Question: PLEASE ANSWER CORRECTLY is to be carried out in two adiabatic PFR reactors in series. The temperature of the stream at the exit of the
is to be carried out in two adiabatic PFR reactors in series. The temperature of the stream at the exit of the first reactor is 340C. The concentration of the reactant A which enters the first reactor is 1mol/m3 and the inlet volumetric flowrate is 10m2/h. Schematic diagram and the related data are given below. a) Calculate the volume of the second reactor required in order to obtain 70% conversion of A at the exit? b) Calculate the temperature of the exit stream (T3) for the second reactor? DATA CNa=1mol/m30=10m3/hH=15000cal/molCPA=Cpe2=42cal/mol.Ck=110+0.8(T200)h1(TinC) is to be carried out in two adiabatic PFR reactors in series. The temperature of the stream at the exit of the first reactor is 340C. The concentration of the reactant A which enters the first reactor is 1mol/m3 and the inlet volumetric flowrate is 10m2/h. Schematic diagram and the related data are given below. a) Calculate the volume of the second reactor required in order to obtain 70% conversion of A at the exit? b) Calculate the temperature of the exit stream (T3) for the second reactor? DATA CNa=1mol/m30=10m3/hH=15000cal/molCPA=Cpe2=42cal/mol.Ck=110+0.8(T200)h1(TinC)
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