

>V LTLr7()

a).L>fs fc'1 T

ii Ii:I) 1't c>Tlu G0"0

) 5 I Sit Aa>f) 1 '0 TI iV GGYO 16 ra~a.

1 E

'IL>9 1'r-"N G0'iO 17 A "i! T E 365 7

r..u GDYO 10 rs'WG 7 '

415 1'I Etu GO>'O 19 IS AVD 7

=

E.a>DYEST 7-.=N GO70

)IVAC >Ici>Fit 6 LJ>vDE>c CONSIDEuAYION

~ = ~'i 'i:.

I': =

T=>IP= 0>1>71)RLLS rl)M EACH O-Tr. '

GM=>!Tb d) at ~ + (

~

H sa aa))

is'i i. - )o ~ af>

l Al r

)0 h

.I<0 I~ ~

I,e'I I ~

<<we

!"'I<t

'cs 8! = s (1<<!!:7

(<<he)i<<e 8<ii

~

l.

80/. ~

L v

~

i'L<I ~

<< ~ I<<

1==,1 Lit ~

'i<'

'I \\

~

~

~ p e

\\

~'

~

< ~

i' 4 ~ '.Ii s 0R wVAC3 VTA!<188.5 TTAts(5/9) I< (TTA-38<< 8)

Tifeis71A ~.273. 8 6070 I'88 I Tf I 1)8. 3 TTII~(5/9) Ie (TTA-38. 8)

<<1 A~1<'Tfev 873. 8

'J'0 I88 T s A~ (5/>>I)+ (TTA- -

. 8)

T.A=TTAi=7 ',8 Gu 0 )88 I I>>eel a

4 TT Ae! (5/9<

ee (TTA-. =' 8)

I<< lffe /

~.8 30<.0<

I 88 7 "I~ - I /

. T.e= (5/9< ~ (

e f>>e-.<<>>". </I)

~ I <.i 71f<<v

/3. I)<

I~ s I 8<<)

I I >> - I.8 ~

T I e e* ( 5/,I < ~ ( 7 siA 3<< ~

P< )

f<-'! f,'e~ 7". 8 6!3 I lie~8 7 Ii<<< (5/ JI ~ ( IA,~,8<

T As:I'(As 7=.8 8070 I OD

'e' >> fIII8,

TTi '!5/9<

I 1: -3% I/I<

'<I~< T<< ~ =7

.f<

3<<<

(e I I~r I ss-e-I

~ I

~ i<< ~

~ 5/'.I I i <1

~ ee>>

~ I/< ~

< ~ esfe.

IO)

IA I

I<

~ <<e pi!,'h s ~

~

~ I I ~'3 ~ Ir~

< L!.I fe; >>'- /

~. g<

3.: ~:

I!see I !i'.'S.

7 e>>'

5/9< ~

~ iA-.)>>. 8)

~ I I ~ '~ ie ~ "I;. 8 I (ed I (>>'

~ I TVA<.(5/9<

(TTA-38. 8) 88<37<8I 28 S=f l9&b gP L~

o

%~X

-uH sss/AC3 T s ss~ 'TA+273.

(s) sss=1 TTA-"(5/9)~(TTA-3~.ss))

s

~ Ass s

A+ -'73, 8 GO s O 141$

ss)8)37(

1 Zcs 5=~ )560 s 'Asss ss!

1 slssT's s65 65 T.A~(bi9)i (T A-. ~. 8)

TTAssTTA>> "7.8 s

T.A c 7 T:5 Th=ss GOTO lss) s>>- s.- (Y>> (( 1. 0/TTA)-(l.v~/TTS) ) )

As- - 's r+ \\ 5 I 5" s 5rss s(T 7 Ossjs15.=

~ 5/( )1. 8 i'sos s~'/ 1 ~s rsvp lb uss

- Css.s s.s<.

5.

~ OJss5. ('AY5 r

r-0 s.

~

rs

LOS> UF HVAC PROFILE FOR NINUTES 445 0337 47

. 96/

502. 9506 535. 1444 569. 7215 E06. 8689 646. 7009 609. 7002 735.8393 705. 4618 B.;0. 8444 096. "-865 9'I 0.

1 1 ) 7

) 0- 4. 6704 1096. 34 1 8 1 1 /3. 5361 1256. 69/4 THE AFP RN HOURS

7. 4172
7. 8820
8. 3825
0. 9191
9. 4954
10. 1145
10. 7790
11. 495
12. 264
13. 091
13. 9807
14. 9301
15. 9685
17. 0778
10. 2724
19. 5509
20. 945 IS EQUIVALENT TO THE FOLLOWING TI DAYS

. 3091

~ 3204

. 3493

~ 3716

..956

. 4214

. 4492

~ 479

~ 511

. 5455

~ 5825

. 6224

. 6654

.7116

. 7613

~ 815

. 8727 NE AT 120F)

kl

.f'j)") K ".-

='-:F 3 "~ fl'"~ "4'g>>'"Q4'8:.kP""'~ )~"

r

~

~

)H ~ >.'r

~,

~ l

~'

~

~ z <<<<

~ ~ <<

~ ~

z>> ~ 9

~

~ ~ r '

~

~

J I >&

~, ~

~"

~ <<z 7

Ii>TIN(> FOR tlVAC4 t DR1 "THE LOSS OF HVAC PROFILE FOR THE HPSI RM IS EQUIVALENT TO THE FOLLOWING TINE AT 104F>"

trDRB>>"FA N INUTES HOURS DAYS" PAIN'fPR ON PRINT HDR1 P)k INT ttDR2 VRINTEH OFF 1

z a iiDEF INE THE FOLLOWING TERNS 1

INPUT TtlE DcS I flED LENGTH OF TIt'IE SEGNENT THAT EACH EVALUATION SHALL BE PERFORNED.

TA=1 I

~

~

~.:.

INPUT THE TOTAL EVALUATION DURATION I.NDTC:>T>>4 I

~ ~,';.

Irtl'UT THE NA)(INUN ANBIENT TENPERATURE FOR THIS AREA IN DEGREES F.

TTS>> 1<.><> ~ 0 1'(S<<(5/9)

(TTS-3". 0)

I TS>>fl'9 ~

7'. 0

~

% ~

I >>LSE CDN<STANTS ARE r<<>OT MODIF IED

.<L'-z<. '>(>0(>t)61/

'i'if()

1 g.zg>

17:13>50 27 SEP

)90(t

">>R: P> 0. /0 TO

"".. 0 STEP 0. I Y.f,></t(E<

JH

> Irr: '0 10 LND'IL. 1 STEP TA

~

~ < ~

l<O 10 1HF. r'tIDPOINT Ol.

EACH TINE SEGNENT f ~ l'r <l: r (TA/~. 0)

~ ~ ~ P

~ '

1 I <>

3 I >.

I rr 1

r I

l I

I>

I IF r

> ~

t r

I l

> ~

r

\\.

~ <

~ ~ ~

I)>:l- ) ttt'.

Tl>E fEN('>EHATURES FOR EACH OF THE ScGNFNTS

> l i >J, 67

> tf> z(.">/9) i ('I TA-. -'. 0)

I I Az>T 1 A~.~73. 0

><010 100

<</> i I <'>".

ItcF INC TlrE TINE SEGl<rENTS FOR THE HVAC PHOf'ILE UNDER CONSIDERATION l)1 0<? fiND T I.E 05 THEN GOTO I I T 05 I> <I)

T I.E 10 THEN GOTO G 3 1 0 ArID 1 I.F.

