loss of qualified life & functionality of electrical ... · the seven -neur oref ile in which...
TRANSCRIPT
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The f"in .i 2'B.l (ll. or l; >(; "-.lb.ii;.;Breef'(=.Bertts tn(.'.,u vs lerii
A 1 fnes for Bacn act 1 vat iori Pne? Ovc " 'l(. S i 'x fna>( 'ilufn lfnb 1P.ri
s.. '( VaTie'P Abel~at((? e was able toi ie. Trl1s cari al so DB considered the'r- l 1 Te r 2 DOSt aCC1 dent OOB2 ab1 1 ltV
D. INPi ( i DATA
Rt-'Dfnal idr BStis s
loss of riVAC tefnbenatul B Dl rtfi les wPre obtairted ft ofil La't(lat 1onMC-EC-~53«APDendi >( D ' which tne cur ve was rnooe 1 ed in 5 miriutee'nts 2'o. 'the fil st 0 M'-r(((t Bs. 10 fnin((te segfnents to 12'0 fAlnutes1n 60 fi(1'nut e segMPnt s vo tnB P'no c T tne n1 s 1l io Dl ol 1 lP Theored HVAC Dnofile was nebl eser(red as a slooe and y-intercebt aridufnrnari "Bd as fo" lows2
PRBN N(AME LOCA: I QNi S(LQ DE Y-INTERCEPT
HVAC1HVACRHVAC3HVAC4HVAC5HVAC6HVAC7HVAC8
ELECT PE RMSMRB RNAF tP RMHPS I R>vi
LPSI RM
CSP RMECWS>
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~
I g I+c! v+L~14. 65+-08. 45~-203. 90+<79. 18
PRBN MANE LQCATIQN
E. CALCULATIONS AND R(=SULTS,.
The Dr oonarns used to obt a1n.. tace iderii obenabi l i t y and the
'I
he neduct ions in aualif'ied life/PostDrintout of the .nesults are attached.
. 'PAS=St >
HVAC'1HVAC""HVAC."HVAC4HVAC5HVAC6HVAC7HVAC8
EL'ECT PE RNSWRG RNAFP RNHPSI RNLPS I RiM
CSP RNECWS RM
CQNT RN
r'~ c '~ .
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The l Bsult S Ol the SBVeri lvSS OT HVAC Dl Of ileS fOl the Dual ifi ed 1 i l.eDvst acciderit ober'abi l ity ctbnsurned iri houns is surilfilal"1 Bd iri tnefol lowir>o table fof a low. 10 deql ee C nule. riofil1lial hi Oh, and h1on
activation er(el oy.
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ENGINEERING SKETCH PADBY
perry'JZ)SB(4E"~ o/- CRENA//=/cD Zu=
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e 'vaded service ternoena~ u1' is noi canst arii out r isesex oorierii I al 1 v 1 o1 the fi1'st 41 5 minutes and Eiecneases back to thestare i rig t ernoenat une iri the next r ive haul-5. it is necessar y tooerfai rn the evaluation iri sufficxeritly small time seqmenis so thaiaceuna 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 theent irc 715 rninuie lass of'VAC or af i le.
The first 415 rninuies in which tne ternoenatu e is rising isreoresented bY segrnerited sieos in which each seornent uses the highestternoenatune within that segrnerit; This elirninaies the neeo ta modelthis oart af the orafi'e as a sinole ar series of exoanentialeouat ions in acidii iori to being a mar p cariservat ive aooroaeh.
The rernainirio 5 hours is modeled as a linear'irie iri the fal rn c f ymx + b wher e it 1 5 a55E1filed that - ihe" room amb ient. t ernoerat ur e st art sdeerea ing 1inenaily at 415 rninuies back ta the sta~t inn tefnoenatuneat the end af 715 minutes.
The cornouter ized Arrhenius teehniaue oenfanrned the analysis orily inthose 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 theFSAR rnaxirnum arnbierit ternoenature, this would have the effect c fadding less than,orie. minute of nea'1 t ime value c ver the arialyzed one
'"minute i irne 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 elevatedternoerature, ihe 'analysis is anly aoolicable for a lass of HVAC whi lethe o1 ant i5 iri riorrna 1 ooerat irio coric it ioris which is consist ant withthe sir ole failure cl-iter ia.
The deterrninaiiori of the oast acciderit ooerability dernonstnaied bvincor oarat ion of tne elevated max irnurn ambi crit reouires thai ihetefnoenature r i e cve1 irle atilbierii be carisidered sirice the 1f)CFR~fi ~ 4pE'.oui orneni ha-. beeri ca 1 led inio service arid may exoerierice se. fheat inq whi ch wi1 1 increa -e the ser vice ternoenatul-e. !t rieeds to bef etef'rniried if'he elevated arnbierit temoerature at tne start ofLOCA/NSf F< wil1 subtl aet f1 ofn the onesent post acciderii aoevaoi lityor esent ly deterfnined t a such a degree that the 18>~ciay olus 111/
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The re ults of the anaiysis for the sever( icienii fied iacatiorisiridicaies ihat fctr a wide r'arine af act 1 vat ict'I'1 enemies ihe aualif iecilife ar the oost aceicient oaerabi1ity is not siariificant ly aitered.The seven -neur oref ile in which the HVAC is nat oreserit or isreturnirin t')e roam ternoeraiures to norma1 iranslates irita hours thataualified life or oo t aceinent aoerabiiitv demonstrated is reduced.
»
The worst case situai.ion which was the contr al buildir)o had a 129. 46hcur loss of auaiified iife cr 0.0148 vears for a nominal hinnact ivat ien er)erqy ar 1. P. eV.'he norninai hinh act ivat ian eneroyrear esenis ihe tyoical hi oh end act ivaiian ener gy norrnailyerieount Bred w it h t ne mast carnrnon 1 y used rien met a i 1 ie corn oonent s. I r acornoanent 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 itemwas eniy aualified fctr 5 years. Similarly if ihe 790. 35 hcur loss afauai ified 3. ifB is considered this wi 3. i translate inta a 0 226% la55if the original aualified -life was 40 years and 1.8/ if-the aualified1 i fe was 5 years. This 'is "nat sicirii'ficant because:
'» ~ ~
1 ~ rauiornerit is eoriservat itvel'y 'aoeci by use or. crtriservaiiveaciivatiari Bneroies»ar )additional" aoinn time added ta thecalculated reauired time. CDesinnaiea aualif ied lives'retyoical ly rouncied down or are nreater by factors in excessof 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 mildenvironment and did not oraduce 'losses in aual i fi ed 1 i fe which
a> e carisidered unacceota'ble. Safeiv related eauiornerit a< 1 f1(. Cf R5( ) ~ 49 wctul d Bxoel 1 Br)ce 1 ossBs of aua 1 i f'ied 1 i f( t rni(chless than t ilB wot st case 51t L(ai 1»on d1 sc(.(s5Bd,
4 ~ 10CFR50. 49 Baui ornent is aual i fied ia a oostaccident'f'
e - ' 'ooerabi 1 iiy af. 182 davs alus a tniriirnurn af'0% rnarnin in~ .. 1r) excessits aual i fied l i fe arid t'e rninirnurn ctr -00 davs oestaecicierit gual i ficlt i =ri i c= r) ervaiivel v deiermined.
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PROGRAMOOO l0002v003Ovl.>4OV0500060007OO(>8v0090010Ov1 1
00120013001400150016(>0170018001900200021OOP20023OO 4OO 50026n(27)0'8'. 0-'9IO I,>3l,lO(>31l)lI
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AI >55> l(l(>55I ")57l)(>58vvI«'>COII'F 1
««»» GO TO THE MIDPOINT OF EACH TINE SEGMENTT>IT ICE+ (TA/2. 0)
I« ~ ««DEFIML= THE TINE'SEGMENTS FOR THE HVAC PROFILE UNDER CONSIDERATIOMIF T GT 00 AND T LE 05 THEN GOTO IIF T GT 05 AMD T LE 10 THEN GOTO 2IF T GT 10 AND T LE 15,THEN GOTO 3IF T GT 15 AND T LE 20 'THEN GOTOIF T GT 20 AND T LE 30 THEN GOTO 5IF T GT 30 AMD T LE 40 THEN GOTO 6IF T GT 40 AND T LE 50 THEN GOTO 7IF r'T '0 ANI) T LE 60 THEN GOTO 8IF T GT 60 AND T LE 70'THEN GOTO 9IF T GT 70 AND T LC 80 THEN GOTO 10Il= T GT 80 AND T LE 90 THEN GOTO 11'F T GT 90 AMD T LE 100 THEM GOTO 12IF T GT 100 AND T LE 110 THEN GO10 13IF T GT 110 AND T L'E 1 0 THEN GOTO 14IF T GT 120 AND T LE 180 THEN GOTO 15IF T GT 180 AND T LE 240 THEM GOTO 16iF T GT 240 AND T LE'300 THEN GOTO 17I' GT 300 AND T LE 360 THEN GOTO 18IF T Gl'60 AND T LE 415 THEN GOTO 19IF T GT 415 AND T LE ENDTEST THEN GOTO 20
~ « ~ « DEFINE THE TEMPERATURES FOR EACH OF THE SEGMENTSTTA«90. 76TTA~(5/9) «(TTA-32> 0)TTA>>TTA+273, 0GOTO 100TTAI 92. 48TTA-(5i9>« (TTA-32. 0>TTA TTAi273. 0
5 g
qn~\
Oq+AmI
LISTING FOR HVAC1 ~ 16:BC:Ol .:7 '..'> l i ~ I ~
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 ONPRINT HDR1PRINT HDR2PRINTER 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 DURATIONENDTEST=715
««.««3. INPUT THE MAXIMUM AMBIENT TEMPERATURE FOR THIS AREA IN DEGREES F.TTSI>104. 0TTS>I (5/9)» (TTS-32. 0)TTS~TYS+273. 0
THESE CONSTANTS ARE NOT NODIFIEDKB«0. 00008617X>ILN(TA)TSMO
FOR "EA=O 40 TO '2. 0 STEP 0. 1YI*EA/KBFOR TINE=0 TO ENDTEST STEP TA
>IRQG
(OF 3cJ0640> >65Cs(s6 60067~ >0680069vo /00(> /1i~CJ /2v07-0074AA'/5i)076v >77007800790080v081O(ih200(]3A(>840<J85008Cos>87~)0880>.>89) >90
~ >091
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FOR HVRC1TTR 93.65TTA (5/9) «(TTA-32. 0)TTA=TTA+273. 0GOTO 100TTA=94 58TTA~ (5/9) «(TT4-32. 0)TTA=TTA+273. 0GOTO 100TTA=96. 05TTAII(5/9) «(TT4-32. 0)TTA=TTR+273. 0GOTO 100TTA=97. 16TTA (5/9) «(TTA-32. 0)TTA~TTA+273. 0GOTO 100TTA=98. 04iTA~(5/9) «(TTR-32. 0)TTA=TTA+273. 0GOTO 100TT4~98. 77TTA>I(5/9) «(TTA-32. 0)TTA=TTAi273.0GOTO 100TTR~99. 38TTA~ (5/9) «(TTA-32. 0)TTAI>TTR+ "73. 0GOTO 100TTA--99. 92TTA>(5/9) «(TT4-32. 0)TTA=TT4«273. 0GOTO 100TTR~]00.4TTA=(5/9)«(TTA-32.0)TTAIITin+273. 0GOTO 100TTR=100. 8TTA~(5/9)«(TTA-32. 0)TTAIITTR+273 ~ 0GOTO 100TTA=101. 2TTA (5/9) «(TTR-32. 0)TTR=TTR«273. 0GOTO 100YTA=101. CTTA= (5/9) «(TTA-32. 0)TTRI>TTA+ 73. 0GOTO 100T lt'R~]03. 611AII(5/9) «(TTA-32. 0)TrnttTTA«273 0GOTO 100Trn ]05.2T TA>l(5/9 ) «( TTA-3 ~ 0)TTA=T)A+273. 0GOTO 10O1 fn= 106. 6TTA=(5/9) «(TTA-32. 0) .TTA>lTTA+273. 0GOTO 100T ]4'tl ~ ~ l] tJ
1 6 ] s- 6 ] 4A: / . s:l l9: > ]l
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( ISTING FOR HVACI>TTA»TTA+273.0
GOTO 100TTA»109. ITTA»(~/9)«(TTA-32. 0)TTA~TTA+273.0GOTO >100
Pi(>>6RAz
» ~,r6Ol01.=80'. 29:>l -0
~ ~ l31
0(3301 .401350136
7)136Al .90140(>141.» 42
>.> 1 4 30(4>40(45014601470> 4h~ ~
100
l01
HOURS>«TS/60. 0DAYS=TS/1440.0
PRINTER ONPR INT EA, TS, HOURS. DAYSPRINTER OFFTS=0
NEXT EAEND
TTA~-0. 074/«T+139. 95TTA~ (5/9) «(TTA-32. 0)TTA~TTA+273. 0
I
IF TTA LT TTS THEN.GOTO 101B=X- (Y«( (1 ~ 0/TTA)-(1. 0/TTS) ) )A=EXP(B).TS= TS«A
NEXT TINE
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hVAC PROFILE FORMINUTES329.4107«36. 167
't3. 0938350. 1958
'57.4781364. 9455«7 . 6034
80. 4571«88. S122S~i6. 7742405. 24914 l3. 9429tc22. 86174 -?. 01441. 4004451. 03364l60. 9187
THE ELECT=- PE RM ISHOURS5. 49025. 60285. 71825. 83665. 9S86. 08246. 21016. 3416. 47526. 61296. 7S426. 8997. 04777. 20027. 35677. 51727. 682
ENT TO THE FOLLOWING TIME AT 104FcEOUIVALDAYS. 2288~ 2334. 2383. 2432. 2482. 2S34. 2588. 2642. 2698. 2755~ 2814. 2875. 2937~ 3. 3065. 3132
3201
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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 ONPRINT HDR1PRINr HDR2Pf! 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 DURATIONEt,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 MODIFfEDs(D.-(». 0(>008617X s>
s I's ( I s I )15» v
.-(>Is t.»>=0. 4v TO 2.0 STEP 0. 1
Y- f:sl>/KBssiR 'f IME»»O 10 FND'IEST STEP TA
16>44>20 "7 SEP 1988
oQ
~ ~ - 4
I>
~ ~ I
~ ~ ~ (ID Tu I'HE MID»OINT OF EACH TIME SEGI'IENTT- f I YI.+ (1 A/2. 0)
~ 1 ~
Ts >-.
