using Matlab to solve this problem

The elementary gas-phase reaction (CH3)3COOC(CH3)3 C2H6 + 2CH3COCH3 A B + 2C is carried out isothermally at 400 K in a flow reactor with no pressure drop. The specific reaction rate at 50C is 10-4 min-1 (from preciosity data) and the activation energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127C and a molar flow rate of 2.5 mol/min, that is, FA = 2.5 mol/min. Use the algorithm for molar flow rates to formulate and solve the problem. Plot FA, FB, FC, and then X as a function of plug-flow reactor volume and space time to achieve 90% conversion. a. What space time is needed to achieve the same conversion in a CSTR? b. Compare the space time needed to obtain 99% conversion in a PFR vs. in a CSTR The elementary gas-phase reaction (CH3)3COOC(CH3)3 C2H6 + 2CH3COCH3 A B + 2C is carried out isothermally at 400 K in a flow reactor with no pressure drop. The specific reaction rate at 50C is 10-4 min-1 (from preciosity data) and the activation energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127C and a molar flow rate of 2.5 mol/min, that is, FA = 2.5 mol/min. Use the algorithm for molar flow rates to formulate and solve the problem. Plot FA, FB, FC, and then X as a function of plug-flow reactor volume and space time to achieve 90% conversion. a. What space time is needed to achieve the same conversion in a CSTR? b. Compare the space time needed to obtain 99% conversion in a PFR vs. in a CSTR