15 TtlEN GOTO 3 G<'I 15 A<>l> T I E "0 TtiCN GOTO 4

i'r

-"0 >)NI)

I LE 30 T)IEN GOTO 5 i 1

.:z:> (WI) 'f I.c 40 l)E'EN GOTO 6

><l wz>>lt.D f Ll=

5<1 1'l(L=N GOTO 7

> < l 5.>> >r>l)

T LI. (<<0 1 hEI't GOTO I)

Gr 6) AND T LE 70 THCN Goro 9 I

I 70

'> <<>I) 1

(,E 0.>

'f>rL<N GOTO 10

> ~'I'0 Ar;I) f r.t: 90 I t)EN GOTO 11 J0 A >I>

T L'( 100 Ttrl:N Gi)TO I'2 T

l(>z> AND 1

>.I= 110 ThFN GOTO 13 I ~ 1 l r 0

>INI) T LE 1.~0 1l.ll=N GOTO I 4 r I 1..<> fiND 3

LI:

1130 THEN GOTO 1S rlr 1&0 A&if) 1 LC>>40

'(t(L<N GOTO 16 O<

-'4>'> AND "l'l> 300 ThEN GOTO 17

(..I '(>0 f><<D T LI; =.60 Tt(EN GOTO II)

Gl 36(> Al40 1'E />I5 ThEN GOTO 19 O1 / l AND 7 LE ENDTEST 1HCN GOTO 20 (N

) Gl p

W Itr 0

n r

(, ag 0

s t

. ~ sw,'s,s si:sssG FOI( Hs/AC4 17 c 14' f.7 fsEP I ')8fS s( /

sis /0

~<<s ~ <<

~ H ~

~

s '

~

s s

~

~ s, TTA~IOS. 6 T T A~(5/9) <<(TTA-32. 0)

TTA=YYA+c73.0 GOTO 100 1 fA 10/. 9 Yia <sis) <<<Tin-3a. o) 1 ii(ss TYA+273. 0 G01'0 100 I

T fn=1 I I. 3 f Tsl ~ (5/9) <<(TTA-32. 0)

T I'A~TTA+~73. 0 6010 100 Yn ll -.8

)T'ai-

< <<is) <<<YTA-32.0) fin=fin 973. o ss01 0 Iou ria 1)s.s 1 fn=-(."/9)<<(TTA<<32. 0)

T fassTTA<<~~73. 0 Gsl10 100

~ in~1 I / 3 T fas*< =iS>

<TTA-3~.O)

TTnss Yl'A<<~~73. 0 s>01 0 100

~ s'Ass I If). 6

'I Ts A~ (S/9) <<(TYA-32. 0) 1 in-Tins "73. 0 Gisl'0 100 I 1 as= 119. 7 I irs= (5/9) <<. (TTA-3~~. 0) f sns-fYA<< ~7

~. 0 sais I ii I s!<s "I I 0 = I 's.s. 7

'I fl

- <:.i ) ) ~

< 1 rn-3=. 0>

is>-TTAs.:7.. V uis I 0 I s!0 I fss

~ Ii-',I. S I s>>-(:I/!) ~ <'I 1'll-::': 0)

I rsi-i'Isis'</

. O.

s,sl 0 I ~ <<s I

S ~ ~ li., 3 s f S <<('.,I y > ~

< I In-~~~. V)

I ',ns I'ns 7

~ 0

~ s'J I 0 I %ss s s' ssl I

>>is=<1/9)

~ <T'In-3:. s))

I >>I <<I'1'ts ~, 7... s'!

~s! I i)

I ~ s<s

'si -I s(. /

I fs-(Oi 7) ~ ( r'in-3s. 0)

I s si-TYii~ 273. is

~,ul 0 I' sl-': 9. 6

lsi- <.I/O) <<< r rn-3=. 0>

~

s s 'I s I 1 n s w 7 !~ s!

i s I (s I i.s(s

~: ~'I-13~- I I Tisss (5/9)

(TTA-3<<' 0)

~

~

I

¹

0

r' l<IRr))l I

r ~ ~

(9

~

~ I

~ ~

~ ~ (,

~,

'C

~ ~ '.,', (

~.=8

~ ~ I 1 ~ I )

~,4 rI '

~ Il ~,~

~

~ ~ ~

~ I

~,I

~ j 1 ST I."IG fOff HVAC4 TTA<<TTA+273. 0 601'0 100 f fA~1 6.2 TTA<<(S/9) <<(TTA-32. 0)

TTA-<<TTA+273. 0 GOTO 100 TTA=-0. 186. <<T+213. 53 Tl'A=(S/9)>> (TTA-32. 0)

TIA<<TTA+273.0 If 1TA LT TTS THEN GOTO 101 D<'-(Y>> ( (l. 0/TTA)-(1. 0/1 TS) ) )

A*EXP(D)

TS--TS< A NIIX'f TI(<IE

) IOL)RS>>><TS/F.O. 0 D lYS--1 S/1440. 0 P R I.r)T(E R OI4 Pfl)hT EA.TS,HOURS, DAYS f'RI NTLR Off TS r) r

%Xl I;A i:fiI)

17) IS) IS 27 SEP 1906

0 0

I

~ ~

1.

~ ~

l. "i t OSS ut.

Ikt/AC PROF ILF FOR MINUTES 762 00-1 09

. 1/65 1048. 6291 1=-=.".. 0309 1451. 9741 171-. 1578 2021. 6103 389. 9577 20..8. 7469 3351. 8-44

)75 856 4720. 7917 5610. 6't74 6674. -771

/9'tD 3747 946t3. C/07 11291/3762 THE HPS I RN HOURS

12. 7
14. 0863 17..4772

-0. 5505

24. 1996
20. 536
33. 6935
39. 8326
47. 1458
55. 8639
66. 2643
70. 6799
93. 5100 111. 230 132. 4396 15/. 0112 100. 1896 IS EQUIVALENT DAYS

. 5292

~ 6203

. 7202

. 8563

1. 0083 1 ~ 109 1 ~ 4039 1 ~ 6597
1. 9644 2 3277
2. 761
3. 2783
3. 0963
4. 6349
5. 5183
6. 5755
7. 8412 TO THE FOLLOWING TINE AT 104F t

t

7

"'c> 4>>ct>.(

W ~I

~ ~

->'P'4

~ < << ~

gz

..IS(ING FOA HVACS HDRI>c"THE LOSS OF HVAC PROFILE FOR. THE LPSI RN IS EQUIVALENT TO THE FOLLOWING TINE AT 104Fs>>

HDR2="EA MINUTES HOURS DAYS" PAINTER ON PAINT HDR1 PAiNT HDR PAINTF.fl OFF 17cE'4:47 B7 SEP 1980 g p c ><<J ~ ~ '>

~ << ~<<9

'=.~ l 1

>~ l ='

~

> ~.>',p,

~ > ~ ~ ~ 7

~ c 1 ~

~

I ~

~ aiDEF INE THE FOLLOWING TE'RNS

> < 1.

INPUT THE DESIRED LENGTH OF>TINE SEGNENT THAT EACH EVALUATION SHALL BE PERFORMED.

TA= 1 c

I INPUT THE TOTAL EVALUATION DURATLON Er'DTFS>T~ / IS

~ ~ >~3.

INPUT THE MAXIMUM ANBLENT TEMPERATURE FOR THIS AREA IN DEGREES F.

'1'10~1>)4. 0 I I. c. (S>/9) i (TTS-. ~. 0)

TIS-'1 TS<<27=. 0

~

~

~

f >>LSL CONSTANTS ARE NOT NODIFIED

>' -0. c. 000061 7 (r-(. N ( Ol) c,>

ri>fr C>>=O. i><<) TO 2. 0 STFP 0. 1 Y-I:A/l!1<<

>-Of> fIML-0 TO EtuDTEST STEP TA

~ ~ ~

~

l>O TO T>IE MIDPOINT OF EAC)l TINE SEGMENT r.-.r IMfi (TA/=-.0)

~

~

1 i'

)r I <<1'F I

> I I'

~

I' l ~

I I

l l

I>

I I

I I,

I r

II>'

lr 1

~

~ ~

~ I)r F INI Tl(E TEMPERATUf(ES FOR EACH OF fHE SEGNENTS

>>'- I ~ >>'.. 9 1'l>l (1>/9) i (TTA-32. 0) f)A=TTA> 2'73. 0 c'>cr) A l>>0 l>=FINfi 1HE TIME SEGMEN'fS FOR THE HVAC PROF'ILE UNDER CONSIDERATIO)f i)l Oo AND T I.E OS THLIN GOTO I

(rT OS ANI) T LE 10 T)IEN GOTO 2 i>f 10 AND T LE IS THEN GOTO 3 0 l I 9 AND T (.L

-'0 Tl>EN GOTO 4

('r =0 nr"n T LC 3>1 THEN GOTO 5

(:> So f)<<>f) T LE i>0 'ft(EN G()TD C

I ~ I 40 AND l I.f:. 0 T)lEN OOfO 7 I>>

mo llwf) T I.L CO 'fl!EN G()1 0 0 CO AND r LC /0 Tl>CN GOTO 9 70 f>.uD 1

l L'c'> Tl(LN GOTO 10 00 Ar>D f (C

~)0 1HEl'l GOTO ll c ~ I J.

f) 41) 1 L C 100 Tl>CN GOTO 1.:

(,I lc c> ANI) T (.l=

I lo 1HI:.IJ GOTO 13

( ~ ".