is> f[" I
s ~ 'I= 1
i. 1
I>I» I
fII
I
I ~ f~ II> I
fIs'>I f
~ ~ ~ ls;t INII Tt>E TL>(it>ERATURES FOR EACH OF THE SEGMENTSI I »»~'j), 66i ~ ts» ("/')) a (TTA-32. 0)I; tl~ ITA+ 73. 06>>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 2i:T 10 At>D T I.E 15 THEN GOTO 3Gf 15 IINI) I LE 20 THEN GOTO( I': AND T LE 30 THEN GOTO Siaaf 3(> ft>'~l) T LE 40 THEN GOTO 661 4:> AND T LE 50 THEN GOTO 7s'r . V ftt>I> T LE 60 THLN GOTO 8l I 6»>ND I'E 70 THEN GOTO 9f:f /0 t>Nf) T I 6 80 TtiEN GOTO 10s:f f>,s >lNI) T 1 F. 90 1'hEN GO10 116 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 l3s>7 I IO At@I) 1 I.E 120 T>ILN GOTO 14Or 12>s AND r (E IOV 1HEN GOTO 1501 I 80 ANI> 1'L 240 Ttll;N GOTO 16(if .='4<,> ANI) f a.l= =00 1'hEN GOTO 170 I 3)0 At'll) T Li 360 THFN GOTO 18i" 360 AND 1 I.E 41S 1'hEN GOTO 19i> I" 415 AND 1'E ENDTEST THEN GOTO 20 6l
n
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OiA IIVACT 1 A=9S. 97I ii)= (S/9) cr (YYA-32-0)TTA=TTA+273.0GOTO 100'I TA=97. 37YTA~(S/9) I (TTA-3~~. 0)TI A>>TT>1+27 . 0Gi)TO 100 ~ I1'TA=99. S8i s ils> (5/9) CI < TTA-32. 0)f i A»TTA>273. 0
60'TO 100'I TA=101. 2I Til=(5/9) a (TTA- 0)Y>r'1»T'TA+I"/.. 0Gvl'0 100Y T>1'= I 0~~) 61 TA=('a/9) ~ (TTA- R. 0)I ail>>TYA+273. 0
I!13TO 100I iA>>103.7
1 i>i= (S/9) r (TTf)-32. 0): sA T)A+ 7 .v
~!010 100'i TA='IVIi.CI fil~(S/9) ~ ( TTA-.-'.0)I I il=YI sir>-.)7 ". Viii)1 O I 00'f frl -10~>. I>
I f«.=<:,/i» <1rf)-3". 0)f!is'-1 iA>~~73. V
i.-<)l 0 I 0<>
I ~ ~ ~ I i>(r1 Tsr>'- (ijl'J ) ~ (11f>-~~. I >) ~
i ail- Tl >1+'"73. 0~:v I f) I <a(r
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I 'I> iss iS/'.)) ~ (l l ai-3:".. as>
.! ils> I I >)~: 7 ': 0' -as>I II>s>
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1 . s ~ . i ii)r,"g >. 0; ~ 1 i 0 I i>i>
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is- I if>a.(73. V"r'I i) I ~ >I.'s
Il l. I~ ~ 'I- („:/9) ~ < T (A-3I ~ I 1 s f> I a.;. 7 3. 0's > f) 10<>
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>,'I''.a/9) > (T (As-3~. V)f ~ As 7 fA ra~73 ~ V.!~1>ii 100'I TA~ I IS. 7
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iSTIAG FOff HVAC2TTA'=TTA+273. 0GOTO'100TTA=-119;TTA~ (5/9) «(TTA-32. 0)TTA=TTA+273. 06Ol'0 1 00
S
YTA -0. 114$ +T~166. 51TTA= (S/9) + <TTA-32. 0)TTA=TTA+273.0
fif'TA LT TTS THEN GOTO 101B~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.
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f fuL«S.= TS/60. 0f)AY '-'TS/1440. 0
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l. v/
~ 8l. 9
HVAC PR(3FILE FORMINUTES623. 2917663. 8786707. 6 297S4. 8211805.'7335860. 6859920. 0219984 '1591053. 37511128. 24.41209. 2041296. 78.61391. 5561494. 1464160S. 2.651725. 56951855. 95S6
THL= SWGR RMflOLJRS10 38821 1 064611. 793912. 580413. 428914. 34481S. 333716. 401917. S56318. 804120. 153421 ~ 613123. 192624. 902426. 753928. 759S30. 9326
IS EQUIVALENT TO THE FOLLOWING TIME AT 104FlDAYS. 4328
461. 4914. 5242. 5595~ 5977. 6389. 6834~ 7315. 7a35. 8397.9005.96641 ~ 03761 ~ 1 1471. 19831. 2889
'I 'a\ ~ a, ~ „~ a< r ~ a. pa,.g ~ a ~ . r . ~ ~ ~ ~ .a. ~
a>a 'I ~ a
I'i'
~ 's I v" 2 ~ o . L>R,I AC3r Die)~- ILE LOSSIDR,~II"EA
PfciNTF>c UNr 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"
II "
pI
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~0 I 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 MODIr i 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
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'll i ~ f s.i> Lait T).=N 00 0 SA.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 8L.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 )1fl,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 ) 5I Sit Aa>f) 1 '0 TI iV GGYO 16
ra~a. 1 E 'IL>9 1'r-"N G0'iO 17A "i! T E 365 7 r..u GDYO 10rs'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>
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4 ~' .Ii s 0R wVAC3
VTA!<188. 5TTAts(5/9) I< (TTA-38« 8)Tifeis71A ~.273. 86070 I '88I Tf I 1)8. 3TTII~ (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 ',8Gu 0 )88I I»eel a 4TT Ae! (5/9< ee (TTA- . =' 8)
I« lffe / ~ .830<.0< I 887 "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 si A 3« ~ P< )f<-'! f,'e~ 7". 8
6!3 I lie~8
7 Ii«< (5/ JI ~ ( IA,~,8<T As:I'(As 7=.88070 I OD'e' » f III8, ''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/< ~
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s ~ ~ ~ I I ~ '3 ~ Ir~
< L!.I
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7 e»' 5/9< ~ < ~ iA-.)». 8)~ I I~ '~ ie ~ " I;. 8
I (edI (»' ~ ITVA<. (5/9< (TTA-38. 8)
88<37<8I 28 S=f l9&b
gP
L~ o
%~X
-uH sss/AC3T s ss~ 'TA+273. (s)
sss=1TTA-"(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 65T.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 5rsss(T 7
Ossjs15.= ~ 5/( )1. 8i'sos s~ '/ 1 ~s rsvp lb
uss- Css.s s.s<. 5. ~ OJss5. ('AY5
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LOS> UF HVAC PROFILE FORNINUTES445 033747 . 96/502. 9506535. 1444569. 7215E06. 8689646. 7009609. 7002735.8393705. 4618B.;0. 8444096. "-8659'I 0. 1 1 ) 7) 0- 4. 67041096. 34 1 81 1 /3. 53611256. 69/4
THE AFP RNHOURS7. 41727. 88208. 38250. 91919. 495410. 114510. 779011. 49512. 26413. 09113. 980714. 930115. 968517. 077810. 272419. 550920. 945
IS EQUIVALENT TO THE FOLLOWING TIDAYS. 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
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~ ~
z» ~ 9
~ ~ ~ r'
~
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~ «z 7
Ii>TIN(> FOR tlVAC4t DR1 "THE LOSS OF HVAC PROFILE FOR THE HPSI RM IS EQUIVALENT TO THE FOLLOWING TINE AT 104F>"trDRB»"FA N I NUTES HOURS DAYS"PAIN'fPR ONPRINT HDR1P)k INT ttDR2VRINTEH OFF 1
z a i iDEF INE THE FOLLOWING TERNS1 INPUT TtlE DcS I flED LENGTH OF TIt'IE SEGNENT THAT EACH EVALUATION SHALL BE PERFORNED.
