The following set of mechanistic equations shows the multiple reactions involving aluminium catalyst-complex intermediate in the reaction which is consistent with their experimental results. It was...

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Extracted text: The following set of mechanistic equations shows the multiple reactions involving aluminium catalyst-complex intermediate in the reaction which is consistent with their experimental results. It was found butadiene was rapidly consumed in this reaction. k1 AICI3+M→AICI3 M k2 B+AIC}3-MC-AICI, (slow) k3 C-AICI3 →C+AIC13 (fast) (Equation 1) (Equation 2) (fast) (Equation 3)


Extracted text: (a) These investigators reported that reaction is an elementary and the second-order rate constant for the reaction is equal to 1.15 x 10° mI(mol-s) at 20 °C. Determine the volume of Plug Flow Reactor (PFR) that would be necessary to achieve 40% conversion of the feed butadiene assuming isothermal operating conditions and a liquid feed rate of 0.500 x 10° m°/s. The feed concentrations (in mol/m°) are as follows: Butadiene (B): 96.5 mol/m Methyl acrylate (M): 193 mol/m³ AICI3 (A): 6.63 mol/m3 Plot the concentration profile (concentration versus the length of the reactor) of the reactants and products as the reaction taking place in the reactor. Discuss your predicted findings from your assumed range of tested data. Hint: Use Microsoft Excel for instance to test your concentration profile.