1 l 0 f<<)f) 1 LL I

0 Tl>EN GOTO 14 I r'c> l)ND T I li 100 11>FN GOTO IS

i. ~

l 8(

ANI) 'f l L "40 ll>LN ( OTO 16 cif ='i<< ~'> AND f l.E Sc>0 ll>EN GOTO 17

(

10(

nriD T Lc..60 T)IEN GOTO 18 0 I C 'ND 1'L 415 THEN GOTO 19

()1 i>1 AND 1 LE END fEST TflEN GOTO -0 f

~e 0 ~(II 0f led

elf<>>>I.,i l,de(I f'Gd< HVAC5 17)25)33 27 MI> IQQO

~ >

~

es s" 5

~'

~

~ >

J d ~

> ~

~ ~,

~

~

8

~ /

'1 d >-,>1 I

~

~ >

~ s>

~ g

'd

~ ~

T'fn>>106. /I TTA<<:(>5/9) <<(TTA-32. 0)

TTA~TTA+273.0 iuTD 100 T f4~ 108. 2 1'. Aee (5/9) <<(TT4-32. 0)

TTA>sTTA<<273. 0 60TG 100 TiA=111. 1 iTA>s(5/9) <<(TTA-32. 0)

TfAse TTA<<273. 0 C>GTQ 100 ffn>113. 3 I I A.=( >/9) <<(TTA 32. 0) 1 fAs>Tlii+2/3. 0 601D 100

'r rn=-115.

1 Tfil'<<-(5/9)<<(TTA-32. 0) f 14 =Tl'A+273. 0 s)01D 100 I

~ 4= I I G. 5 11A: (5/9) <<('fTA-.. 0) f> sids 7 TA<<273. 0 s>QTG 100 rf4 117.7

.rTele>("/9) ~ (TT ~-32,0) 1 I4-T 1 4 >273. 0 I 01D le.>O f in>>>11(3. 8 TTil=('. /9) <<(TTA-2. 0) fI es= TTA<<273. 0 i>:ITG I e)0

'I s ~ s

~ I)9.7 1 Is)-("/')) a (T fA--

. 0)

I1 s s 1 el <<d".7 ~. 0 s >O'I ()

I ~,>(s d sld; ~ >,8

> I;:!:./.r) ~

s I rs-s-3.0) 1 ss I le'se -'7.. s>

d

~ >IIII,e>>s

~ I ~ ~ I;,'>

I: ~ e

(: >')) ~ I'I<ii ~.'. ', >7)

'> ~

~ I ~ > ~, /

, sj

~,,

~

~ I I

>s ~

I

~ s (:>/'fl ~ (1(n."-'. 0) s,.

~

~ I I ss ~

7:

~

d, ~

I ~ >d.>

(' /a)

~ (1'en- -- 0)

I s ~

1

> Is ~ <<7>>

e) sp >sde I ~ >ds I

~ is- ('. /'/) ~ llT'i4-. ". 0)

I I s's.'

s'>s ~ 273. 0

\\>

~

S ts I ~ SS.S I n" I=:.5 I

~ > e = (',/'iI ~ ( TV>I-;d~. 0) d i~

1 I

~Q(l

@>o PJ p

)f

I's'asser.

aSI

~P

~ ~

I.

e.

e Ie~lG FOR I(s/AC5 TTA=TTA+a73. 0 GOTO 100 T'fA~1 5. 8 TTAss (5/9) + (TTA-32. 0)

TTAasTTA+273. 0 GOTO 100.

171a.61)Cr 27 SEI)

) 9isO

~ e

! 'e>>

e r Ce

~ e se al I ~ cia s f'A=-0. I 90 t7+2) 4. 65 T iAas (5/9) ~ (TTA-32. 0)

TaA~TTfls273. 0 iF TTA LT CTS THEN GOTO 101 I'aaX-(V <<i. 0/TTA) (1. 0/TTS)))

A=E.)ifs(9)

TSrTSaA Na I( f TIN('.

IsOLlacaSa='f 5/60. 0 De~ VSa=-TS/ I 440. 0 ssN i>>'II:fl Ossl Pis IN)

EA. TS, HOURSe DAYS Iaf(1.'If EII OFF

~

iS.a ~

sea. XT a:il s".I.O

(/

pl

t

OF HV lC f ROFILE FOR MINUTES 1006. 791 1161. 8872 1344 ~ 1427 1558. 5862 18 1 l. 2092

~

"i(5. 15.7 2460. 9384 287o. 7-95 395

=487 464 l. 8101 5461. 0756 6433. 8395 7!F89. /767 8964. 419 10600. 3282 l25 sO. 5072 THE LPSI RN HOURS

16. 7799
19. 3648
22. 4024
25. 9764
30. 1868 ob 1 526
41. 0156
47. 9455
56. 1444
65. 8541

.. 77. 3635 91 0179 107. 2307 126. 4963 149. 407 176. 6721 209. 1418 IS EQUIVALENT TO THE FOLLOWING DAYS

.6992

.8069

~ 9334

1. 0824
1. 2578
1. 4647
1. 709 1 ~ 9977 2o 3394
2. 7439 3 2235
3. 7924
4. 4679
5. 2707
6. 2253
7. 3613
8. 7142 TINE AT 104Fs

~'I ><<<<A 'I

~ ~ ~ el e ~

~ e ~ <5 0

i.'ee'

< I>

~,

~ ~

eK I

~ >'

~

~

7

~ W ~

e J

~<i e

~

I IG (lr<G FO(l HVACF HDAI -"THF. LOSS OF HVAC. PROFILE FOR TPE CS RM IS EQUIVALENT TO THE FOLLOWING TIME AT I04F>"

HDft i="EA

. MINUTLS

.HOURS DAYS" PRINTFR ON PRINT HDRL PAINT ttDRZ PRINTER OFF e

~ i <e ~ DE<. INE THE <FOLLOWING TERMS INPUT THE Df;SIRED LENGTH OF TIME SEGMENT THAT EACH EVALUATION SHALL BE PERFORMED.

TA>>1 I

I e

~

='.

INPUT 1HE TOTAL EVALUATION DURATION I=.NDTF.ST=715

~

~ ~ ~ 3.

Ii'>PUT THl= MAXIMUM AMBIENT TEMPERATURE FOR THIS AREA IN DEGREES F.

rf.

I< ~i.V "e (S<i(5/9) ~ (TTS-32. 0)

TIG-f fS+ -73. 0

~

~ ~

IIIL':i'QNSfANTS ARE NOT MODIFIED I 6 i1. e'e.>00()CI7 c.t. r< <1 A)

, G=<)

17<43<43 g7 SEP 198R i Ol< (.<1~0.:<0 'IQ

.i> S'(CP O. I Y-E<1 /IIB FvfIrli ~0 10 ENDTEST STEP TA

~

~

I v TO t <F MIDPOINT OF EACH TIME SEGMENT 1 -I'll'IC~ (TA/:.. 0)

~

~

~

~

li' li f

I I-T I e.

1 f

ii I

I<

l l ~

I Ii I

I I

li 1

li

> ~

I 1 ~

f I

i ~

~

'.f I

I

~ ~

~ + I).:I'irtE 'f>IE TEMPEA(ITURES FOR EACH Of'HE SEGMENTS I <A <QD. I 1(<<ii(~x9) ~ (TTA-3. v)

Z I A~TTAi+~73. 0 e 1 I)

I 00 I:.f."INF. THC TIIIE <SEGMENTS FOR THE HVAC Pf(OFILE UNDER CONSIDERATION Ol C>ey A<VD 1'L 05 TIILN GOTO I

G-O'ND T

L.E 10 TFIEN GOTO

~

Gl'v Ar>D T LE )5 Ttsf<N GOTO 3 61 15 I'IIVI) T LE

='0 THEN UQTO Gf =-0 AinID T I.E 30 THt=IV GOTO 5 G (

~ (i l>NI) I LE 4<3 THEN GOTO C

(il 40 AIVD I

LC 50 TFIEIV OQTO 7

() I 50 (INI)

T LES<.> THEN GOTO S

l I

CO llNI) T L.E /0 I')ICN GOTO 9 (i I 7<'>

(<I

1 l E Gi> THEN GOTO 10 Iif t)0> II<ID T I.L Qi) 1H<..N GOTO 11 t:i 9(> A.ut) 1 L L 1 i)0 TF Il. N Gi)TO I2

(:I IO i ANI)

I I I; 110

'I'HLrV GOTO 13

(<1 I 10 Aiul) I I.E l."0 f I ICN GOTO I 4

( f 1.<<> AN!) T Lt; I QO 1l<f".N GOTO 15

(;I I ()0 AND T Lil ='40 1 I)EN GOTO 16 QiIiv AND T LC VO TliEN GOTO 17 O> 300 AND 1 LL 360 TIIEN GOTO 18 Gl'CO A<ID T L,E 415 THFN GOTO 19 (11 41 AND 1

L.E ENDfEST THCN GQTO 20 1

(u p

~$(l

-- i' ji(>>- i1

> <ST ING

->". 4

~ > l

\\

~

~ = ~ ( /

~ ~ > 8

~ >

~ >

~ -

/.'/>>

>>3

~

> 4

~

~ //

7

~"

C'OR HVACG TTA>>103. 6 TTA~(5/9) <> (TTA-32. 0)

TTA=TTAi273.0 GOTO 100 TTA~)05. 6 TTA (5/9)

<> (TTA-32'. 0)

TTA~TTA+273. 0 GOTO 100 T fn-108. 8 CTA=(5/9) ~ (TTA-32. 0)

Tl'A=Tlni 73. 0 GG1'0 100 TTA'~ I I 1. 1.