TA=1I
~ ~ ~ .:. INPUT THE TOTAL EVALUATION DURATIONI.NDTC:>T»4 I
~ ~,';. Irtl'UT THE NA)(INUN ANBIENT TENPERATURE FOR THIS AREA IN DEGREES F.TTS» 1<.><> ~ 01'(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. IY .f,></t(E<
JH > Irr: '0 10 LND'IL. 1 STEP TA
~ ~ < ~ l<O 10 1HF. r'tIDPOINT Ol. EACH TINE SEGNENTf ~ l'r<l: r (TA/~. 0)
~ ~ ~ P
~'
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1
I <> 3
I >. Irr 1
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l I
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IF r
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r
I l
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~ ~ ~ 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 CONSIDERATIONl)1 0<? fiND T I.E 05 THEN GOTO II T 05 I> <I) T I.E 10 THEN GOTOG 3 1 0 Ar ID 1 I.F. 15 TtlEN GOTO 3G<'I 15 A<>l> T I E "0 TtiCN GOTO 4i'r -"0 >)NI) I LE 30 T)IEN GOTO 5i 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 9I 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 13I ~ 1 l r 0 >INI) T LE 1.~0 1l.ll=N GOTO I 4r I 1..<> fiND 3 LI: 1130 THEN GOTO 1Srlr 1&0 A&if) 1 LC»40 '(t(L<N GOTO 16O< -'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 19O1 / l AND 7 LE ENDTEST 1HCN GOTO 20
(N
) Glp
W Itr0 n
r
(, ag0
s t
. ~ sw,'s,s si:sssG FOI( Hs/AC4 17 c 14' f.7 fsEP I ')8fS
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~ H ~
' ~
s '
~ s
s ~
~ s,
TTA~ I OS. 6T T A~ (5/9) «(TTA-32. 0)TTA=YYA+c73.0GOTO 1001 fA 10/. 9Yia <sis) «< Tin-3a. o)1 ii(ss TYA+273. 0G01'0 100 IT fn=1 I I. 3f Tsl ~ (5/9) «(TTA-32. 0)T I'A~T TA+ ~73. 06010 100
Yn ll -.8
)T'ai-
< «is) «<YTA-32.0)fin=fin 973. o
ss01 0 I ouria 1)s.s
1 fn=-(."/9) «(TTA«32. 0)T fassTTA«~~73. 0Gsl10 100
~ in~1 I / 3T fas*< =iS> <TTA-3~.O)TTnss Yl'A«~~73. 0s>01 0 100
~ s'Ass I I f). 6'I
Ts A~ (S/9) «(TYA-32. 0)1 in-Tins "73. 0Gisl'0 100I 1 as= 119. 7I irs= (5/9) «. (TTA-3~~. 0)f sns- fYA« ~7 ~ . 0
sais I ii I s!<s"I I 0 = I 's.s. 7
'Ifl - <:.i ) ) ~ < 1 rn-3=. 0>: is>-TTAs.:7 .. Vuis I 0 I s!0I fss ~ Ii-',I . SI 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 0I' 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~- II Tisss (5/9) (TTA-3«' 0)
~'
~I
¹
0
' r'
l<IRr))l I
r ~ ~
' '" (9
~ »~ I — ~ ~
~ ~ (,
~,
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~ .=8
~ ~ I 1 ~ I )
~,4rI '
~ Il ~,~
~ ~ ~ ~
~ I~ ,I~ j
1 ST I."IG fOff HVAC4TTA«TTA+273. 0601'0 100f fA~1 6.2TTA«(S/9) «(TTA-32. 0)TTA-«TTA+273. 0GOTO 100
TTA=-0. 186 . «T+213. 53Tl'A=(S/9)» (TTA-32. 0)TIA«TTA+273.0
If 1TA LT TTS THEN GOTO 101D<'-(Y» ( (l. 0/TTA)-(1. 0/1 TS) ) )A*EXP(D)TS--TS< A
NIIX'f TI(<IE
) IOL)RS>»<TS/F.O. 0D lYS--1 S/1440. 0
P R I .r)T(E R OI4Pfl)hT EA.TS,HOURS, DAYSf'RI NTLR OffTS r)
r%Xl I;Ai:fiI)
17) IS) IS 27 SEP 1906
0
0
I ~ ~
1. ~ ~
l. "i
t OSS ut. Ikt/AC PROF ILF FORMINUTES762 00-109 . 1/651048. 62911=-=.".. 03091451. 9741171-. 15782021. 6103
389. 957720..8. 74693351. 8-44
)75 8564720. 79175610. 6't746674. -771/9'tD 3747946t3. C/0711291/3762
THE HPS I RNHOURS12. 714. 086317..4772-0. 550524. 199620. 53633. 693539. 832647. 145855. 863966. 264370. 679993. 5100111. 230132. 439615/. 0112100. 1896
IS EQUIVALENTDAYS. 5292~ 6203. 7202. 85631. 00831 ~ 1091 ~ 40391 ~ 65971. 96442 32772. 7613. 27833. 09634. 63495. 51836. 57557. 8412
TO THE FOLLOWING TINE AT 104F t
t
7
"'c> 4»ct>.(W ~ I
~ ~
->'P'4
~ < « ~ gz
..IS(ING FOA HVACSHDRI>c"THE LOSS OF HVAC PROFILE FOR. THE LPSI RN IS EQUIVALENT TO THE FOLLOWING TINE AT 104Fs»HDR2="EA MINUTES .. HOURS DAYS"PAINTER ONPAINT HDR1PAiNT HDRPAINTF.fl OFF
17cE'4:47 B7 SEP 1980
g pc >«J ~ ~ '>
~ « ~ «9
'=.~ l 1
>~ l ='
~
'
> ~ .>',p,~ > ~ ~
~ 7~ c
1 ~ ~
I ~
« ~ aiDEF INE THE FOLLOWING TE'RNS> «i > 1. INPUT THE DESIRED LENGTH OF>TINE SEGNENT THAT EACH EVALUATION SHALL BE PERFORMED.TA= 1 c
I
INPUT THE TOTAL EVALUATION DURATLONEr'DTFS>T~ / IS
«
~ ~ >~3. INPUT THE MAXIMUM ANBLENT TEMPERATURE FOR THIS AREA IN DEGREES F.'1'10~1>)4. 0I I. c. (S>/9) i (TTS-. ~. 0)TIS-'1 TS«27=. 0
~ ~ ~ f >>LSL CONSTANTS ARE NOT NOD IF IED>' -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> f IML-0 TO EtuDTEST STEP TA
~ ~ ~ ~ l>O TO T>IE MIDPOINT OF EAC)l TINE SEGMENTr.-.r IMfi (TA/=-. 0)
~ ~
1 i')rI «1'F
I
> I I'~ I'
l ~
I
I l
lI> I
I I
I, I
rII>'lr 1
~ ~ ~ ~ I)r F INI Tl(E TEMPERATUf(ES FOR EACH OF fHE SEGNENTS»'- I ~ »'.. 91'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)fi)l Oo AND T I.E OS THLIN GOTO I(rT OS ANI) T LE 10 T)IEN GOTO 2i>f 10 AND T LE IS THEN GOTO 30 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 CI ~ I 40 AND l I.f: . 0 T)lEN OOfO 7I» mo l lwf) T I.L CO 'fl!EN G()1 0 0
CO AND r LC /0 Tl>CN GOTO 970 f>.uD 1 l L'c'> Tl(LN GOTO 1000 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 14I r'c> l)ND T I li 100 11>FN GOTO IS
i. ~ l 8( ANI) 'f l L "40 ll>LN ( OTO 16cif ='i« ~ '> AND f l.E Sc>0 ll>EN GOTO 17( 10( nriD T Lc..60 T)IEN GOTO 180 I C 'ND 1'L 415 THEN GOTO 19()1 i>1 AND 1 LE END fEST TflEN GOTO -0
f~e
0 ~(II0fled
elf<>»I .,''i l,de(I f'Gd< HVAC5 17)25)33 27 MI> IQQO
~ > ~
es s" 5~'~
~ >
J
„d ~
> ~
~ ~, ~
~ 8~ /'1
d >-,>1I ~ ~ >
~ s>
~ g'd
~ ~
T'fn»106. /ITTA«:(>5/9) «(TTA-32. 0)TTA~TTA+273.0iuTD 100T f4~ 108. 21'. Aee (5/9) «(TT4-32. 0)TTA>sTTA«273. 060TG 100TiA=111. 1
iTA>s (5/9) «(TTA-32. 0)TfAse TTA«273. 0C>GTQ 100f fn>113. 3I I A.=( >/9) «(TTA 32. 0)1 fAs>Tl ii+2/3. 0601D 100'r rn=-115. 1
Tfil'«-(5/9)«(TTA-32. 0)f 1 4 = Tl'A+273. 0s)01D 100I ~ 4= I I G. 511A: (5/9) «('fTA-.. 0)f> sids 7 TA«273. 0
s>QTG 100rf4 117.7
.r Tele>("/9) ~ (TT ~-32,0)1 I 4- T 1 4 >273. 0I 01D le.>O
f in>»11(3. 8TTil= ('. /9) «(TTA- 2. 0)fI es= TTA«273. 0i>:ITG I e)0'I
s ~ s ~ I)9.71 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 ~ >I III,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=:.5I ~ > e = (', /'i I ~ ( TV>I-;d~. 0)
d
i~1
I
~Q(l
@>oPJ p
)f
I's'asser. aSI~ P
~ ~
I.
e.e
Ie~lG FOR I(s/AC5TTA=TTA+a73. 0GOTO 100T'fA~1 5. 8TTAss (5/9) + (TTA-32. 0)TTAas TTA+273. 0GOTO 100.
171a.61)Cr 27 SEI) ) 9isO
~ e
' ! 'e»
e rCe
; ~ e
se al
I ~ cia
s f'A=-0. I 90 t7+2) 4. 65T iAas (5/9) ~ (TTA-32. 0)TaA~TTfls273. 0
iF TTA LT CTS THEN GOTO 101I'aaX-(V «i. 0/TTA) —(1. 0/TTS)))A=E.)ifs(9)TSrTSaA
Na I( f TIN('.
IsOLlacaSa='f 5/60. 0De~ VSa=-TS/ I 440. 0
ssN i »'I I:fl Ossl
Pis IN) EA. TS, HOURSe DAYSIaf(1.'If EII OFF ~
iS .a ~
sea. XT a:ils".I .O
(/
pl
t
OF HV lC fROFILE FORMINUTES1006. 7911161. 88721344 ~ 14271558. 586218 1 l. 2092 ~
"i(5. 15.72460. 9384287o. 7-95
395 =487464 l. 81015461. 07566433. 83957!F89. /7678964. 41910600. 3282l25 sO. 5072
THE LPSI RNHOURS16. 779919. 364822. 402425. 976430. 1868ob 1 52641. 015647. 945556. 144465. 8541
.. 77. 363591 0179107. 2307126. 4963149. 407176. 6721209. 1418
IS EQUIVALENT TO THE FOLLOWINGDAYS.6992.8069~ 93341. 08241. 25781. 46471. 7091 ~ 99772o 33942. 74393 22353. 79244. 46795. 27076. 22537. 36138. 7142
TINE AT 104Fs
~'I ><<<<A 'I
~ ~ ~ ele ~
~ e ~ <5
0
i.'ee'< I>
~, ~ ~
eK I~ >'
~ ~
7~ W ~
e
J
~ <i
e ~
'
I IG (lr<G FO(l HVACFHDAI -"THF. LOSS OF HVAC. PROFILE FOR TPE CS RM IS EQUIVALENT TO THE FOLLOWING TIME AT I04F>"HDft i="EA
. MINUTLS .HOURS DAYS"PRINTFR ONPRINT HDRLPAINT ttDRZPRINTER OFF
e
~ i <e ~ DE<. INE THE <FOLLOWING TERMSINPUT THE Df;SIRED LENGTH OF TIME SEGMENT THAT EACH EVALUATION SHALL BE PERFORMED.
