hw8_sol_printable

hw8_sol_printable - 10-16 A builing-wmr reactor openflng...

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Unformatted text preview: 10-16 A builing-wmr reactor openflng .1 I mum of 70 Inu- produces um 1:95 crammed 1mm from Emma-1m. mwmuilmflnh lo pummfilcuhtetalflnmdnulflion mio. m 1"“ WI! 'Illlel mflulpy. In kiojwlas par kilogram. and W, in flagrant [3135“le fl: dcgn: of “Molina. in degrees Celsius. Ind m m: heat Malta! in lb: m. in megawatts. 3?: = :3. Jo H (TIP) I 115(7') Hr; (TM?! "Pm (7')] I m3 = woo Fag/set. (a) Emu-“Jam M449: r (lad-Jo) , :- (E 7Céaw) = nor-am "BU! Fnéwdn 1 ha = A (2004*! 70.1.3.3; m£§(mo°c)+1g(::ooflc gown Maj] Ad = 555:. 37 £534 (0.00:: 365 £55 70— :5. 5a“? 5.06:: = 9 5'5. 6? lay/L; A _ _ (1257.+5+ (0.?)(3 53.57) =/.f 22.9.5 £974:ij (3;) fit (Dre thin-‘1‘ erjpe-ra-‘fure is 1‘4»; fié‘fiure‘hhn 4cmfera4'g-m CurresllpadJr'n-g 4-0 q aa'I-ur-efi‘edf Ll?ur‘a|r infiqftfly a": flu I1+¢rleafa+£nj é¢+wcon 37D “‘C RHJ 230°C .\ .m an“: A'q'w I J =: ; "F - .270 1235.5- Has, .23 PE: 5 = . 3 flea—17¢ H13é,£a'+—Hfis. .13 g T 77;: clcgr-e a“; “Lambs :Ir flfiué‘: E- '= 2559??"27fiflc a"? = 7 ? 13C . EMJ‘ +21"? G75 fin"- : ‘— '@ ha: A5 (6’ 7.95m) = 277J.7 .Layég I cast: Hagan-11.4) (“Q-’7) I =(Hm 5:9-Y277J.7- 358.6?:—;T%3%% \ = flight/+5 l If the capital cost ura 10-M‘Wc mmhmtiun-uuhme power system is $200 per kWe, find the cost of ' Emmy (unit capital and fuel casts only]. The: plant has an expected capacity factor of 30%. Also. assume (11.31 (h: ievclimd annual fixed charge ran: is E pawnfiytar. The planthqu is 35% and the file] 0051:; are $5.50 per million U. I Igmpg +53%!) F: ‘ e- : + —_ c Pg, me; (CF 2? c1 . = $0.00éO?/A~Weohr +£0.054 s7 /!(W¢-Jafi = '3 0-06 2 3 /2; Weir II = 6.3'3‘i/1éW5'111-L I A nuclear pow plant experiences a fuel cost {exclusive of :1in charges) of 15 mills-‘kWe-hr and a total power am if 60 millsr'kWeh' while using final to an aw:ng bumup of 24,600 MWDMTU. The plant openles at a thermal elficiency of 33%. Furl ufa revised design which is capable of operating at 32,000 MWDMIU may be pmhascd at a premium of 30% (meaning a cost of 30% light: than the prawn fuel} Use aflhc m impme file] is expecwd to inmase plant capacity faclor fium 65% lo 69% bemuse of 1m; fi'equent refueling shutdown]. Is purchasc afthc m f'uel desirable? Support your amwer with calmlaflms. G0 militia-jg: Wf'gffl EECH =$285llx fog/MWW— = 4’: 2/551 /é?-u | _._ __ I é MIT __ mi”: _ ea", em - at; epm Chg—brig... , :5 m1;— *5 mi: 5 IKC‘fiPfj-IFQ'H :5 +cw w l 5W * end " 15¢ CF #9 PL T CFéC‘lP—r 69H) 1..._—-y-'\_r.-r‘ 7711‘: 10mm am nan" char: .9 l If '1'ij ._ ¢ = 42m- pmhuaol um: new put. . fl " CF (ccip+ew}= (o.es)(*5fl%lfi:j=zfi.gs fix? I New FUEl -L- J! m: @w*‘flwl= CFflcwWJ= 2 fig‘? = QUE-3‘? Ill-kw pane” = (1.35 Ff” :(1.3)(*:,esr/Lg-u)= $3,706. Agra ell-Jaw _' F "M ___ #3705 a ram 1‘“ b. ____ ll. mfg; rm n“ all“ aaaxagmq , H mum 415-3 Jew“..- J'lplsw _ flaw elf. - (ea-fl + EMBHM + eF’ue 11' fl: :1 = Lil-2.39 1“ £435.? k‘fimwrir "-’ 57.01 {wig-ii.- ~ 5” "111' _'.-' Blanca; 'H-za new Qua! W!” in: 3 L’pfljfij fess ‘Hsoa nil-Ill: “:5 WI gal}, so #1:, new infirm”: iii-Fat...» amp“. I4- w:W rarufvf- {in a 5 Va cigar-r.qu- Fr.