2. Set up a stoichiometric table for each of the following reactions and express the concentration of each species in the reaction as a function of conversion, evaluating all constants. Next, assume...


2. Set up a stoichiometric table for each of the following reactions and express the concentration<br>of each species in the reaction as a function of conversion, evaluating all constants. Next,<br>assume the reaction follows an elementary rate law, and write the reaction rate solely as a<br>function of conversion, that is, -A = f(X).<br>For the liquid-phase reaction<br>CH-OH<br>H2SO4<br>CH,–CH, + H,O<br>CH,–OH<br>the entering concentrations of ethylene oxide and water, after mixing the inlet streams, are<br>16.13 and 55.5 mol/dm3 , respectively. The specific reaction rate is k = 0.1 dm³/mol · s at 300 K<br>with E = 12500 cal/mol.<br>B. If the volumetric flow rate is 200 liters per second, what are the corresponding reactor<br>volumes?<br>

Extracted text: 2. Set up a stoichiometric table for each of the following reactions and express the concentration of each species in the reaction as a function of conversion, evaluating all constants. Next, assume the reaction follows an elementary rate law, and write the reaction rate solely as a function of conversion, that is, -A = f(X). For the liquid-phase reaction CH-OH H2SO4 CH,–CH, + H,O CH,–OH the entering concentrations of ethylene oxide and water, after mixing the inlet streams, are 16.13 and 55.5 mol/dm3 , respectively. The specific reaction rate is k = 0.1 dm³/mol · s at 300 K with E = 12500 cal/mol. B. If the volumetric flow rate is 200 liters per second, what are the corresponding reactor volumes?

Jun 08, 2022
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