Chemical Reaction Engineering Question -

-Show each step clearly in your derivations required in the solution of each problem. - DO NOT USE the final equations directly from your textbook. Simpsons Rule R: 1.987cal/molK, 0.082 L.atm/mol.K, 8.314 J/mol.K

2. A first-order reaction; AB 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 10m3/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 (T2f) for the second reactor? DATA CA0=1mol/m30=10m3/hHR=15000cal/molCpA=CpB=42cal/molCk=110+0.8(T200)h1(TC) 2. A first-order reaction; AB 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 10m3/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 (T2f) for the second reactor? DATA CA0=1mol/m30=10m3/hHR=15000cal/molCpA=CpB=42cal/molCk=110+0.8(T200)h1(TC)