7 IA=(5/9) ~ (TTA-3>><<. 0)

TTA=TTA+>><<73. 0 G010 100 1 I'A 11..0 Tln=('9)

(TTA-32. (>)

TTAx>TTA+<<7>>. 0

(>C>10 li>0 I TA~ I I r> ~ 5 1(rl<:(5/9) i (TTA-3>><<. 0)

I'I'll<-Tl i)< <<73. 0 GOTO 100 Tfn=ll'7 TTA= (5/9) i (TTA->>2. 0)

Tl A=TTA+>><<73. 0.

6010 100 Trn'>>c.7 Tln=('.,/9) a (TTA-'.0) 1 Tn>--TTn< >(73. 0 (iiili) li>0 T i>I-I 1 /. 7 1 Ir>

-. (:"/-:>> ~ (Tln-3 <<> 0) 11>l>.Tlni><<73. 0 38TO liiii r r.'=>>I).5 1! Ai-(.i)~ (11n-3;. 0)

",< n>-f I'I< ~ "73. i>

I i>l (I I 00 r:>

I I O.

=.

I lii-('.>/'i) ~ (Tln->>

. i>)

1

~ >'< I'I >1 <>>7

~ 0

>1 O I ~ >i>

) <<>la l,i ~ >. ii I I;>. ('I,/9) a (I'Vrl-'

i>)

I I I I'n ~:.7". 0 i>.I'I i> I:iii I ><'>'J I>>.,'. C I:n= ( /9) ~ (T;rn-3=". i )

r I>l ffn< <<7

~. 0 uu

~ 0 I <>0 f f>< > >>>>>IJ ~ 6

! In-(!r/9) ~ (TTA-3<<> 0) 1

< (><<7>><<, 0 G01Oi 10>i>

17>44>

9

< 7 5EI> 1988 0

I N

~O

(

g~~

o

III

r ~

~ > ~

> ~ C

~ r

~ >1 (4

~ ~ I

~ ~ r

~ ~ l ~;>

~ >'

1

'>1 19

~

P 1(>>.>

1 ~!1

~

~

'>' >7

~>

5><r>)r

> [5 'NC FOf( HVACC TTA=TTA<273. 0 GOTO 100 TrA=13 2

TTA~ (5/9)>> (TTR-32. 0)

TTA>>TTR+273 ~ 0 GOTO 100 T fA=-0. 1813>>T+208. 45 TTA=(S/9)>> (TTA-2. 0)

VTA>=TfiS+ 73. 0 IF Tl A r T TTS THEN GOTO 101

&>>X-(Ya( (1 ~ 0/TTA)(1. 0/TTS) ) )

il>-FXP(8) f5.ITS > A r r(.X'f T IIIE

<<C u(>TS/Cn. 0 D>')YS>='r S/ l 440. 0 f>r<l rr fE(( ON Prlr:r EA. TS>hOuRS.DAYS Pl<fr ffLf< OFF f5 0

>. XT E.A

r:D 17!4m>07 c7 54P I't88

>~

(p g)

s:..'OSS

> ~

, l>

.7

~ >>

9

s. 4 OF

>1V>SC C>ROFILE FOR MINUTES 930. 3736 1061. 613 1213. 8155 1.90. 5238 1595. 8998 1834. 8352

.:113. 082S 2437. 41'06 2815. 7851

.>7 587 I

'773. 8698

'>.77. 6582 5>>84.

3113'911.94' 4 6881 9375

>sv 9 5219 9~

h >. 4>c4 THE CS RM IS HOURS

15. 5062
17. 6936
20. 2303
23. 1754
26. 5983 So.

ao6

35. 218-
40. 6235
46. 9298
54. 2931
62. 897S
72. 961
84. 7385
98. 5324 1 14 ~ 699 133. 65a?

155. 9083 EQUIVALENT TO THE FOL'LOWING TIME DAYS

~ 6461

.?372

. 8429

. 9656

l. 1083
l. 2742
1. 4674
l. 6926
1. 9554
2. 2622 2-6207
3. 04
3. 5308
4. 1055
4. 7791
5. 5691
6. 4962 AT 104F s L

o

I'

~

(

ei ~ I >IVII

~ '

~ i

~ H I I~ I4

~ Il ~ I Ir

~"I.'e 'I/

AM

.)STIriC FOR t(VAC7 HDR(="THE LOSS OF HVAC PROFILE FOR THE ECWS Rnt IS EQUIVALENT TO THE FOLLOWING TIME AT 104Fs" HDR3>I"EA MINUTES HOURS DAYS" PRINTFR ON PAINT HDR1 PRINT HDR='f(

IN'ft:R OFF IG>0i>35 7 SEP

)3()t)

IN ~ ~

p \\ ~ $

~ ~,0 e,ii. )

- ie

~ '

I e

~

~

~ ~ e

~,

~ I 7

~ s

~

~

II

~ ~

~ < + IIDI:l INE THE >FOI LOWING TERMS i ~ i+1.

INPUT THE DESIRED LENGTH OF TIME SEGMENT THAT EACH EVALUATION SHALL BE PERFORMED.

TA=1 I

~ e + ice~

INP()T THE TOTAL EVALUATION DURATION I=NDTEST=7 15

~ i i3.

INPUT THE MAXIMUM AMBIENT TCMPERATURE FOR THIS AREA IN DEGREES F TTS=1(i4. 0 1 f See (5/9) i (TTS-32. 0) l'T5= T TS r~73. 0

~

~ ~

'ilIFSr CON'.>TANTO ARE NOT MODIFIED r t'I=O. 0(i(IOQC17 s -tW(ln) 1:> (i Ie i>R t,e'I< O. 4e) 1'0

~ 0 Sl'EP 0 1

Y-F. A/l(1'i FOR f in!>.ii(> TO ENt) 1 LST STEP TA

~ ~

~ l >>

fO Thl. Nt l)f'OINT Of= EACH TIME SEGMENT r -rf<<E (TA/~.0) e ~

~. ~

~ ~

~

)>>.F)n>C 1HF TI<<C S=GMENTS FOR THE HVAC PROFILE UNDER CONSIDERATION

)

~l'iO Aieit) T LL. 05 1'HEN GOTO 1

Ie 1

(i l O'.I t>i>l)

T I.E 10 THEN GOTO 1

I'> f

) 0 AND T LE 15 T)IEN GOTO 3 1-I tel 15 (IND T LL 30 THEN GOTO l>

f (if

>'0 An,D T LE 3>0 THEN GOTO 5 1

Sit Si>

f>fet) I LC 40 ThLN GOTO F

T Gr 40 sin>D T LE 50 THEN GOTO 7 1

(el

."'0 (IND f LE CO 1)(EN GOTO I) l.'

I 1

(>0 fiND T l E 70 THFN GOTO 9 l -'I t 't /:

f>N))

1 Lt: Bu t'HEN GOTO 10 t

> f 0:

Al(D T l.E 90 ThEN GOTO 11 s

~

1

> ~ f 9) f)S()

T LC IVO THEN GOTO 12 AND 'r LE 110 Thf"N GOTO 13 I ~

1 1

110 ANI) 1 LE 120 TIIEN GOTO 1/i 1

('I I 1 'I > nial) f LE 1 t)0 7'leFN GOTO 15 I (II 1 f>O ANI) T Li' 40 Tl(EN GOTO 16 (il';:4.i AND T (.E 3>)0 THEN GO 0 17 I

1 (a f ei(> ANI) T LE 3CO T>IEN GOTO 18 t

~

f G>l 3CO AND T LC 415 THEN GOTO 19 I (

I 41.