TA>>1 I
Ie
~ ='. INPUT 1HE TOTAL EVALUATION DURATIONI=.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 MODIFIEDI 6 i1. e'e.>00()CI7c .t. r< <1 A), G=<)
17<43<43 g7 SEP 198R
i Ol< (.<1~0.:<0 'IQ .i> S'(CP O. IY- E<1 /IIBFvf''Irli ~0 10 ENDTEST STEP TA
~ ~ I v TO t <F MIDPOINT OF EACH TIME SEGMENT1 -I'll'IC~ (TA/:.. 0)
~ ~ ~ ~
li'li fI I- TI e. 1
fii II< ll ~ IIi I
I I
li 1
li> ~ I1 ~ f
Ii ~
~'.
fI
I
~ ~ ~ + I).:I'irtE 'f>IE TEMPEA(ITURES FOR EACH Of'HE SEGMENTSI <A <QD. I1(«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 CONSIDERATIONOl C>ey A<VD 1'L 05 TIILN GOTO IG- O'ND T L.E 10 TFIEN GOTO ~
Gl'v Ar>D T LE )5 Ttsf<N GOTO 361 15 I'IIVI) T LE ='0 THEN UQTOGf =-0 AinID T I.E 30 THt=IV GOTO 5G ( ~ (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 Sl I CO llNI) T L.E /0 I')ICN GOTO 9(i I 7<'> (<I<I> 1 l E Gi> THEN GOTO 10Iif t)0> II<ID T I.L Qi) 1H<..N GOTO 11t:i 9(> A.ut) 1 L L 1 i)0 TF Il. N Gi)TO I 2(: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 16Qi I''iv AND T LC VO TliEN GOTO 17O> 300 AND 1 LL 360 TIIEN GOTO 18Gl'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
HVACGTTA»103. 6TTA~ (5/9) <> (TTA-32. 0)TTA=TTAi273.0GOTO 100TTA~)05. 6TTA (5/9) <> (TTA-32'. 0)TTA~TTA+273. 0GOTO 100T fn-108. 8CTA=(5/9) ~ (TTA-32. 0)Tl'A=Tlni 73. 0GG1'0 100TTA'~ I I 1. 1.7 IA=(5/9) ~ (TTA-3»«. 0)TTA=TTA+»«73. 0G010 1001 I'A 11 ..0Tln=('9) (TTA-32. (>)TTAx>TTA+«7». 0(>C>10 li>0I TA~ I I r> ~ 51(rl<: (5/9) i (TTA-3»«. 0)I'I'll<-Tl i)< «73. 0GOTO 100Tfn=ll'7TTA= (5/9) i (TTA-»2. 0)Tl A=TTA+»«73. 0.6010 100Trn'»c.7Tln=('.,/9) a (TTA-'.0)1 Tn>--TTn< >(73. 0(iiili) li>0T i>I- I 1 /. 71 Ir> -. (:"/-:» ~ ( Tln-3 «> 0)11>l>.Tlni>«73. 038TO liiiir r.'=»I).51! Ai-(''.i)~ (11n-3;. 0)",< n>-f I'I< ~ "73. i>
I i>l (I I 00r:> I I O. =.
I lii- ('.>/'i) ~ (Tln-» . i>)1 ~ >'< I'I >1 <»7 ~ 0
>1 O I ~ >i>
) «>la l,i~ >. iiI I;>. ('I,/9) a (I'Vrl-' i>)I I <I> I I'n ~:.7". 0
i>.I'I i> I:iiiI ><'>'J I».,'. CI:n= ( /9) ~ (T;rn-3=". i )
r I>l f fn< «7 ~ . 0uu ~ 0 I <>0
f f>< > >»»IJ ~ 6! In-(!r/9) ~ (TTA-3«> 0)1 < (<i TTA+»«7»«, 0G01Oi 10>i>
17>44> 9 < 7 5EI> 1988
0
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19
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~ > 5><r>)r > [5 'NC FOf( HVACCTTA=TTA<273. 0GOTO 100TrA=13 2TTA~ (5/9)» (TTR-32. 0)TTA»TTR+273 ~ 0GOTO 100
T fA=-0. 1813»T+208. 45TTA=(S/9)» (TTA- 2. 0)VTA>=T fiS+ 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 II IE
«C u(<S»TS/Cn. 0D>')YS>='r S/ l 440. 0
f>r<l rr fE(( ONPrlr:r EA. TS>hOuRS.DAYSPl<fr ffLf< OFFf5 0
>. XT E.A: r:D
17!4m>07 c7 54P I't88
>~ (pg)
s:..'OSS> ~
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9
s. 4
OF >1V>SC C>ROFILE FORMINUTES930. 37361061. 6131213. 81551 .90. 52381595. 89981834. 8352.:113. 082S2437. 41'062815. 7851
.>7 587 I'773. 8698
'> .77. 65825»84.
3113'911.94' 46881 9375>sv 9 52199~ h >. 4>c4
THE CS RM ISHOURS15. 506217. 693620. 230323. 175426. 5983So. ao635. 218-40. 623546. 929854. 293162. 897S72. 96184. 738598. 53241 14 ~ 699133. 65a?155. 9083
EQUIVALENT TO THE FOL'LOWING TIMEDAYS~ 6461.?372. 8429. 9656l. 1083l. 27421. 4674l. 69261. 95542. 26222- 62073. 043. 53084. 10554. 77915. 56916. 4962
AT 104F s
L o
I'
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(
ei ~ I >IVII
~ '~ i~ H
I I~ I4
~ Il ~ I Ir~"I .'e „'I /
AM .)STIriC FOR t(VAC7HDR(="THE LOSS OF HVAC PROFILE FOR THE ECWS Rnt IS EQUIVALENT TO THE FOLLOWING TIME AT 104Fs"HDR3>I"EA MINUTES HOURS DAYS"PRINTFR ONPAINT HDR1PRINT
HDR='f(
IN'ft:R OFF
IG>0i>35 7 SEP )3()t)
IN ~ ~ >>
p \ ~ $~ ~,0
e,ii. )- ie
~ ' Ie ~
~ ~ ~ e
~, ~ I 7~ s~ ~
II ~ ~
~ < + IIDI:l INE THE >FOI LOWING TERMSi ~ 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 DURATIONI=NDTEST=7 15
~ i i3. INPUT THE MAXIMUM AMBIENT TCMPERATURE FOR THIS AREA IN DEGREES FTTS=1(i4. 01 f See (5/9) i (TTS-32. 0)l'T5= T TS r~73. 0
~ ~ ~ 'ilIFSr CON'.>TANTO ARE NOT MODIFIEDr t'I=O. 0(i(IOQC17s -t„W( 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 SEGMENTr -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 GOTO1 I'> f ) 0 AND T LE 15 T)IEN GOTO 3
1- I tel 15 (IND T LL 30 THEN GOTOl> 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 71 (el ."'0 (IND f LE CO 1)(EN GOTO I)
l.' I 1 (>0 fiND T l E 70 THFN GOTO 9l -'I t 't /: f>N)) 1 Lt: Bu t'HEN GOTO 10t > f 0: Al(D T l.E 90 ThEN GOTO 11s ~ 1 > ~ f 9) f)S() T LC IVO THEN GOTO 12
AND 'r LE 110 Thf"N GOTO 13I ~ 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 (I I 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 18t ~ 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, TI IE 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. 0ii01 0
)o4
1
0 Stl
z
~ "I~ ~ 1? HHr(
~ ~ ..? '/1 9
Q
Irkr)
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' c '3
~ ', ~ ~ Ir 1 ~ I
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Ic( I NGFORHVAC7Tl A=TTA+37 . 0GOTO 100TTA= 1 1. 0TTA=(5/9) «(TTA-3~~. 0)TTA?zTTA+~~73. 0GOTO 100
TTA~-0. 1757«T+203. 90TTA= (5/9) «(TTA-32. 0)TTA~TTA+273. 0
IF TTA LT TTS TKEN GOTO 1019=X-(Y«((1. 0/TTA) —(1. 0/TTS)))A«EXP(D)T~:=TS«A
t4(;XT TINE
IIOL>i<S~TS/60 0l)AYS-"TS/1440. 0
PRlKTER ONPR INT EA. TS, HOURS. DAYSPRIN'(ER OFFTS >)
ri(Xi GAEr>D
18(04:00 ~~7 SEP 1986
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»VAC PROFILE FORI'1INUTES878 5~1990.41441118. 96991 ='66. 46271I> 5. 84 '61630. 539181>4. 5293
112. 44052409. 6508='7:>". 4163. 148. 01613604. 924»1""-. 00744743. 761>4") 5 i98
6':i 9. 07917217. 4i67>=
THE ECWS RN ISHOURS1 ji. 637616. 506918. 649521. 107723. 930727. 175630. 908835. 207340. 160845 87 652. I>66960. 082168. 88 579. 062790. 843104. 4847120. 2911
EQUIVALENT TO THE FOI LOWING TINE AT 104FlDAYS.6099~ 6878.7771.8795~ 99711. 13231 ~ 28791. 4671. 67341. 91142. 18612. 50342. 87013. 29433. 78514. 35355. 0121
~ ~ ~ ~
~ '»> rtr SPI
r >,r\
' ~
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' ' r'
r ~ >~~ ~ >9
~ r ~ ', I>r
~ l~l6
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IS> I>ab f'OA HVAC8t 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 ONPAIN I tlf)AIll>lINT HDA8>>f<INT> A OFF
~ » ~ i l)tF1NE THE, FOLLOWING TEAMSr 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. 0YTS-(G/9)s (TYS-38. 0)TfS,TT9~273 0
18>81>27 7 SEP 1988
~ > 'r
~ ~ r 'ft»EI'E CONSTANTS AAE NOT MODIFIEDs'.t» =0. 000»)8617X "'LN (1 A)TS~u
i.s)A I.sls 0. J>0 YO ~~ 0 STEP 0. I
Y= Err/HBFOA I I 'Ai») IO (TNI)TEF>T STEP 1A
s
~ ~ ~ ( 0 1(t ftCC MIDI 0INY OF EACH T I('1E SEGMENTI" > I'l>>E+ (Tft/~. 0)
~ ~ ~ ~
is-'
ii 1
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lt'ls 1
is I
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i Ilr (s ~ t
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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 2Gf 10 At»f) f I.E IG Yt(EN GOTO 3I's ( ).i t'lt>I) 1 I.i's'> 'I t»E(»t GOTOt';:f> n»O T 1.E 30 THEN GOTO 8('s .0 (i»I) 1 (.E Jss.'s 1'hEN G()TO 6t' ss>.'t'>D 1 L E . s) Tt(EN GOTO 7
> =: Awlt T (.E 6 > YHLN GO1O 8c'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 11s: i ':«.'> (1MD T (.E IV0 Ttlf N GVTV I 9c I l»J ~ >1N() 1 t I=. I 10 1t Et»t GOTO I4> I 10 tl.tl) 'l LL'='s> 11>CN GUT() I J>
( I 1 -; f>ND f LI: 180 1HLN G()10c.ri l8»',r At)i) 1 LE . J»0 'ltlLN GOTO 16( 1 =':> AND 1'E ~ 00 1tlFN GOi'0 17I;: Si>f> IlNI) I (.E 3c0 TflfN fiOTO 18Gl 3> s'> AND I Lf Js 15 THc N GOTO 19f i I'wl) 'I LE ENDYEST YIIEN GOTO 80
W
4 ~hni
~ I
~ ~ ~ ~ I:t't»lf: T) IL YEM(>EAATUf(ES FOR EACH OF THE SE(iMENTSI:>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 <s>6
~ ~ ~ «4s ~ ''.a~ r(r(.8«~ '.?
