ࡱ> )+(_  bjbj:: .X{9\X{9\  ;======$jaav:;;PQg '0   4aa  > Z: ME 146 Liquid Flow in Microchannels Homework A microchannel heat sink is 2.5 cm x 2.5 cm and 1.0 cm high. It has a fixed water mass flow rate of 0.05 kg/s. The fins between channels are 0.5 mm thick. Make a plot showing how the pressure drop through the heat sink and the convection resistance change as you change the number of channels (For example, if you have only a few channels, each will be very wide and pressure drop low. If you have more channels, each will be narrower, and pressure drop should go up.). You may use a constant surface temperature boundary condition when finding the Nusselt number. ME 146 Liquid Flow in Microchannels Homework A microchannel heat sink is 2.5 cm x 2.5 cm and 1.0 cm high. It has a fixed water mass flow rate of 0.05 kg/s. The fins between channels are 0.5 mm thick. Make a plot showing how the pressure drop through the heat sink and the convection resistance change as you change the number of channels (For example, if you have only a few channels, each will be very wide and pressure drop low. If you have more channels, each will be narrower, and pressure drop should go up.). You may use a constant surface temperature boundary condition when finding the Nusselt number. .c d hy$hDhhxh:-.d e f g h i j k l m n o p q r s t u v gdy$,1h/ =!"#$% s2&6FVfv2(&6FVfv&6FVfv&6FVfv&6FVfv&6FVfv&6FVfv8XV~ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@_HmH nH sH tH @`@ NormalCJ_HaJmH sH tH DA D Default Paragraph FontRiR  Table Normal4 l4a (k (No List PK![Content_Types].xmlN0EH-J@%ǎǢ|ș$زULTB l,3;rØJB+$G]7O٭VvnB`2ǃ,!"E3p#9GQd; H xuv 0F[,F᚜K sO'3w #vfSVbsؠyX p5veuw 1z@ l,i!b I jZ2|9L$Z15xl.(zm${d:\@'23œln$^-@^i?D&|#td!6lġB"&63yy@t!HjpU*yeXry3~{s:FXI O5Y[Y!}S˪.7bd|n]671. tn/w/+[t6}PsںsL. J;̊iN $AI)t2 Lmx:(}\-i*xQCJuWl'QyI@ھ m2DBAR4 w¢naQ`ԲɁ W=0#xBdT/.3-F>bYL%׭˓KK 6HhfPQ=h)GBms]_Ԡ'CZѨys v@c])h7Jهic?FS.NP$ e&\Ӏ+I "'%QÕ@c![paAV.9Hd<ӮHVX*%A{Yr Aբ pxSL9":3U5U NC(p%u@;[d`4)]t#9M4W=P5*f̰lk<_X-C wT%Ժ}B% Y,] A̠&oʰŨ; \lc`|,bUvPK! ѐ'theme/theme/_rels/themeManager.xml.relsM 0wooӺ&݈Э5 6?$Q ,.aic21h:qm@RN;d`o7gK(M&$R(.1r'JЊT8V"AȻHu}|$b{P8g/]QAsم(#L[PK-![Content_Types].xmlPK-!֧6 0_rels/.relsPK-!kytheme/theme/themeManager.xmlPK-!R%theme/theme/theme1.xmlPK-! ѐ' theme/theme/_rels/themeManager.xml.relsPK] t  8@0(  B S  ?#T[KDh8v:y$xrL@@UnknownG*Ax Times New Roman5Symbol3. *Cx ArialA$BCambria Math"qhs7Gs7G/F""!r43QHP)?x2!xx ,ME 146 Liquid Flow in Microchannels HomeworkMAE310CnokamotoOh+'0  0< \ h t 0ME 146 Liquid Flow in Microchannels HomeworkMAE310CNormal nokamoto2Microsoft Office Word@@$@Dg@Dg"՜.+,0 hp  91 -ME 146 Liquid Flow in Microchannels Homework Title !"#$%&'*Root Entry F`➙g,1Table WordDocument.SummaryInformation(DocumentSummaryInformation8 CompObjr  F Microsoft Word 97-2003 Document MSWordDocWord.Document.89q