AND T LE EniDTEST 1HEN GOTO 20

~ e

~

~ l>:r I n>t, TIIE 1 Et'>t>LRATUf(ES FOR EACH OF THE SEGt".ENTS 1)A >9/. I.>>.

1 lf>-('le/9) e (TTA-3~. 0)

) f>le-'TTA+ ='73. 0 ii01 0

)o4 1

0 S

tl

z

~"I~ ~1? HHr(

~ ~..? '/

1 9 Q

Irk r)

'>? 'S 100 c '3

~ ',

~ ~ Ir 1 ~ I

?r 1:o I

~ > <

~ ?

I I

~

~ <;. ~ ~

', I7

~

~

~

~ j Ic( INGFORHVAC7 Tl A=TTA+37. 0 GOTO 100 TTA= 1

1. 0 TTA=(5/9) <<(TTA-3~~. 0)

TTA?zTTA+~~73. 0 GOTO 100 TTA~-0. 1757<<T+203. 90 TTA=(5/9) <<(TTA-32. 0)

TTA~TTA+273.0 IF TTA LT TTS TKEN GOTO 101 9=X-(Y<<((1. 0/TTA)(1. 0/TTS)))

A<<EXP(D)

T~:=TS<<A t4(;XT TINE IIOL>i<S~TS/60 0 l)AYS-"TS/1440. 0 PRlKTER ON PR INT EA. TS, HOURS. DAYS PRIN'(ER OFF TS

>)

ri(Xi GA Er>D 18(04:00

~~7 SEP 1986 o

(p (p

1

l.OS".OF l;>1

~ t.7

~ '.>

~

J I.

~

~

~

~

l. 'e
l. a,.

~ '>

>>VAC PROFILE FOR I'1INUTES 878 5~1 990.4144 1118. 9699 1 ='66. 4627 1I> 5. 84 '6 1630. 539 181>4. 5293 112. 4405 2409. 6508

='7:>". 4163

. 148. 0161 3604. 924

>>1""-. 0074 4743. 761

>4") 5 i98 6':i 9. 0791 7217. 4i67>=

THE ECWS RN IS HOURS 1ji. 6376

16. 5069
18. 6495
21. 1077
23. 9307
27. 1756
30. 9088
35. 2073
40. 1608 45 87 6
52. I>669
60. 0821
68. 88 5
79. 0627
90. 843 104. 4847 120. 2911 EQUIVALENT TO THE FOI LOWING TINE AT 104Fl DAYS

.6099

~ 6878

.7771

.8795

~ 9971

1. 1323 1 ~ 2879
1. 467
1. 6734
1. 9114
2. 1861
2. 5034
2. 8701
3. 2943
3. 7851
4. 3535
5. 0121

~

~

~

~

~

'>>>rtr SPI r

>,r\\

~

>> ~

' ' r' r ~ >~

~ ~ >9

~ r

~ ', I

>r

~ l~l6

"~:7 IS> I>ab f'OA HVAC8 t t)A1

-THC LOSS OF HVAC PROFILE FOA THE CONT RM ZS EQUIVAI ENT TO THE FOLLOWING TIME AT 80F>"

gf)A-s<<CA MINUTES HOURS DAYS" PicltlY(.fl ON PAIN I tlf)AI ll>lINT HDA8

>>f<INT> A OFF

~ >> ~ il)tF1NE THE, FOLLOWING TEAMS r s ill. INPUT THE DESIRCD LENGTH OF TIME SEGMENT THAT EACH EVALUAT10N SHALL BE PERFORMED.

T>1~1 t

> ~ ~ >>sr-'.

INPUT THE TOTAL EVALUATION DURATION DTCST=/

~.'.

INPUT THE MAXIMUM AMBIENT TEMPERATURE FOR THIS AALA IN DEGREES F.

-:rs>>80. 0 YTS-(G/9)s (TYS-38. 0)

TfS,TT9~273 0

18>81>27 7 SEP 1988

~

'r

~ ~ r

'ft>>EI'E CONSTANTS AAE NOT MODIFIED s'.t>> =0. 000>>)8617 X "'LN(1 A)

TS~u i.s)A I.sls 0. J>0 YO ~ ~ 0 STEP 0. I Y= Err/HB FOA I I 'Ai>>) IO (TNI)TEF>T STEP 1A s

~

~

~

( 0 1(t ftCC MIDI 0INY OF EACH T I('1E SEGMENT I" > I'l>>E+ (Tft/~. 0)

~

~

~

~

is-'

ii 1

i>'

IF 1

>F 1'-

'I lt' ls 1

is I

I

,s t

i I

lr

(

s

~

t I

l T

)

ls I

l>6f IN(-. ThE TIN(I SEGl'lEN'fS FOfl TIRE HVAC PROFILE UNDER CONSIDERATION

s rND 1'C 0 THCN GOTO I Ul VD (tie Y l.E 10 'fttf:N GOTO 2 Gf 10 At>>f) f I.E IG Yt(EN GOTO 3 I's ( ).i t'lt>I) 1 I.i's'>

'I t>>E(>>t GOTO t';:f> n>>O T

1.E 30 THEN GOTO 8

('s

.0 (i>>I) 1

(.E Jss.'s 1'hEN G()TO 6 t'

ss>.'t'>D 1

L E

. s)

Tt(EN GOTO 7

> =:

Awlt T (.E 6

> YHLN GO1O 8 c'I 60 t)t>> I) f LE

/s> Tft(.N GOTO 9

( ~ ~ / ~.>

()sttf> 'f L f Qr'>

1 I l( 'N GOTO I s,>

ss l')f> t;ttD I (.E ')0 1'HEN Gl)TO 11 s: i (1MD T (.E IV0 Ttlf N GVTV I 9 c I l>>J

~

>1N()

1 t

I=.

I 10 1t Et>>t GOTO I

4>

I 10 tl.tl) 'l LL'='s>

11>CN GUT() I J>

(

I 1 -;

f>ND f LI: 180 1HLN G()10 c.ri l8>>',r At)i) 1 LE

. J>>0 'ltlLN GOTO 16

( 1

=':> AND 1'E

~ 00 1tlFN GOi'0 17 I;:

Si>f> IlNI)

I

(.E 3c0 TflfN fiOTO 18 Gl 3>

s'> AND I Lf Js 15 THc N GOTO 19 f

i I'wl) 'I LE ENDYEST YIIEN GOTO 80 W

4 ~h ni

~

I

~

~

~ ~ I:t't>>lf: T) IL YEM(>EAATUf(ES FOR EACH OF THE SE(iMENTS I:>1-cs'/

Jr /

).<
,/a) a ( rYf1-3=-.0) 1>>1 rYA =-73. 0

(>.s Tf)

I (>0 p

0>

0

.'i>lin>'1

. 1OT I 6

~

~ ~ <<4 s

~.a

~ r(r(.8<<

~ '.?

~a sl <<8 I

~ rt'

>.s'/v

~ sar r'

~ ra ~ rr2

~ a

~/'

s.<<.I4

~ 'r 'a

~ ~

tr

'?/

I~ ~ r i"

a)

/

~.s

~.ta>

~ s"

~ ~

~ 4 a

a Sg

~

a

~ s'0

~

~ r s

FOT< HVAC8 TTA~92. 47 TTA=(5/9) <<(TTA-32. 0),

Tfns<TTA+273. 0 GOTO 100 TTA=94. 27 TTA=(5/9) <<(TTA-32. 0)

TTR=TTA<<27$. 0 Gi>TO 100 TTA=97. 09 TTA=(5/9) <<(TTA-32. 0)

TTA<sTTA+273. 0 GOTO 100 TTA=99. 19 TTR~(5/9) <<(TTA-.2. 0)

= TfAs<TTR+273. 0

(>OTO 100 TTA=.100. 8 fT<<l= (~w/9) <<(TTA-32. 0)

TTA=TTA+273. 0 6010 lv0 T Tnt=102.