~a sl «8I ~ rt'>.s'/v
~ sar r'
~ ra ~ rr 2~ a ~ /'
s .«.I4~ 'r 'a ~ ~ tr
'?/I~ ~ r
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FOT< HVAC8TTA~92. 47TTA=(5/9) «(TTA-32. 0),Tfns<TTA+273. 0GOTO 100TTA=94. 27TTA=(5/9) «(TTA-32. 0)TTR=TTA«27$ . 0Gi>TO 100TTA=97. 09TTA=(5/9) «(TTA-32. 0)TTA<sTTA+273. 0GOTO 100TTA=99. 19TTR~(5/9) «(TTA-.2. 0)
= TfAs<TTR+273. 0(>OTO 100TTA=.100. 8fT«l= (~w/9) «(TTA-32. 0)TTA=TTA+273. 06010 lv0T Tnt=102. 1
'r TA=('.r/9) s< (TTA-32. 0)T 1 sl= TTA«2?3. 06010 100r Tn=-103. =-
TT(>=(!'r/9) ~ (TTA-. -. 0)TTA«sTTA< 73. 0i>010 100TTA 1(>4. 1» ~
Tins><5/9) ~ (TTn-32. 0>T fn=1 1'n «27 .. 0601 0 > s.>0
T ls< (I ~ 07 >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, 71 > r >= <:./.>) ~ < 77r>-32, 0>l,n=f1'A~ ~:7 . 0i.u> 0 > ~ ss.s
1 tn l(rs'. 41;>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 10vf fr <
'-' 1 ~ . 91 l ~ '>St< r/9> ~ (T7n 3«'2 0)f 1'sl-1TAi27 ~ . 0
(r J>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~ et 70l "8I ~ I> ~ I,:~ I
SI f>XG FOR HVAC8T1 A<>TTA~278. 0GD I 0 100TTA=1 19 0,TTA=(5/9) (TTA- . 0)TTA=TTA+87 . 0GOTO 100.
18«>SID~ 7 .>f.P 1988
<v>'I. Ie.e I ~ ?
~r'4'at:~~ ~ 1.> /I ~
~ I ~ ~ \,I<e'1~ ~ I -<-
~ ~ I' I-~ 4
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I <.I<,'>
>I< ~
T f>ID-0. I 4S0»T~179. 18TTA=(5/9)»(TTA-3~~. 0)TTA»=TTA+273.0
IF TTA LT TTS THEN GOTO 1018= X-(Y»((1.0/TTA)—(1. 0/TTS)))fl-'E..XP(8) »
TS=TS< nt»ILX i TII»IE
I(OIL)IIS.- I>D/60. 0l)AYS-TS/1440. 0
Pi<I(IT(-:R OW
PR I <41 EA, T., HOUR, DAYSl>RlII'll:R Qi:FT!>..<>
.< Xl C<lI- I»l)
0
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1
7
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OF ISVAC PROFILE FORMINUTES1455. 21511775. 0226. 17". 80 62668. 46783287. 1518 ~
4060. 618»50:".9. 0345t' ~ wQ7//67. 604»9C83. 736912095. 1166l 5 133. 06C 1
1 i>964. 3391; lis.>O. 8039-".>91 1 . /9is7~/1 .»9 9t>53474 l. 0916
THE CONT RN ISHOURS24. 253629.583736. 213444. 474554 ~ 785967. 67783. 8172104 ~ 0539129..4601161. 3956201. 5853»i-»»178316- 0723396. 6801498. 53627. 3318790. 3515
EQUIVALENT TO THEDAYS1. 0106le 23271 ~ 50891. 85312. 28272. 81993. 49244. 33565. 39426. 72488. 399410. 509113. 169716. 528320. 772126. 138832. 9313
FOLLOWING TIME AT 80F>
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'DEMQQQYY2.AYE& MAAW ~ESQ 3eQ.EQKGKK ARE COMPEVggYtWO 4A 4&RSEuW Wg~Pe'%CameOP+~. ~AAQi~ 3e P~ie ~zy ms pAc< m~r Sn.C'aegis, ~n.i si~~W Wr )zs loO~ PAp R~ OC-(747~ ) C~aD,
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ICONT RHIEC MATER
I (F) I (F)+ +
101.1 I 104.2101.2 I 104.4101.3 I 104.6
( 1o1.s ( 1oC.e
I 101.6 ( 105.0
I 101.7 ( 105.1
I 101.8 I 105.3
I 102.0, I 105.5
I 102.1 I 105.6
I 102.2 I 105.8
) 102.3„) 105.9'.wI 102.5 I 106 2
I 102.7 I'106.4
I 102.8 I 106'5
( 102.9 ( 106.6103.0 ( 106.8
I 103.1 I 106.9
I 103.Z ) 107.0
I 103.3 I 107.2
( 103 4 ) 10T.3
I 103.5 I 107.4
I 103.6 ( 10T.S
I 103.7 I 107 7
I 103.8 I 107.8
I 103.9 I 107.9
I 103.9 I 108.0
I 104.0 I 108.1
) 104.1 I 108.2
I 104.2 I 108.3
I 104 3 I 108 'I 104.4 I 108.5
1104.5 I 108.6
I 104.6„I 108.7
( 104.6 I 1oe.e
I 104:7 I 108.9
I .104.8'I "109.0
104.9 (,109.1I'105.0 I 109 'I 105.0 I 109.3
I 105.1 I 109.4
) 105.2 I 109 5
I 105.3 I 109-6105.3 ( 109.7
I 105.4 I 109.7
I 105 ~ 5 I 1098I 105:6 I 109.9
105.6 I 110.0
I 105.7 I 110.1
I 105.8 I 110.2I 105.9 I 110.2
IECWS RN
(F)(ELEC PE)SWOR RHIAFP RH INPSI RH(LPSI RH( CS RN
I (F) I (F) I (F) I (F) I (F) I (F)+ + ++ + +
I 98.20
I 98.27I 98.35
I 98.42
I 98.49
I 98.56
( 98.63
I 98.70
( 98.77
I 98.83
I 98.90
) 99.03
) 99.09
( 99.15
( 99.21
( 99.27
( 99.33
( 99.38
( 99.44
I 99.50
) 99.55
( 99.61
( 99.66
( 99.71
( 99.77
) 99.8Z
( 99.87
I 99 92
( 99.97
I 1000( 100.0
I 100 ~ 1
I 100.1
( 100.2
( i100.2
I 1003
I 100.3
I 100 4
I 100.4
( 1OO.S
I 100.5
I '100.5
I 100.6
I 100.6
I 100.7
I 100.7
I 100.8
I 100.8100.8
I 100.9
»33(1»3.4 I 1
»3.6 I 1
»3.7 I 1
»3.9 I 1
»4.0 I 1
»4.2 ( 1
»4.3 I 1
»4.5 ) 1
»4.6 I 1
»4.7 ( 1
PtN.8~»5.0 I 1
115 ~ 1 I 1
»5.2 ) 1
»5.3 ( 1
»5.5 I 1
»5.6 I 1
»5.7 I 1
»5.8 I 1
»5.9 ( 1
»60 I 1
»61 I 1
»6.2 I 1
116.3 ) 1
»6.4 I 1
»6.5 ) 1
»6.6 I 1
»6.7 ) 1
»68(1»6.9 I 1
»7.0 I 1
117.1»7.2 I 1
117 3 I 1
117.4 I 1
117.5 ( 1
»7.6.I 1
117.7 I 1
117.8 I .1
117.'9 I 1
117.9 I. 1
118.0 I 1
»8.1 I 1
»8.2 I I»83 l1»8.4 I 1
118.C ( 1
»8.5 I I»8.6 I I118.7 I I
I 102.8
I 102.9
I 103.0
I 103.1
(103.2'103.3
I 103.5
I 103.6'103.7
I 103.8
I 103 9~~%04g
I 104.1
I 104.1
I 104.2
I 104.3
) '104.4
I 104.5
I 104.6
I 104.7
I 104-8
I 104.9
) 104.9
I 105.0
I 105.1
( 105.2
I 105 3
I 105.3
) 105.4
I 105.5
I 105.6
I 105.7
) 105.7
I 105.8
I 105 9'I 106.0
) 106.Q
I 106.1 ~
I 106.2
I 106.2
I 106.3
I 106.4
I 106 4
I 1o6.s
I 106.6
I 106.6
I 106.7
I 106.8
I 106.8
I 106.9
I 107.0
I »6.1 I »5I »6.3 I »5I »6 4 I »5I »6.6 I »5I »6.8 I »6(»6.9 (»6I »7.1 (»6I »7.2 I »6I »7.3 I »6I »7.5 I »6(»7.6 (»6PNPLV~I »7.9 (»I 118.0 I »I »8.1 I »I »83 I »(»e4 (»1»85 I »)»8.6 (»(»87(»I »89 I »I »9.0 I »I »911»I»92I») 119.3 (»(»9.4 (») 119.5 )»I 119.6 I »l »97(»I »9.8 I ») 119.9 (»I 120.0 I ») 120.1 ) 11
(120.'2 (»
I 120 3 I 11
("120.4 (»
) 120.5 )»I 120.6 I »( 120 ~ 7 (»I,120."'8 I »I 120 9 I 11
I 1209 I 1
I 121.0:I 12
( 121.1 ( 12
I 121 ~ 2 I 12
("121.3 ( 12
I 121.4 I 12
121 ~ 5 ) 12
121.5 ( 12
121.6 ) 12
I 121.7 I 12
I »7.3I »7.4I »7.6I »7.7I '7.8I »7.9(»S.II »8.2)»8.3(»8.4( 11e.s
~'ISFEXI »8.8I 118.9
I »9.0I '9.1I »9.2I »9.3I »9.4I »9.5) 119.6
I 119.7
I »9.8I »9.9I »9.9I 120.0
I .120.1
I 120.2
( 120.3
I 120.4
I 1205I 1205) '120.6
I 120 ~ 7
I 120.8
I 120.9
I 120 9
I 121.0
I 121 ~ 1
I 121 ~ 2
I 121.2
I 121.3
I 121.4
I 121.5
I 121.5
I 121.6
I 121.7
I 121.7
I 121.8
I 121.9
I 122.0
»5(».6 I».8 I».912 ~ 1
12.212.312.512.612.712.9
13.113.213.313.513.613.713.813.914.014 ~ 1
14.214.314.414.514.614.714.814.915.015;115.215.3.15 ~ 4
15. 5
15.615.715.715;815.916.0.16.116.216.316.316.416. 5
16.616. 716. 7
~ 4).5 )
~ 7I.8(.o).1 I
.3 )
.4 )
~ 5 (
.6 I
.8 IKO-7.0 )
7.17.3 I7.4 (
7.5 (
7.6 (
7.8 I
a.o )
8.1 I8.2 )
8.3 I8.4 (
8.5 I
8.6 )
8.7 (
8 8 I8.9 I
9.0 )
9.1 I
9.2 (
9.3 (
9.4 )
9.5 (
9;6 I
9.6 I
9.7 )
9.8 I
9.9 (
0.0 (
0.1 I0.2 (
0.3 (
0.3 (
0.4 I0.5 I0.6 I
0.7 (
0.8 I
LEC PE)SMGR RH
<Fi ) <F)IHPSl RHILPSl RH
(F) ) (F)T lHE ) E
(HIM) I+e
102.9 I
103.9 I
104.9 )
105.9 I106.9 I107.9 I
108.9 )
109.91
110.9 I11,1.9 )
112.9 I
)AFP RH
) (F>+
) CSRH
)
++ +
I 1220I 122.1
) 122.2
I 122.2
I 1223I 122.4
I 122.4
) 122.5
I 122 ') 122 6
I 122.7vgpnz2a74
l 1228I 122.8
) 122.9
I 123 0
) 123.0
I 123 ~ 1
123 ~ 1
) 1Z3.Z
I 123.3
) 123.3
I 123.4
) 123.4
I 123 5
I 123.6
) 123'6
) 123.7
I 123.7
) 123.8
I 123.8
) 123.9
I 123.9
I 124 'I 124 'I 124 F 1
) 1ZC.Z
I 124.2
) 12C.3
I 124.3
) 124.4
I 124.4
I 124.5
) 124.5
I 124.6
I 124.6
I 124.7
I 124.7124.8
I 124.8
) 124.9
107.0107.1107.2107.2107.3107.3107.4107.5107.5107.6107.7
%074107.8107.810?.9107.9108.0108.1108.1108.2108.2108.3108.3108.4108.4108.5108.6108.6108;7108.7108.8108.8
),108.9108.9
) 109.0
I 109.0109.1
I 109.1109.2
I 109.2109.3
I 109.3
I 109.4
I 1094I 109.5
I 109,5
I 109.6
I 10961
109.7
I 109.7
) 109.8
100.9 I101.0 I101.0 )
101.0 )
101.1101.1 I101.2 I
1012 )
101.2 I1013 )
101.3 Ig@lM~~f101 ~ 4
1
101.4 I101.5 )
101 ~ 5 I101.6 )
101.6 I101.6 )
1017 )
101.7 I101 7 I101.8 )
101 8 I101.8 )
101.9 I101.9 )
102.0 I102.0 I102 ~ 0 I102.1 I102 ~ 1 I
102.1102.2 I102.2102.21023
1
102.3102.3 )
102.4102.C )
102.4102 '102.5102.5102.6102.6102.6102.7102.7102.'7
I 120.8
I 120.9
1121.0
I 12I ~ 1
I 121 2
I 121.2
I 121.3
) 121.4
I 121 ~ 5
I 121 ~ 5
) 121.6"FR2"-
I 121.8
