Question1 The elementary gas-phase reaction A + B + 2C is carried out isothermally in a flow reactor with no pressure drop. The specific reaction rate at 50C is 10-4 min-and the activation energy is 85 kJ/mol. Pure A enters the reactor at 10 atm and 127C and a molar flow rate of 2.5 mol/min. Calculate the reactor volume to achieve 90% conversion in: (If you use MATLAB to solve the problems, paste the codes in each subquestion, and submit your homework in ONE PDF) (a) a PFR (b) a CSTR (c) Pressure drop. Plot the conversion (X) and pressure (P) as a function of the PFR volume when a=0.001 dm-3. What are X and P at V = 500 din?? (d) Assume that the reaction is reversible with K = 0.025 mol/dm, and calculate the equilibrium conversion. (e) redo (a) to achieve a conversion that is 90% of the equilibrium conversion for reversible reaction from (d). (1) redo (b) to achieve a conversion that is 90% of the equilibrium conversion for reversible reaction from (d). (g) redo (e) for reversible reaction from (d)