A and B react at constant T and P as ideal gases (only A, B and inert I are present in the feed): °C&500 m3 mol/hr A +B - R, with -rA = kCo.800, where k = 12.87- moiShr When the feed rate is 100....

Extracted text: A and B react at constant T and P as ideal gases (only A, B and inert I are present in the feed): °C&500 m3 mol/hr A +B - R, with -rA = kCo.800, where k = 12.87- moiShr When the feed rate is 100. m/hr, you need to obtain 75% conversion of A in a feed stream with CAO = 30.0, Ceo = 30.0 and Cio = 60.0, all in mol/m?. Complete the table shown below and use the "Simpson's 4 rule" the CHE 443 numerical integrals handout to evaluate the appropriate integral required, then calculate the required volume of a PFR in m³ to obtain the specified conversion for this feed stream. XA f(XA only) integrand 0.25 0.5 0.75 (Ans: 2.0699) (Ans: VPFR = 4.16 m)