I 121.8
) 121.9
I 122.0
) 122 F 1
) 122.1
I 122.2
) 122.3
I 122.3
) 12Z.C
I 122 'I 1225I 122.6
I 122.7
I 122.8
) 122.8
I 122.9
) 123.0
I 123.0
) 123.1
I 123.2
I 123.2
I 123.3
) 123.4
I 123.4
I 123.5
) 123.6
I 123.6
I 123.7
I 123,.7
I 1238) 1239I 123.9
I 124.0
I 124.1
I 124.1124.2
I 124.2
) lZC ~ 3
I 121.8
) 121.9
) 1219I 122.0
I 122.1
) 12Z.Z
I 122.3
) 122.3
) 122.4
) 122.5
) 122.6PI22N-) 122.?
I 122 8
I 122.8
I 122.9
I 123.0
I 123 ~ 1
) 123.1
) 123.2
) 123.3
I 123.3
) 123.4
) 123.5
) 123.5
) 123.6
) 123.?
) 123.7
I 123.8
I 1239I 123.9
I 124.0
I 124.1
I 124 ~ 1
I 124.2
I 124.3
I 124 3
I 124.4
) 12C.4
I 124.5
I 124.6
I 124.6
I 124.7
) 124.8
I 124.8
I 124.9
I 124.9
I 125.0
) 125.1
I 125.1
) 125.2
114.9 I115 9 I11&.9 )
117.9 I118.9 I119.9 I120.9 I121.9 I122.9 I123 9 )124.9 I125 9 I126.9 I127.9 I128.9 )
129.9 I130.9 I131.9 I132.9 )
133.9 I1349 I
135.9 I
136.9 I
137 9 I138.9 I
139.9 I140.9 I
141.9 I142.9 I143.9 I144.9 I1459 I146.9 I
148
149 I150 I151
152 I
153
)ECMS RHICONT RHIEC MATER
(F) ) (F) ) <F)+ + +
16.8 I 105.9 I 110.316 9 I 106.0 I 110.417'0 l. 106. l ) 110'517.0 I 106.1 I 110 '17..1 f 106.2 ) 110-617.2 I 106.3 I 110.717.3 I 106.3 I 110.817.3 ) 106.4 ) 110.917.4 I 106.5 I 110.917..5 I 106.5 I 111.017.5 I 106.6 I 111.1
%MA~~17.7 I 106.7 I 111.217.8 I 106.8 I 111.317-8 ) \06-9 ) 111.417.9 I 106.9 I 111 '18 0 I 107 0 I 111 '18.0 I 107.0 I 111.618.1 I 107.1 I 111.618.2 ) 1O?.Z ) 111.718 2 I 107 2 I 111.818.3 ) 107.3 ) 111.818.4 I 107.4 I 111.918.4 ) 107.4 ) 112 ''18.5 I 107.5 I 112.018.6 I 107 5 I 112 F 1
18 6 ) 10?.& I 112.218.7 I 107.7 I 112.218.8 ) 107.7 ) 112.318.8 I 107.8 I 112.318.9 I 107.8 I 112.419 0 I 107.9 I 112.519 0 I 107.9 I 112.519.1 I 108.0 I 112.619.1 I 108.1 I 112.719.2 ) 108.1 ) 112.719.3
1108.2 I 112.8
19.3 I 108.2 I 112.819'4 I 108.3 ) 112.919.5 ) 108.3 f 113.019.5 ) 108.4 I 113.019-6 I 108.4 I 113.119.6 I 108.5 I 113.119.7 I 108.6
1113.2
19.8 I 108 6 I 113 2'19.8 I 108 7 I 113.319 9 I 108 7 I 113 4
19.9 I 108.8 I 113.C120 0 I 108.8 I 113.520.0 I 108 ~ 9 I 113.520.1 f 108.9 ) 113.&
I 118 8 I 1
I 118.8 I 1
1118'9 I 1
I 119.0 I 1
) 119.1 ') 1
)1'l9.2
) 1
I 119.2 I 1
I 119.3 ) 1
) 119.4 ) 1
) 119.5 I 1
)119 5 I 1
I 119.7 I 1
) 119.7 ) 1
) 119.81
1
)1199)1I 120.0 I 1
I 120.0 I 1
I 120.1 I 1
) lzo.2 ) 1
I 120.2 I 1
) 120.3 ) 1
I 120.4 I 1
) lzo.4 ) 1
)1205) 1
I 120.6 I 1
) 1ZQ.& ) 1
I 120.7 I 1
I 120.8 I 1
I 120.8 I 1
I 120.9 I 1
1121.0 I 1
I 121.0 I 1
)121 ~ 1 I 1
I 121.2 I 1
) 1212 ) 1
) 121.3 ) 1
)121 ~ 4)1) '121.4 ) 1
I 121.5 I 1
) 1Z1.5 ) 1
121.6 ) 1
I 121.7 I 1
) 121.7 ) 1
I 121.8 I 1
) 121.8 I
I 121.9 I 1
I 122.0 I 1
122.0 )
I 122.1 I 1
)1221)l
!
1
ISMGR RH
<F)+
IAFP RH IHPSI RH
(F) I (F)IElEC PE ILPSI RHI
I <» I+ +
CS. RH IEC'WS RHIC
<F) I (F)+ +
zz.z ) lzo.z )
22 3 I 120.2 )
22.3 ) 120.3 )
22.4 ) 120.3 )22.4 I 120.4 I22.5 I 120.4 I22.5 ) 120.5 )22.6 I 120.6 I22.7 ) 120.6 )
22.7 I 120.7 )
22.8 ) 120.7 )
2~20'2.9
I 120.8 I22.9') 120.9 )
23.0 I 120.9 I
23.1 I 121.0 I
23.1 I 121 ~ 1 I23.2 ) 121.123.2 ) 121.2 )
23.3 I 121.2 )
23.3 I 121.3 I23.4 ) 121.3 I23.4 I 121.4 I23.5 I 121.4 I23.5 I 121.5 I23.6 I 121.5 I23.6 ) 121.6 )
23.7'I 121.6 I23.8 I 121.7 I23.8 ) 121.7 )
23.9 ) 121.823.9 I 121.8 I24 ~ 0 I 121.9 I24.0 I 121.9 I
24.1 ) 122.0 )
24.1 I 122.0 I24:2 I 122.1 I
24.2 I 122.1 I24.3 ) 122:2 )
24.3 ) 122.2 I24.4 ) 122.3")24.4 I 122.3 I
24.5 I 122.4 )
2C.5 I 122.424.6 I 122.5 I24.6 ) 122.5 )
24.7 I 122.6 I
24.7 I 122.6 I
2C.B ) 122.7 )
2C.B I 122.7 I24.9 I 122.8
TIHE
(HIH)+
OZ.B ) 1O
02.8 I 10
02.8 I 10
0291102.9 I 1
02.9 ) 1
03.0 I 1
03.0 I 1
03.0 ) 1
03.0 I 1
03.1 I 103~03.1 I 1
03.2 I 1
03.2 I 1
03.2 I 1
03.3 I 1
03.3 I 1
03.3 ) 1
03.3 I 1
03.4 I 1
03.4 ) 1
03.4 I 1
03.5 I 1
03.5 I 1
03 ' I 1
03.6 I 1
03.6 I 1
03.6 I 1
03.6 ) 1
03.7 I 1
03.7 I 1
03.7 I 1
03.8 I 1
03.8 ) 1
03.8 I 1
03.8 I I03.9 ) 1
03 9 I 1
03.9 I 1
04.0 I 1
04.0 ) 1
04.0 )'I
04.0 I 1
04.1 I 1
04.1 I 1
04.1 I 1
OC.2 ) 1
04.2 I 1
04.2 I 1
04.2 I 1
9.8 )
9.9 )
9.9 I10.0 I10.0 I10.1 I10.1 I10.2 I10.2 I10.3 I10.3 )to~10.4 )
10.5 I10.5 I10.6 I10.6 )
10.6 I10.7 )
10.7 )
10.8 I10.8 )
10.9 I
10.9 I11.0 I
11 ~ 0 I
11 ~ 1 I11.1 I11 ~ 1 I11.2 )
11.2 I11.3 I11.3 I11.4 I
114)11.4 I11.5 I
11.5 )
116111.6 I11.7 I11.7 I
11.7 I
11.8 )
11.8 I11.9 I11.9. I
12.0 I
1Z.O.)12 0 I12.1 I
25.225.325.425.425.525.525.625.625.?25.825.825M25.926.026.026. 'I
26.126.2
126.326.326.4
126.426.5
126.526.626.6
126.7126.7126.8126.8126.9126.9127.0127.1127.1127.2127.2127.3127.3127.4127.4127.5127.5127.6127.6127.7127.7127.8127.8127.9127.9
124.9 I 1
125.0 I 1
125.0 I 1
125.1 I 1
125.1 I 1
125.2 I 1
125.2 I 1
125.3 I 1
125.3 I 1
125.4 ) 1
125.4 I 1
525.5~125.5 I 1
125'6 I 1
125.6 I 1
125.6 I 1
'125.? ) 1
125.7 I 1
125.8 I125.8 I 1
125.9 I 1
125.9 )
126.0 I 1
126.0 I
126.1 I 1
126.1 I 1
126.2 )
126.2 )
126.2 I126.3 I126.3 I126.4 I126.4126.5 I
126.5 I
1266 I126.6 I
126.6 )
126.7 I
126.7 I
126.8 I
126.8 I
126.9 I
126.9 I
126.9 I
1270 I127.0 I
127.1127.1 l127.2 I
1124 ~ 411I 124.4 I 1
I 124.5 I 1
) 124.5 ) 1
I 124.6 I 1
I 124.7 I 1
I 124.7 I 1
I 124.8 I 1
I 124 8 I 1
I 124.9 I'1) 125.0 ) 1
SfÃ425';04f05
I 125.1 I 1
) 125.1 I 1
I 125.2 I 1
I 125.2 I 1
I 125'3 ) 1
I 125.4 I 1
'I 125.4 I 1
I 125.5 I 1
I 125.5 I 1
I 125.6 I 1
I 125.6 I 1
~ I 125.7 ) 1
) 125.8 ) 1
I 125.8 I 1
I 125.9 I 1
I 125.9 I 1
)126.0 ) 1
) 126.0, ) 1
I 126.1 I 1
I 126'1 I 1
11262) 1
I 126.2 I 1
11263) 1
I 126.4 I 1
I 126.4 ) I
I 126.5 ) 1
I 126.5 I 1
126611) 126.6~) I
I 126 7 I I112671111268111126811I 126.9 I I
1269) I
I 1270 I I
) 1270) I
I 127.1 I 1
154 ) 1
155 ~ 0 I 1
156.0 ) 1
157.0 I 1
158.0 I 1
159.0 ) 1
160.0 I 1
161.0 I 1
162.0 I 1
163.0 I 1
164.0 I 1'166.0 ) 1
167.0 ) 1
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169.0 ) 1
170.0 ) 1
171.0 I 1
172.0 I 1
173.0 I 1
174.0 I 1
175.0 ) 1
176.0 I 1
177.0 ) 1
178.0 I 1
179.0 I 1
180.0 ) 1
181.0 I 1
182.0 I 1
183.O ) 1
184.0 I 1
185.0 ) 1
186.0 ) 1
187.0 I 1
188.0 ) 1
189.0 I'I
190011191.0 I 1
192.0 I 1
193.0 I 1
194.0 I I195.0 I 1
196.0 I 1
197.0 I 1
198.0)
1
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200.0 I 1
201.0 I 1
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203.0 I I204.0 ) I
ONT RHIE
(F) I+
109.0 I109.0 I109.1 I109.1 I109.2 I109.2 I109.3 I109.3 I
109.4 )
109.4 I109.5 I
109.6 I
109.7 I109 7 I109.8 )
109.8 )109.8 I109.9 )109.9 I110.0 I110.0 I110.1 I
110.1 I
110.2 )
110.2 I1103 I110.3 I110.4 I110.4 I110.5 I110.5 I
110.6110.6 I110.7 )
110;7 I110.8 I110.8 I110.8 I110.9 I
110.9 )
111.0 I
111.0,)111 ~ I I111.1 I111 ' I111.2 I111.3 I111.3 I111.3III,C
C IIATER
(F)
113.6113.7113.7113.8113.9113.9114.0114.0114.1114.1114.2
114.3114.3114.4114.4114.5114.5114.6114.7114.7114.8114.8114.9114.9115;0115.0115.1115.1115.2115.2115.3115.3115.4-115.4115.4"115.5115.5115:6115.6115.?115.7115.8115.8115.9115.9116."0
116;0116. 1
116. I116. 2
1
IKPSl RH
(F)+
iECMS RH
(F)+
[ 122.8
i 122.9
i 122.9
I 123.0
I 123.0
I 123 ~ 1
i 123.1
I 123.2
) 123.2
t 123.3
[ 123.3~p%&,
I 123.4
i 123.5
I 123.5
I 123 ~ 5
i 123.6
i 123.6
i 123.7
I 123.7
) 123.8
I 123.8
I 123.9
I 123.9
I 124.0
i 124.0
I 124.0
I 124.1
I 124.1
I 124.2
I 124.2
I 124 ~ 3
I 124.3
f 124.4
i 124.4
i 124.4
I 124.5
I 124 '( 124.6
124.6
i 124.7
[ 124.7~
I 124.8
) 124.8
I 124.8
I 124.9
I 124.9
I 125.0
I 125.0125.1
[ 125.1
I CS RK
I (F)+
i 124.9
I 125.0
I 125.0
I 125.1
I 125.1
i 125.2
I 125.2
I 125.3
) 125.3
I 125 4
I 125.4TOTPfi.'
I 125 ~ 5
I 125 6I 125.6
i 125.6
I 125.7
I 125.7
I 125.8
1125.8
i 125.9
I 125.9