1

'r TA=('.r/9) s< (TTA-32. 0)

T 1 sl=TTA<<2?3. 0 6010 100 r Tn=-103. =-

TT(>=(!'r/9) ~ (TTA-.-. 0)

TTA<<sTTA< 73. 0 i>010 100 TTA 1(>4. 1>> ~

Tins><5/9) ~ (TTn-32. 0>

T fn=1 1'n <<27.. 0 601 0

> s.>0 T ls<

(I

~ 0 7 >sl- <:r/9) ~ (T <A-32. 0) 1 1 >1= 1'1 rl < 27

. 0

(>01 0

> s.>v f f> s.s >0:r, 7 1

> r >= <:./.>) ~

< 77r>-32, 0>

l,n=f1'A ~ ~:7

. 0 i.u> 0

> ~ ss.s 1 tn l(rs'. 4 1;>s" < r/9> ~ (TTA-3::. u) l >>1. 1 f<l>:.7:. 0 s

~asl (J 1

~ ln

~ ~

>('/

l <rs - <:./ J>

~ <'rln-3-. 0>

l Isl>f Tss ~ ~~7.0

!>u>0 l(sv

~ ~

1 1',> ~ 3

.s:>- ("/>> ~ <7.rr(-32. ()

1 TO=i 1 A '73. v (rulG 10v f fr < '-'

1 ~. 9 1 l ~ '>St< r/9> ~ (T7n 3<<'2 0) f 1'sl-1TAi27

~. 0 (rJ>0 100

'r fn=>15. 2

'> >g ~ >< ~ ( I'>) a ITTA 3>

r>)

~

at

~

18>22: 14 27 SE(> 1988

f<<ei DR<>It>>I '

>>>I,= ~ I,:~ I SI f>XG FOR HVAC8 T1 A<>TTA~278. 0 GD I 0 100 TTA=1 19 0, TTA=(5/9)

(TTA-

. 0)

TTA=TTA+87. 0 GOTO 100.

18<<>SID~

7

.>f.P 1988

<v

>'I. I e.e I

~ ?

~r'4

'at:~

~ ~ 1.> /

I ~

~ I ~ ~ \\,I

<e'1

~ ~ I -<-

~ ~ I

' I-~ 4

~ e ~ >> I'

~ ~

'e ~

I <.I<,'>

>I< ~

T f>ID-0. I4S0>>T~179. 18 TTA=(5/9)>>(TTA-3~~. 0)

TTA>>=TTA+273.0 IF TTA LT TTS THEN GOTO 101 8= X-(Y>>((1.0/TTA)(1. 0/TTS)))

fl-'E..XP(8)

TS=TS< n t>>ILXi TII>>IE I(OIL)IIS.-I>D/60. 0 l)AYS-TS/1440. 0 Pi<I(IT(-:R OW PR I <41 EA, T., HOUR, DAYS l>RlII'll:R Qi:F T!>..<>

.< Xl C<l I-I>>l) 0 nl (P

>>1<

LL>SS LA 1

7

~ l s.

1 /

OF ISVAC PROFILE FOR MINUTES 1455. 2151 1775. 0226

. 17". 80 6 2668. 4678 3287. 1518

~

4060. 618>>

50:".9. 0345 t'

~ wQ7

//67. 604>>

9C83. 7369 12095. 1166 l 5 133. 06C 1 1 i>964. 3391

lis.>O. 8039

-".>91 1. /9is7

~/1.>>9 9t>53 474 l. 0916 THE CONT RN IS HOURS

24. 2536 29.5837
36. 2134
44. 4745 54 ~ 7859
67. 677
83. 8172 104 ~ 0539 129..4601 161. 3956 201. 5853

>>i->>>>178 316- 0723 396. 6801 498. 53 627. 3318 790. 3515 EQUIVALENT TO THE DAYS

1. 0106 le 2327 1 ~ 5089
1. 8531
2. 2827
2. 8199
3. 4924
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FUSE CONSTRUCTION AND OPERATION The typical fuse consists of an element which is body. The element is welded or soldered to the fuse contacts (blades or ferrules).

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The element is a calibrated conductor. Its confi uration, its mass. and the materials em lo ed are varied to achieve the desired electrical and thermal charac~teriattc

. The etemect rcvidea the current path through the fuse. It enerates heat at a load current.

The heat generated by the element is absorbed by the fillerand passed throvgh the fuse body to the surrovnding air. A tiller svch as quartz sand provides effective heat transfer and allows for the small element cross-section typical in modern

'uses.

The effective heat transfer allows the fuse to carry harmless overloads. The small element cross-DEFINITIONS Ampacity-The current a conductor can carry continuously without exceeding its temperature rating. Ampacity is a function ot cable size, insulation type and the conditions of use.

Ampere Rating The continuous current carrying capability of a fuse under defined laboratory conditions. The ampere rating is marked on each fuse. Class L fuses ana E.

rated fuses may be loaded to 100'.~ of!heir ar,."ere rating. For all other fuses. ccn!inuous io 0 c rier!

should not exceed 80'.o ot fuse ampere ra!irg.

Available Fault Current The max:mum short circuit current '!r.a! can i'oiv ii an unprotected circuit.

Bolt-ln Fuse A luSe whiChiS in!ended!O be CC",ea C:eC"y 'O"-'-'"

baiS. Contract p3QS Or tuse 8'.Ccks section melts quickly u'nder short circvit conditions.

arc energy when the fuse clears. an overload or short circuit.

4 Vlhen a sustained overload occurs, the element will.,

generate heat at a faster rate than the heat can be '.:

passed to the filler. If the overload persists, the element willreach its melting point and open.

increasing the applied current witt heat the element faster and cause the fuse to open sooner. Thus fuses have an inverse time current characteristic.

i.e., the reater the overcurrent lhe less time required for the tuse to open the circuit.

This charactenstic is desirable because it parallels the characteristics of conductors, motors, transformers and other electrical apparatus.

This equipment can carry low level overloads for relatively long times without damage. However, under high current conditions damage can occur quickly. Because of its inverse time current

~ -

characteristic, a properly applied fuse can provide effective protection over a broad current range, from overloads to short circuits.

Contacts

--- The external live parts of the fuse which provide'ontinuity be!ween the fuse and the balance of the circuit. Also referred!o as terri!es. blades or terminals.

Coordina!ion The use ol ma: n.!eecer a"0 ": nch c:rcu:t cvercv:ren! Crc:e'c:;ve c=:ic s '"htCh vittt iso!3!e C"iV'"a!

"'Gn G' i e """ i SVStc'. i'Vn C i ras

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<n with mV drop taken after the fuse has reached thermal equilibrium. Also, the body temperature is monitored (T<).

The fuse is again tesled under new conditions, that is the electrical l thermal circuit in which it will be used, The current ls stowly increased until the hot resistance is less than or equal to R~ and the body temperature is also kept to less than or equal to T>. It Is expected

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one of the parameters will be equaL to that as determined In the standard test and the other will be slightly less, It may be preferred to estimat'e a required reduction in fuse rating, due to reduced terminal connections to save testing time.Far connections with one half the cross secttonat'rea of standard test conditions, deratlng would be to 80% of nominal for 500V and lower fuses and to 85% of nominal for 600V and higher fuses as an approximation.

Air'low across the

fuse, usually in conjunction with forced cooling of thyrlstor I diode heat sinks.

Is a great aid in keeping the tuse cool. With 400 linear feet per mtnute of air or greater across the fuse, termirmt connections can be reduced to half the cross sectional area of standard fuse tests without derating.

It is also required to derate the fuse under elevated ambient conditions. The standard test condition was 25'C while fuses are expected to operate in industrial environments where maximum ambient temperatures are 40'C or even higher.

3 PHASE SOURCE 8

NEUTRAL 2FU SFU II5 TH 2TH TH DC Motor Fig, C - 1 Under elevated ambient temperature conditions, the body temperature limitation of 150'C becomes a limiting factor. Following is a formula to determine rating of fuses for temperatures above 25 C.

New Rating

= In 150 - TB 125 For example, at 40 C rating, tactor Is.938.

The fuse is an RMS device and all current calculations then must be done cn an BMS basis.

The form factor ot the current must be taken Into account.

For example, cons)der a dc motor drive controlled from a 3 pulse thyristor converter.

(Fig. C-1).

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The following is a '.',st of cualifica.ion ~efic'.qncips r>>i~r'""

~COLRf~'CWQtlBQt'4'tlZ4Q'Sf'1 QQ>.le%"AHQtPWO-s~~&94C correc=ions and/or TCR/OCR/P.O.

