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begin writeln(,Please enter the data requested'); writeln; write(,Desired effectiveness, % = '); readln(eft); write(,Ambient temperature, K = '); readln(ThIn); write('Cold end temperature, K = '); readln(TcIn); write(,Number of temperature increments write('properties = '); readln(number); write(,Mass flow rate of hydrogen, gls = '); readln(mh2); mair:= mh2/1000*85.74; write(,Plate thickness, mm, low high step readln(lowl,highl,stepl); write(,Perforation side (square), mm, low readln(lowss,highss,stepss); write('Spacer pitch, low high step '); readln(lowsp,highsp,stepsp); write(,Channel width, mm, low high step readln(lowW,highW,stepW); write(,Channel hieght, mm, low high step '); readln(lowHf,highHf,stepHf); write(,Frontal area limits, sq-mm, low high '); readJn(lowAfr,highAfr); . write(,Enter a six letter name for the output file '); readln(uname); TcO:= eff/lOO*(ThIn-TcIn)+TcIn; Tbulkl:= (ThIn+TcO)/2; deltaT:= (TcO-TcIn)/number; Ntueff:= deItaT/(ThIn-TcO) end; procedure area(var Go,Re,rhoval,TotaIA,n:real; Tbulk,kax:real); var {Interpolates air properties for temperature} {increments, calculates Go,Re,h,U,kax and hence} {the area required, for the necessary heat} {transfer and length increment for calculating} {the pressure drop} {Multiplication factor for interpolation} {Specific heat, J/kg-K} {Thermal conductivity, W/m-K} {Prandtl no.} {Viscosity, Pa-s} {Intermediates for Nu} {Nusselts no.} {Convection heat transfer co-efficient, W/sq-m-K} {Overall thermal conductance, W/sq-m-K} {Intermediate factor for deltaA} zeta Cpval kval Prval muval first, second, third, fourth, fifth : real; Nu : real; h : real; U : real; Ntufl : real; plates : real; ax : real; po : real; deItaA : real; delL : real; x : integer; begin x:=l; : real; : real; : real; : real; : real; while NOT«Tbulk>=T[x]) AND (T[x+1]>Tbulk)) do x:=x+1; zeta:=(Tbulk-T[x])/(T[x+1]-T[x]); rhoval:=rho[x]+zeta*(rho[x+ 1]-rho[x]); for calculation of air '); '); high step '); '); {Intermediate factor for deItaA} {Intermediate factor for deltaA} {Intermediate factor for deItaA} {Area increment for temperature {Same as totL in ITERATE} {Index for array manipulation} increment, sq-m} A-95PDF Image | CO2 removal from air for alkaline fuel cells operating with liquid H2
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