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I 126.1
I 126 1
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I 126.3
I 126.3
i 126.3
) 126.4
I 126.4
I 126.5
I 126.5
l 126.6
I 126.6
I 126.7
I 126.7
I 126.7
i 126.8
I 126.8126.9
1126.9
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i 127.2
I 127.2
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(F) '
i 127.2
I 1272127.3
I 1273I 127.4
I 1274i 127.5
I 127.5
t 127.6
I 127.6
I 127.7
f 127.8
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I 127.9
I 127.9
I 12S.O
I 128.0
I 128.1
t 128.1
) 128.2
i 128.2
I 128.3
I 128.3
I 128.4
l 128.4
I 128.5
I 128.5
l 128.6
I 128.6
I 128.7
1128.7
I 128.8
I 128.8
i 128.9
I 128.9
I 1289
I 129.0
I 129.0
I 129.1
I 1291
i 129.2
I 129.2
I 129.3
I 129.3
I 129.4
I 129.4
I 1294I 129.5
I 129.5
I 129.6
I 127.2
I 127.3
I 127.3
I 127.4
I 127.4
I 127.4127.5
i 127.5
I 127.6
I 127.6
I 127.6f~i~I 127.7
) 127.8
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I 127.9
I 127.9
I 127.9
I 128.0
I 1280I 128.1
I 128.1
i 128.1
t 128.2
I 128.2
) 128.2
I 128.3
f 128.3
1128 4
I 1284
I 128.4
I 128.5
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I 128.7
) 128.7
( 128.7
I 128.8
I 1288I 128.9
I 128.9
I 1289I 129.0
I 129.0
I 129.1129.1
I 129.1
i 129.2
I 129.2
I 128.0
I 128.0
i 128.1
I 128.1
I 128.2
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I 128.3
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I 1283I 128.4
I 128.4Pf2SS~I 128.5
I 128.6
I 128.6
I 128.7
t 128.7
l 128.8
I 128.8
I 128.9
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I 129.1
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I 1293I 1293( 129.4
I 1294
I 129.5
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I 129.6
I 129.6
I 129.6
I 129.7
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I 129.8
11298
I 129.9
I 129.9
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I 130.0
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I 130.2
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112.1112.2112.2112.2112.3112.3112.4112.4112.5112.5112.5
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TIHE lELEC PEISMCR RHIAFP RH
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I 111.5 I
1111 5 I
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I 112.0 I
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117,7 ~
117.7117.8117.8117.9117.9117.9118.0118.0118.1118.1118.1118.2118.2118. 3
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(F) i (F)+ +
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t
ll
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(NI H)
) 105.6
I 105.6
) 105.6
)105.7
I 105.7
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) 105.8
) 105.8
I 105.8105.8
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) 105.9
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) 106.0
) 106.0
) 106.0
) 1O6.0
) 106.1
) 106.1
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I 106.1
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) 106.2
I 106.2
) 106.3
) 106.3
) 106.3
1106'3
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I 106.4
) 106.4
) 106.4
) 106.5
I 106.5
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) „106.5
I 106.6
I 106.6
I 106.6
I 106.6
I 106.6
) 106.7
I 106.7
) 106.7
I 106.7
I 106.8
) 106.8
256.0257.0258.0259.0260.0261.0262 '263.0264.0265.0266.0
268.0269.0270.0271.0272.0273.0274.0275.0276.0277.0278.0279.0280.0281.0282.O
283.0284.0285.0286.0287.0288.0289.029Q.Q
291.0292.0293.0294.0295.0296.0297.0298.0299;0300.0301.0302.0303.030C.O
305.0306.0
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I 130 ~ 5
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PSl RHI CS RH IECMS RNICOHT RHIEC llATER
(F) ) (F) ) (F) ) (F) ) (F)+ + + +
T>HE
(H1N)
307.0308.0309.0310.0311.0312.0313.0314.0315.0316.0317.0
319.0320.0321.0322.0323.0324.0325.0326.0327.0328.0329.0330.0331.0332.0333.0334.0335.0336.0337.0338.0339.0340.0
. 341.0342:0343.0344.0345.0346.0
,3I T.o348.0
.349.0350.0351.0352.0353.0354.0355.0356.0357.0
lELEC PE
(F)+
) 106.8
) 106.8
I 106.8
[ 106.9106.9
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J107.0
[ 107.0
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1107.5
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ILPS> RHI CS RH IECMS RHIGQNT RHIEC MATER
I <F> J <F> l <F> - l <F) I
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I 132.4
l 132 ~ 4
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132.8
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l 1331i 133.1
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I 1337I 1338I 133.8
1133 8
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( 131.8
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) 131.9
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+
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115.6
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'115.9
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+ ++ +
I'20.3) 12O.C
I 120.4
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[ 120.5I'20.5I 120.6
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121.0
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l 121.2
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I 1215I 121.5
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1121.7
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(HIN) I (F) I (F) I (F) I (F) I (F) I (F) I (F)+ + ) r r r +
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I 135 ~ 1
I 135 ~ 1
I 135.2
I 135.2
I 135.2
I 135.3
I 135.3
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I 135.6
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FUSE CONSTRUCTION AND OPERATIONThe typical fuse consists of an element which is
body. The element is welded or soldered to the fusecontacts (blades or ferrules).
e acr Cemee
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The element is a calibrated conductor. Itsconfi uration, its mass. and the materials em lo edare varied to achieve the desired electrical andthermal charac~teriattc . The etemect rcvidea thecurrent path through the fuse. It enerates heat at a
load current.
The heat generated by the element is absorbed bythe fillerand passed throvgh the fuse body to the
surrovnding air. A tiller svch as quartz sandprovides 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-
DEFINITIONSAmpacity-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 RatingThe 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 CurrentThe max:mum short circuit current '!r.a! can i'oiv ii
an unprotected circuit.
Bolt-ln FuseA 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 orshort circuit.
4Vlhen 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, theelement will reach its melting point and open.increasing the applied current witt heat the elementfaster and cause the fuse to open sooner. Thusfuses have an inverse time current characteristic.i.e., the reater the overcurrent lhe less timerequired for the tuse to open the circuit.
This charactenstic is desirable because it parallelsthe characteristics of conductors, motors,transformers and other electrical apparatus. Thisequipment can carry low level overloads forrelatively long times without damage. However,under high current conditions damage can occurquickly. Because of its inverse time current
~ - characteristic, a properly applied fuse can provideeffective protection over a broad current range,from overloads to short circuits.
