Question 1. The homogenous, irreversible, exothermic, liquid phase reaction A → R, is being carried out in a reactor system consisting of two ideal CFSTR in series. The molar flow rate of A entering the first CFSTR is 55,000 mol h-1. At the system entrance, the concentration of A is 6.5 mol L·1 and the concentration of R is negligible. The rate constant for the forward reaction is 1.28 h-1 and the overall conversion of A in the system is 0.75. (a) If the volume of the second CFSTR is 10,000 L, determine the required volume of the first CFSTR.
Question 1. The homogenous, irreversible, exothermic, liquid phase reaction A → R, is being carried out in a reactor system consisting of two ideal CFSTR in series. The molar flow rate of A entering the first CFSTR is 55,000 mol h-1. At the system entrance, the concentration of A is 6.5 mol L·1 and the concentration of R is negligible. The rate constant for the forward reaction is 1.28 h-1 and the overall conversion of A in the system is 0.75. (a) If the volume of the second CFSTR is 10,000 L, determine the required volume of the first CFSTR.
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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1. The homogenous, irreversible, exothermic, liquid phase reaction A → R,
is being carried out in a reactor system consisting of two ideal CFSTR in
series.
The molar flow rate of A entering the first CFSTR is 55,000 mol h-1. At the
system entrance, the concentration of A is 6.5 mol L·1 and the
concentration of R is negligible. The rate constant for the forward reaction
is 1.28 h-1 and the overall conversion of A in the system is 0.75.
(a) If the volume of the second CFSTR is 10,000 L, determine the
required volume of the first CFSTR.
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