Problem 5-9. The liquid phase reaction A + BC follows an elementary rate law and is carried out isothermally in a flow system. The concentration of A and B feed streams are 2 M before mixing. The volumetric flow rate of each stream is 5 L/min and the entering temperature is 300 K. The streams are mixed immediately before entering. Two reactors are available. A 200 L CSTR reactor that can only be heated to 77 C, and a 800 L PFR operated at 300 K that cannot be heated or cooled. Note that k = 0.07 L/mol/min at 300 K and E = 20 kcal/mol. Which reactor should you use to obtain the highest conversion?
Problem 5-9. The liquid phase reaction A + BC follows an elementary rate law and is carried out isothermally in a flow system. The concentration of A and B feed streams are 2 M before mixing. The volumetric flow rate of each stream is 5 L/min and the entering temperature is 300 K. The streams are mixed immediately before entering. Two reactors are available. A 200 L CSTR reactor that can only be heated to 77 C, and a 800 L PFR operated at 300 K that cannot be heated or cooled. Note that k = 0.07 L/mol/min at 300 K and E = 20 kcal/mol. Which reactor should you use to obtain the highest conversion?
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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Problem 5-9. The liquid phase reaction A + BC follows an elementary rate law and is carried out
isothermally in a flow system. The concentration of A and B feed streams are 2 M before mixing. The
volumetric flow rate of each stream is 5 L/min and the entering temperature is 300 K. The streams are
mixed immediately before entering. Two reactors are available. A 200 L CSTR reactor that can only be
heated to 77 C, and a 800 L PFR operated at 300 K that cannot be heated or cooled. Note that k = 0.07
L/mol/min at 300 K and E = 20 kcal/mol. Which reactor should you use to obtain the highest
conversion?
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