Contacts--- The external live parts of the fuse which
provide'ontinuitybe!ween the fuse and the balance of thecircuit. Also referred!o as terri!es. blades orterminals.
Coordina!ionThe use ol ma: n.!eecer a"„0 ": nch c:rcu:tcvercv:ren! Crc:e'c:;ve c=:ic s '"htCh vittt iso!3!eC"iV '"a! "'Gn G' i e """ i SVStc'. i'Vn C i ras
~e:ec::: is
Current-Limiting Fusea,i,5e;,r,;Cn:, tl I. a'i ™:n:rer ~gn:leuc 3nQ
.",„ra:. Cn C: C„ire"! i Civ u™er"-"":!" 'C'"!
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A-~he% M~C. CURRENT RATING CONSIDERATIONS
Fuses must be cooled. The primary meansfor cooling ls through terminal connecttons.Seldom would cable connections to the fuseterminal be ot Identical diameter and length In aconverter as was used in establishing nameplaterating. This cooling difference must be takenInto consideration.
A new rating for a fuse size, at other thanstandard test conditions, can be determined bythe user. A particular fuse ls tested understandard conditions, that is with standard testterminal connections and at 100% nameplatecurrent fXn}, The hot resistance is determinedby: Ri ntV drop
>nwith mV drop taken after the fuse
has reached thermal equilibrium. Also, the bodytemperature is monitored (T<).
The fuse is again tesled under newconditions, that is the electrical l thermal circuitin which it will be used, The current ls stowlyincreased until the hot resistance is less than orequal to R~ and the body temperature is alsokept to less than or equal to T>. It Is expected
+3,nta- a
P D S L S. -METG. P I I g
PG &cy~'4.
t~~ p~ pc.~o<one of the parameters will be equaL to that asdetermined In the standard test and the otherwill be slightly less,
It may be preferred to estimat'e a requiredreduction in fuse rating, due to reduced terminalconnections to save testing time.Far connectionswith one half the cross secttonat'rea ofstandard test conditions, deratlng would be to80% of nominal for 500V and lower fuses and to85% of nominal for 600V and higher fuses as an
approximation.
Air'low across the fuse, usually inconjunction with forced cooling of thyrlstor Idiode heat sinks. Is a great aid in keeping thetuse cool. With 400 linear feet per mtnute of airor greater across the fuse, termirmt connectionscan be reduced to half the cross sectional area ofstandard fuse tests without derating.
It is also required to derate the fuse underelevated ambient conditions. The standard testcondition was 25'C while fuses are expected tooperate in industrial environments wheremaximum ambient temperatures are 40'C oreven higher.
3 PHASE SOURCE 8 NEUTRAL
2FU SFU
II5
TH 2TH TH
DCMotor
Fig, C - 1
Under elevated ambient temperatureconditions, the body temperature limitation of150'C becomes a limiting factor. Following is aformula to determine rating of fuses fortemperatures 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 currentcalculations then must be done cn an BMSbasis. The form factor ot the current must betaken Into account. For example, cons)der a dcmotor drive controlled from a 3 pulse thyristorconverter. (Fig. C-1).
II
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Log Ho.Report
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A. The following is a '.',st of cualifica .ion ~efic'.qncips r»i~r'""~COLRf~'CWQtlBQt'4'tlZ4Q'Sf'1 QQ>.le%"AHQtPWO-s~~&94C
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ENVIROIDIEHTAL RUALIFICATIOH OF IE ELECT(:fCAL EQUIPIIEHT
PALO VERDE MUCLE/«( OEHERATIKrs STATION UNITS I, 2, I 3R(Y Ol
TYPE OfEQUI( It/.Nll
LOCAIIOH AWIUfAC(URER
MODEL No. ORID(HIIfI CAI IVI
NO.
ABNORMALOR ENVIRONAKNf (2)ACCIOENft ) IO V'IIICH OPERABILIIY
ENVIRONMLAI QUAL(fIEO REQUIREthtk(5
ACCURACY OROP(RAB
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ACCURACY DR QUAI IflCAI(DNR(51'ONS( I(hlE R(f'UR I 60(MONS IRA I(,0 IhfI I IOD
t)UAI(f(CAf(C"I5(A(US
Itotor forHigh PressureSafetyInject IonPump
Location:Aux(I(arybul (ding ( I)
Vest(nghouseLat e AC'Hotor
Dlvls(on II
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Systlse: 5 IS
Heter S/Nt
76[6056(-I76f60563-I76f60564-(77F 14115-177F 14116-177F14117-I
Ttsspera ture:104 4F
Preysure:
A ttoos pher(c
Radlatlon:
I X IO Rads6
HIsa ld I ty:90$ RH-
CheI4. Spray:
Bone
Subecr pence:
Bone
Tcotperaturet
161 'F
Pressure:
Atrxtspherfc
Rad(at lone
2 X 10 Rads
Rise( d I (yt100'l RH
Chen. Spray:
N/A
Subeerpence:
N/A
ContinuousOperation tor30 daystotltnt(np 00Eatter 40yeal'5 otnoraa(opera t fon
o pere t (ontor 160,libhours by test~ nd analys(s
ll/A lest and ana(ysls pertVc s t lnghouseReport ttCAP-8754, Rer I«lth b (bi Iography
Se I su(c perVest(nphouseRe rt76(60562
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(2) Reference CE Telecon Y-PSA-Z15 dated 5/ll/BZ(3) tsa(ntcnance per I.L. 3130-03
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FROtl ECV 4 I 2 574 5282
'
G
RCS/ HE(88)-519i
i
BEARING TEHPERATUR
I „ IBEARIliG TEHPERATUR
-2-
RISE (FRONT): 33.0 DEGREES C
RISE (REAR): 32.0 DEGREES C
Suw%R ow &Z, 13- 6'c-c c.- z.cx
HD,>~
iQS' 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 CR
'TOTAL;INSULATIONS STFH TEMPERATURE: 127.9 DEGREES C
lINSULATION SYSTEM AXIMUM TEHPERATURE ALLOWED; 155.0 DEGREES C
ITHEREFORE MARGIN OF, TEMPERATURE TO THE INSULATION SYSTEM = 7. 1
'EGREES C 48.8 DEGREES F)I
BEARING EVALUATIONI
+ BEARING TEMP. RIS4
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
AUXILIARY FEEDWATER
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 THEPUMP MOTOR BEARINGS IS THE LIMITING FACTOR.
BEARING TEHPERATURES OF 90.0 DEGRFES C CAUSES ALARM At(D 95'.0DEGREES C CAUSES ESHUTDOWN. THE PUHP MOTOR COULD OPEPATECONTINUOUSLY Itt A ROOM AHBIENT TEHPERATURE OF 57.0 DEGREES C
(134.6 DEGREES F) AND THE PUMP MOTOR COULD OPERATE FOR A SHORTPERIOD OF TIiIE (16 PIOURS OR LESS) It( A ROOiI AHBI Et(T TEHPERATUREOF 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 ATTHESE r881ENT TEMPERATURES..
i
IIi
ANALYSIS OF THE ESSENTIr L CCOLltlG WATER PU."P HOTOR0 '!
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 4QPlopQ + ec
Lc'0/6/88
i
1
+~~~~~~ ~CFRL>10.07,'00
w3
I1
PLANT AHBIENT TEMPERATURE: 131.0 DEGREES F (55,0 DEGREES C)f
'57
STATOR TEMPERATURE:RISE BY RES.: 58.0 DEGREES C
1I1
BEARING TEMPERATURE:RISE (FRONT): 12.5 DEGREES C
lBEARING 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 llTOTALt INSULATlON SYSTEM TEMPERATURE: 123.0 DEGREES C
'NSULATION SYSTEM MAXIMUM TEMPERATURE ALLOMED: 155.0 DEGREE) C
THEREFORE HARGIN OF, TEHPERATURE TO THE INSULATION SYSTEM ~ 32.0DEGREES 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 CTHEREFORE HARGIN OF
(33.3 DEGREES F)!
TEHPERATURE TO THE BEA
I;
.. CONCLUSIONSI
5
THE EFFECT OF THE HIGHER PLANT AHBIEt(T TEMPERATURE TO THE ESS'EtlTIALCOOLING MATER PUMP MOTO( BEARINGS IS THE LIMITING FACTOR. 'BEARINGTEHPERATURES .OF 90.0 DEGREES C CAUSES ALARM AtiD 95.0 DEGREES C CAUSESSHUTDOMN ~ TH'E PUMP HOTOR COULD OPERATE CONTINUOUSLY IN A ROOM A IB'IEt<TTEMPERATURE 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 CPERA7EOEXTENSIVELY AT THESE AMBIENT TEMPERATURES.
fROti ECit 41 "i 574
SHt 8o sr- Bz13-+C.-CC. 'Z~
H0.11 PAGE 5Ram ~
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I E
/HE(88)-519
ANALYSIS OF'
RCS 10/6/88
HE HIGH PRESSURE SAFETY INECTION PUMP NQTQRWW P N HA% r 1%
OP ORDER::ijGF60561, 77F14115, 77F14116, 77F14117
IlW
1
I I
MOTOR SH
lPLANT. AM
lERATURE. 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
VALUATIONp
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 MAXIMUM TEMPERATURE ALLOMED (SHUTDOMtt) ' 95r0 DEGREES C
I (ALARM). 90,0 DEGREES C iI
. 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
.'ONCLUSIONSi
THE EFFECT OF TllE HIGHER PLANT t s8IE iT TEMPS.P~TURE TO Tl llIGHPRESSURE 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)-519RCS/
IFROII ECLI 412: 374 5282
II
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I
(FRI )IOoOF'o '88 1~149
-5-
S~Tt QL a~ EZyp- E'C.—KC.-~NO. 11 PAGE 6
gent o
\
10/6/88
1I
LL BE
1t
SURE SAFETY INJECTION AND CONTAIHHEHT SPRAYtI
~~
I
ANALYSIS OF THE LOW PREIPURP. IIOTORS
I
HOTQR SHOP ORDER; 76F60580, 84F32222I
DEGREES C 159.8 D GREES F . HOWEVER, THE QUALIFIED LIFE WIGR A LY RFOUCED IF,)THE PUHP HOTOR IS OPERATED EXTENSIVELY AT,THESE AHBIENT TEHP RATURES.
it '
~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 EVALUATION1 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
iTOTAL,INSULATIOH SYSTEH TEMPERATURE. 142.7 DEGREES C
1
tI
.INSULATION SYSTEM MAXIMUM TEMPERATURE ALLOWED: 155.0 DEGREES C
lII
THEREFORE MARGIN OF, TEHPERATURE TO THE INSULATION SYSTEM = 12.3DEGREES C (22.1 DEGREES F) I
'I t
4
t
BOTTOM: 57.7 + 39.0 96.7 DEGREES C
i l
. BEARING BVALUATIOII1 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
II
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 CPCi I.b OC I~
10/6/88I
VFR, OPERATION OF THE MOTOR BEYOND 6 HOURS ATF 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,PMEI
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 ACTUALBEARING TEMPERATURE FOUI,D BE LESS THAN 95 DEGREES C SINCE THE TIMETHAT 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 BYANPP 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, NEXT5 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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, .A. LINDSAY'' NSO REPLACEMENT
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COMPONENT SERVICES
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