- cas‘ir: I ‘3 —60 a From a Camot cycle perspective, esumate the maximum theoretical mammal efficiency flat the Following geothermal sources: {a} hydrnlhurmal [vapor dominaled) al EDS-“C and 8 bar, {In} hydmmeruml (liquid dunfinaled] at 245°C. and 8 bar, {1:} geupresmu'imd at 160°C and 1000 bar, and {d} pctrothermal at 290%? and 10 bar. hf; “Final “#1; maxfflwrm 4fixewe+fiaf effigE-Fengy/ we, Egon“; J-E'aé Cfirflfl‘f: aye/'5 d-r'n—fftfgncly, _F 7‘ A; M flaw—rim} :- 1 7—; Er Eéficf‘fiivr’? Egg Fade figure in 52:01:: czérce {'3' :Frefév2n-f": (‘9 fi- =—”- = [O— 3877 Iassumacf 7,20%, =200C {jaw a” «Can» Warm (a) I? = 1 - 2_Q—E=S::;7g = (5??? £75} (a) 11-3 A 1mm upm-dnininaled hydrutlsemal mum-mm use: well slum 111:! is “turned u 45!} psi: I m. The alum i5 [ironic-:1 to I'lurbille inlet Fusureuf “Oink. A dim-comm: condenser opal-I12: " I I’m-Sun of 5 psi- m'lh : cooling-mu ink: WI: 0! GT. The lul'bin: polymka efficiency is 0m and the Whine-mamm- combincd misalmrical cl'ficie'ncy is 0.90. Cnlculm (a) the slum “1‘55 flow min. in puunds mass per hour. (I!) the condenser coding water mass flow run, in pounds mass P" hull. (c1 1h: cycle Ilia-mil elficiulqr III! has rlla. 1n Ems per kilmtl hour, and lid} the difference will I‘m-and disPosllflmv.inpmfllds mnpflhur. “mam-cling mus-ulnarth ""3 flIifi are 2 pea-cult. Hf: frafafgm Iaffaws 14¢: aFFFOaCJ? m Edompl’d iiji (’0. 1:” :- {é’ ‘f-Sfl {13:33)? IJO‘I'E'. Ea Iagfiéwapm} = A, r3013 ga/fém 4+ 3.4 = 353.04 T3 = I'I'l‘l‘rr'F-ollfl‘li'hn a“: TGL'IEA“3 Fr? can‘uflc‘vflxbn «with 11473. (a xwfiffi) : gin/f m vallqu T - 7;“: 1'1 — I": em: ,3 Tuasyfign IROfiEB—fl?3.o —3—w = _ ¢=:_L_———, ——-—-____ ‘fWF-Ed hemfirmfmfl 3 «rm—3519c; {EMS-r3719 773 = 373.3 ’1: __ Tzhfi-‘i‘ 9,—g 373-95345? 5 ~ (.5752 53 " wig“ = Jar—:3 "‘7'" 9‘00 HIS-ctr “amaze—.1532 $53 :- JES'BEM‘ : S z 55 5- 5p... 1‘ 2' $5 (5’ If; 5’55 3 =2 {0.2 a”? + mf-‘fg'zijaw F 3 its $1 :5 [fl-953:9 4"? 15 fl“: ,-)-:3n:+o.a+m £000.? t” ‘g F ) is $5 '19“ ¢7J.é/a4uflé¥ ) Lai- Min! M W m‘l' P: a- m -— ’ lug—Int: = £204,8— $71.6; 23.9.2 3,592ng 1'er- 3 174...; Wm... f9?” = (macafirau, :1) ‘— 353.E5 sue/’42.” .. Jars ms 1:50 M Won-F P :2 MW moo Eur/NW 3w: 3h}; 03:: {95.3 gen/IL... kw : _ Wm" _. '- 5 film-u =- is. m0 5 iém/Arf 'fiJF’é O c.4- -—_ =12om3- £55.53 = mac: 5*U/Ifém (A? A3 W in: = A; (a glanIa)‘: {30.2 Batu/XL». = 1x569 +13%?) = {6.05 5+u/J'Ln. in. u- ant-"j Pu» L7 5 MP write 11? M‘pev‘ 4:: wapujfipd 'f-Jwe (Pivot-re / sg—Sad JE-é _P:‘=3L’v ’35s?! ‘9”?- I lex‘flj Wadi—6r- - _ . jut-ks = (52“ mum {Dig—£304.? ‘- I mm 5 7 3r"— !3043— $6.05 I (fiend :- “3'7 q: E'q-P" “r0 7' (3:) £32m; :- A,—-i,é = HEN-ha“ ram: = 1074‘»; Hum/mm 4m. ——-——-———7 Waci ____ IBg.8 = I? T1462: carafe: 41% 55mg an it! u mien carry arr}: via P _ F F f’ {a ‘7 EKGMF-f’é 1'3 "I' guaca- 4-5::4 exomF/e campy-$ch omit} pin-F +519 rm-nrf er-C'Fm'ancy ____ = 1: Li * JGU-u I HR flfig €3J73 _ g 19/ 73 jW'Zr flv‘é“ Qadd‘ {074.6 | I I | "gnu-i Tufimmflflw .l huhfig. I15. ...
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This note was uploaded on 02/11/2012 for the course EEE 463 taught by Professor Holbert during the Spring '08 term at ASU.

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hw8_sol_printable - 10-16 A builing-wmr reactor openflng...

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