1. An important time parameter in reaction engineering is the reactor space time t, the time needed to process one reactor volume of fluid. For an ideal plug-flow reactor (PFR), a mass balance gives a design equation of faout dfa = Cao JAIR -TA where CAO is the initial concentration of reactant A, f, is the fractional conversion, and rA is the rate of reaction. We can see that by plotting fractional conversion data against-1/TA, space time can be calculated by integration. Rate data were collected straight from the reactor with the innovative rate meter. fA -FA (M/S) 3.94 0 0.1 2.91 0.2 2.33 0.3 1.95 0.4 1.47 0.5 1.08 0.6 0.82 0.7 0.49 0.8 0.34 Given CAO = 5M calculate the space time of an ideal PFR. Let fAin 0.05 and fout = 0.75.

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1. An important time parameter in reaction engineering is the reactor space time t, the time needed to process one reactor volume of fluid. For an ideal plug-flow reactor (PFR), a mass balance gives a design equation of JAout dfa = Cao Ain A where CAO is the initial concentration of reactant A, fa is the fractional conversion, and rA is the rate of reaction. We can see that by plotting fractional conversion data against-1/A, space time can be calculated by integration. Rate data were collected straight from the reactor with the innovative rate meter. fA -IA (M/S) 3.94 0 0.1 2.91 0.2 2.33 0.3 1.95 0.4 1.47 0.5 1.08 0.6 0.82 0.7 0.49 0.8 0.34 Given CAO = 5M calculate the space time of an ideal PFR. Let fAin 0.05 and fout = 0.75.