Supplement:

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PE 5400 u

ENVIROIDIEHTAL RUALIFICATIOH OF IE ELECT(:fCAL EQUIPIIEHT PALO VERDE MUCLE/<<( OEHERATIKrs STATION UNITS I, 2, I 3 R(Y Ol TYPE Of EQUI( It/.Nll LOCAIIOH AWIUfAC(URER MODEL No. OR ID(HIIfICAIIVI NO.

ABNORMALOR ENVIRONAKNf (2)

ACCIOENft )

IO V'IIICH OPERABILIIY ENVIRONMLAI QUAL(fIEO REQUIREthtk(5 ACCURACY OR OP(RAB ill'IY RES I'ONSE II:sf D(AHINSIRAIED RI.QL'IRftA(II(5 ACCURACY DR QUAIIflCAI(DN R(51'ONS( I(hlE R(f'UR I 6 0(MONS IRAI(,0 IhfII IOD t)UAI(f(CAf(C"I 5(A(US Itotor for High Pressure Safety Inject Ion Pump Location:

Aux(I(ary bul (ding ( I)

Vest(nghouse Lat e AC' Hotor Dlvls(on II I

I s

ff tt II H

U 17

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K rt R

p Nodal:

58IOH KP2 Systlse:

5 IS Heter S/Nt 76[6056(-I 76f60563-I 76f60564-(

77F 14115-1 77F 14116-1 77F14117-I Ttsspera ture:

104 4F Preysure:

Attoos pher(c Radlatlon:

I X IO Rads 6

HIsa ldIty:

90$ RH-CheI4. Spray:

Bone Subecr pence:

Bone Tcotperaturet 161 'F Pressure:

Atrxtspherfc Rad(at lone 2 X 10 Rads Rise( d I (yt 100'l RH Chen. Spray:

N/A Subeerpence:

N/A Continuous Operation tor 30 days totltnt(np 00E atter 40 yeal'5 ot noraa(

opera tfon opere t (on tor 160,lib hours by test

~nd analys(s ll/A lest and ana(y sls pert Vc s t lnghouse Report ttCAP-

8754, Rer I

<<lth b (bi I ography Se Isu(c per Vest(nphouse Re rt 76(60562 Env (~tel ttua(( t (ca t lan Prop ran 14273-PE-5400, av 02 Ihe tstIts t sutta aac44I ~ IIt Ass f<<tms Irstcastt I at t(II~~~

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h<<tvp el le ttat slit>>Is tt<<cj Outrr

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et t te ttta<<IL Istt ter Ou titled tor 40 yrtrt <<tti prrrr<<t ~ ttr ~

Iot<<trnsr..r (I'))

Reference btchte(sletter 8/CE-E-38247 dated I/26/82 r

(2) Reference CE Telecon Y-PSA-Z15 dated 5/ll/BZ (3) tsa(ntcnance per I.L. 3130-03 Jl QS lt 4

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FROtl ECV 4 I 2 574 5282 G

RCS/ HE(88)-519 i

i BEARING TEHPERATUR I

I BEARIliG TEHPERATUR RISE (FRONT): 33.0 DEGREES C

RISE (REAR): 32.0 DEGREES C

Suw%R ow &Z

, 13-6'c-c c.- z.cx HD,>~

i QS' oF l<

10/6/88 INSULATION SYSTEM EVALUATION i

I PI.ANT AMBIENT TEMPERATURE.: 56.9 DEGREES C

STATOR TFHP.

RISE gY RES.: 61.0 DEGREES C

HOT SPOT ALLOWANCE'I; 10.0 DEGREES C

R

'TOTAL;INSULATIONS STFH TEMPERATURE: 127.9 DEGREES C

l INSULATION SYSTEM AXIMUM TEHPERATURE ALLOWED; 155.0 DEGREES C

I THEREFORE MARGIN OF, TEMPERATURE TO THE INSULATION SYSTEM =

7. 1

'EGREES C

48.8 DEGREES F)

I BEARING EVALUATION I

+ BEARING TEMP. RIS 4

TOTAL BEARING TEMPERATURE (PLANT AMBIENT

,FRONT: 56.9 +,:,33.0

~ 89.9 DEGREES C

r:

REAR., 56;.9,+

, BEARING HAXIHUM TEM I

'-,i I THEREFORE MARGIN OF (9.2 DEGREES F)

\\

~

~

,,O...I i

ICONCLUSIONS THE FFFECT OF THE H AUXILIARYFEEDWATER 32.0

~ 88.9 DEGREES C

PERATURE ALLOWED (SHUTDOWN):

95.0 DEGREES C

(ALARM): 90.0 DEGREES C

TEHPERATURE TO THE BEARINGS-5.1 DEGREES C

IGHER PLANT,AMBIENT TEHPERATURE TO THE PUMP MOTOR BEARINGS IS THE LIMITING FACTOR.

BEARING TEHPERATURES OF 90.0 DEGRFES C CAUSES ALARM At(D 95'.0 DEGREES C CAUSES ESHUTDOWN.

THE PUHP MOTOR COULD OPEPATE CONTINUOUSLY Itt A ROOM AHBIENT TEHPERATURE OF 57.0 DEGREES C

(134.6 DEGREES F)

AND THE PUMP MOTOR COULD OPERATE FOR A SHORT PERIOD OF TIiIE (16 PIOURS OR LESS)

It( A ROOiI AHBI Et(T TEHPERATURE OF EE,O OEGRI'EE L LlllORGRREE F

RO" EFI'll, I E IIORLIFIEO LIF'ILL BE REDUC'ED IF:THE PUMP MOTOR IS OPERATED EXTENSIVELY AT THESE r881ENT TEMPERATURES..

i I

Ii ANALYSIS OF THE ESSENTIr L CCOLltlG WATER PU."P HOTOR 0

MOTOR SHOP ORDER:

77F14139,77F14140 I

i 1

1

FROII ECIJ 4 12 374 5202 RCS/HE(88)-519

~~ %Q oP BZ.

hE-EC-KC,-K~

IIO ~ 11 PAGE 4

QPlo pQ + ec Lc'0/6/88 i

1 +~~~~~~ ~

CFRL>10.07,'00 w3 I

1 PLANT AHBIENT TEMPERATURE: 131.0 DEGREES F (55,0 DEGREES C) f

'57 STATOR TEMPERATURE:RISE BY RES.:

58.0 DEGREES C

1 I

1 BEARING TEMPERATURE:RISE (FRONT): 12.5 DEGREES C

l BEARING TEMPERATURE

.: INSULATION SYSTEM EVALU I

RISE (REAR): 21.5 DEGREES C

TION PLANT AMBIENT(TEMPERATURE: 55.0 DEGREES C

STATOR TEHP.

RISE BY RES.: 58.0 DEGREES C..

(OT* SPOT ALLOWANCE : 10.0 DEGRE I

ll TOTALt INSULATlON SYSTEM TEMPERATURE: 123.0 DEGREES C

'NSULATION SYSTEM MAXIMUMTEMPERATURE ALLOMED: 155.0 DEGREE)

C THEREFORE HARGIN OF, TEHPERATURE TO THE INSULATION SYSTEM ~ 32.0 DEGREES C

5.6 DEGREES

(

7 F)

BEARING EVALUATION TOTAL BEARING TE ERATU E

P N

BIFNT + BEARIttG TEMP. RISE)

MP R

(

LA T AH FRONT: 53,0

~ 12.5, = 67,5 DEGREES C

li l

II REAR

. 55. 0.+ 21. 5 i

I BEARItIG HAXIHUH TEH

~ 76.5 DEGREES C

PERATURE ALLOMED (SHUTDOWN):

95.0 DEGREES C

(ALARM): 90.0 DEGREES C

Rlt(GS = 18.5 DEGREES C

THEREFORE HARGIN OF (33.3 DEGREES F)

TEHPERATURE TO THE BEA I;

.. CONCLUSIONS I

5 THE EFFECT OF THE HIGHER PLANT AHBIEt(T TEMPERATURE TO THE ESS'EtlTIAL COOLING MATER PUMP MOTO( BEARINGS IS THE LIMITING FACTOR.

'BEARING TEHPERATURES

.OF 90.0 DEGREES C CAUSES ALARM AtiD 95.0 DEGREES C CAUSES SHUTDOMN ~

TH'E PUMP HOTOR COULD OPERATE CONTINUOUSLY IN A ROOM A IB'IEt<T TEMPERATURE Of 68,5 DEGREES C (155.3 DEGREES F)

ANO THE PUt'.P MOTOR COULD OPERATE FOR A SHORT PERIOD OF TIME (16 HOURS OR LESS)

IN A POQ'<

AMEEEIIT TEMFEIIATE 3 FF 33.55'*EAEEE ~l.'.

