A ........................................ B A 1st order reaction takes place in a continuous flow reactor at a temperature of 77 ° C. The feed containing 0.5 mol / dm3 A material initially is fed to the reactor at a flow rate of 10 dm3 / min. The maximum conversion rate obtained in this reactor is X = 0.75. What would the maximum conversion rate be if this reaction was carried out in a PFR reactor with the same volume as the CSTR reactor at a temperature of 52 ° C? In both cases, the inlet flow rates to the reactor are equal to the outlet flow rates. (Activation energy of the reaction, E = 20 kcal / mol, R = 1.987 cal / K.mol)
A ........................................ B A 1st order reaction takes place in a continuous flow reactor at a temperature of 77 ° C. The feed containing 0.5 mol / dm3 A material initially is fed to the reactor at a flow rate of 10 dm3 / min. The maximum conversion rate obtained in this reactor is X = 0.75. What would the maximum conversion rate be if this reaction was carried out in a PFR reactor with the same volume as the CSTR reactor at a temperature of 52 ° C? In both cases, the inlet flow rates to the reactor are equal to the outlet flow rates. (Activation energy of the reaction, E = 20 kcal / mol, R = 1.987 cal / K.mol)
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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A ........................................ B
A 1st order reaction takes place in a continuous flow reactor at a temperature of 77 ° C. The feed containing 0.5 mol / dm3 A material initially is fed to the reactor at a flow rate of 10 dm3 / min. The maximum conversion rate obtained in this reactor is X = 0.75. What would the maximum conversion rate be if this reaction was carried out in a PFR reactor with the same volume as the CSTR reactor at a temperature of 52 ° C? In both cases, the inlet flow rates to the reactor are equal to the outlet flow rates. (Activation energy of the reaction, E = 20 kcal / mol, R = 1.987 cal / K.mol)
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