FE.*.'

F.'

QUALIFIED LIFE MILL'BE REDUCED IF THE PUI,".P HOTCIR IS CPERA7EO EXTENSIVELY AT THESE AMBIENT TEMPERATURES.

fROti ECit 41 "i 574 SHt 8o sr-Bz 13-+C.-CC. 'Z~

H0.11 PAGE 5

Ram ~

pp &os lc i

i I

I E

/HE(88)-519 ANALYSIS OF' RCS 10/6/88 HE HIGH PRESSURE SAFETY INECTION PUMP NQTQR WW P

N HA%

r 1%

OP ORDER::ijGF60561,

77F14115, 77F14116, 77F14117 Il W

1 I

I MOTOR SH l

PLANT. AM l

ERATURE. 136i2 DEGREES F (57.9 DEGREES C)

BIENT TEMP STATOR TEMPERATURE BEARING 'TEMPERATUR BEARING TEHPERATUR

'j INSULATION SYSTEM. EVALU

'. 1 I

'- RISE BY RES.: 74,0 DEGREES C

~

~

E RISE (FRONT): 13.0 DEGREES C

RISE (REAR): 16.0 DEGREES C

TION

.'PLANT AMBIENT. TEHPERATURE:. 57.9 DEGREES C

'TATOR TEMP. RISE BY RES.: 74.0 DEGREES C

I

. HQT SPOT= ALLOMAttCE: 10.0 DEGREES C

TOTAL INSULATIQN S)STEM TEHPERATURE: 141.9 DEGREES C

~

I tl, INSULATIQN'SYSTEM MAXIMUM TEHPERATURE ALLOWED: 155.0 C

~

I

'I I

~

I

'c

(

', 'EARING E

'OTA VALUATION p

L,BEARING TEMPERATURE (PLANT AMBIENT + BEARING TEMP. RISE) t FRONT: 57.9 +'l3.0 70.9 DEGREES C

REAR; 57.9 +,l16.0 73.9 DEGREES C

BEARIttG MAXIMUMTEMPERATURE ALLOMED (SHUTDOMtt) '

95r0 DEGREES C

I (ALARM). 90,0 DEGREES C i I

. THEREFORE MARGIN OF, TEMPERATURE TO THE BEARINGS

= 21.]

DEGREES C

F R SHUTCQ"N Al/D 15.]

DEGREES C (29.0 Dc F)

I

.GREES lI (38.0, DEGREES F)

FOR ALARM).

I

.'ONCLUSIONS i

THE EFFECT OF TllE HIGHER PLANT t s8IE iT TEMPS.P~TURE TO Tl llIGH PRESSURE SAFETY INJECTION P",",P Hi0!CR IttsULATIC.'t SYSTEM IS Tll" LIMITING FACTOR ~

THE MAXIMUM TC.:PEP~TURE. ALLC'nEQ I GR THE ItlSULATIOt< SYSTEM IS 155r0 OfGREES C.

THEREFORE THE t'>%XI"JN RCGM TEMPERATURE CONSIOERltlG Tttg INSULATION SYSTEM IS 7.1...0 DEGREES C

"j)t:.,";t",,i':;::""'.:.i.'-'

I THEREFORE MARGIN QF TEHPERATURE TO THE INSULATIQN SYSTEH 13.1

DEGREES C

23.6 DFGREES F)

J

~J

HE(88)-519 RCS/

I FROII ECLI 412: 374 5282 I

I

.1 ~

I (FRI )IOoOF'o '88 1~149 S~Tt QL a~ EZ yp-E'C.KC.-~

NO. 11 PAGE 6

gent o

\\

10/6/88 1

I LL BE 1t SURE SAFETY INJECTION AND CONTAIHHEHT SPRAY tI

~

~

I ANALYSIS OF THE LOW PRE IPURP. IIOTORS I

HOTQR SHOP ORDER; 76F60580, 84F32222 I

DEGREES C

159.8 D GREES F

HOWEVER, THE QUALIFIED LIFE WI GR A LY RFOUCED IF,)THE PUHP HOTOR IS OPERATED EXTENSIVELY AT, THESE AHBIENT TEHP RATURES.

i t

~ PLANT AMBIENT TEHP RATURE: 135.8 DEGREES F (57.7 DEGREES C)

STATOR TEMPERATURE RISE BY RES.: 75,0 DEGREES C

BEARING TEHPERATUR RISE (TOP): 16.5 DEGREES C, t

.I BEARING TEMPERATURE RISE (BOTTOM): 39.0 DEGREES C

~

d

INSULATIOH SYSTEH EVALUATION 1

I ll PLANT AMBIENT'TEHPERATURE:. 57.7 DEGREES C

STATOR TEMP. RISE BY RES,; 75.0 DEGREES C

HOT SPOT ALLOWANCE ; 10.0 DEGREES C

i TOTAL,INSULATIOH SYSTEH TEMPERATURE. 142.7 DEGREES C

1 t

I

.INSULATION SYSTEM MAXIMUM TEMPERATURE ALLOWED: 155.0 DEGREES C

lI I

THEREFORE MARGIN OF, TEHPERATURE TO THE INSULATION SYSTEM = 12.3 DEGREES C (22.1 DEGREES F)

I

'I t

4 t

BOTTOM: 57.7

+ 39.0 96.7 DEGREES C

i l

. BEARING BVALUATIOII 1

I j

.TOTAL BEARING TEMPERATURE (PLANT Ai"iBIENT + BEARING TEMP, RiSE)

I TOP: 57.7 '+ 16.5 ~, 4,2 DEGREES C

~

~

BEARING MAXIMUM TEM ERATURE ALLO'rt 0 (SHUTDO'a'tt}:

95.0 DEGREES C

(ALnRtt}. 90.0 DEGREES C

CONCLUSIONS THE EFFECT OF THE HIGHER PLAittT AtMBIEHT T t".PELATVRE TO THE LG'tt PRESSURE SAFETY INJECTION AND COttTAINMEttT SPRAY PUMP MOTOR OE'RINGS IS THE LIMITING FACTOR.

BEARittG TEMPERATURES OF 90.0 DEGREES C

CAUSES AL>',R,'>

II I

I I

Jl

FROtf ECLI 412 274 2282

~

~

C I

RCS/ME(88)-519

,P,~c.ve~v

'D

<FRI )10,07

~ '88 1

t50 s~m &Zcc 4

~4-E'C-Cc-~

110 ~ 11 PAGE 7

gZPV C PCi I.b OC I~

10/6/88 I

VFR, OPERATION OF THE MOTOR BEYOND 6 HOURS AT F 57.7 DEGREES C (135.8 DEGREES F)

MOULD I ING LIFE AND THE INSULATION SYSTEM'S QUALIFIED (6 HOURS OR LESS),

HOME AN AMBIENT!TEMPERATURE 5

~.SEVERELY REDUCE THE,BEAR

, LIFE.,

I

+ ~

~ $

~

1

,.;:.:G,c,m:;4
".R.P.

MESSEL~

.'T QUALIFICATION AND TESTING PSD EQUI,PME I

AND 95.0 DEGREES C CAUSES SHUTDOMN.

ALTHOUGH THE MAXIMUM BOTTOM:

BEARING TEMPERATURE OF

$I6.7 DEGREES C BASED ON, CONTINUOUS OPERATION

.EXCEEDS THE HAXIHUM BEARING SHUTDOMN TEMPERATURE ALLOWABLE, THE ACTUAL BEARING TEMPERATURE FOUI,D BE LESS THAN 95 DEGREES C SINCE THE TIME THAT THE MOTOR IS AT 57'7 DEGREES C (135.8 DEGREES F) IS A SHORT.

.PERIOD OF TIME., THIS Ik BECAUSE THE TEMPERATURE TRANSIENT SUPPLIED BY ANPP STARTS AT 40 DEGREES C AND CLIMBS TO 57.7 DEGREES C IN 415

'.'MINUTES, THEN THE TEMPERATURE DECREASES TO 40 DEGREES C OVER THE,NEXT 5 HOURS.

OPERATION OF T}jE MOTOR AT A 57.7 DEGREES C (135.8 DEGREES F)

AMBIENT.TEMPERATURE MOULD. BE. POSSIBLE FOR A SHORT PERIOD OF TIHE '

A.A.,ANDERSON.

'NSD REPLACEMENT

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LINDSAY

NSO REPLACEMENT T SERVICES COMPONEN I

~

I COMPONENT SERVICES

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