Substance A in the liquid phase produces R and S by the following reactions: R r R =k 1 C A ^ 2 S 1 r s =k 2 C A The feed (CAo =1.0 , C Ra =0. , Cs 0 =0.3) enters two mixed flow reactors in series (r l =2.5 min, T2 = 10 min). Knowing the composition in the first reactor (C Al = 0.4, C Rl =0.2 . CS1=0.7) , find the composition leaving the second reactor.
Substance A in the liquid phase produces R and S by the following reactions: R r R =k 1 C A ^ 2 S 1 r s =k 2 C A The feed (CAo =1.0 , C Ra =0. , Cs 0 =0.3) enters two mixed flow reactors in series (r l =2.5 min, T2 = 10 min). Knowing the composition in the first reactor (C Al = 0.4, C Rl =0.2 . CS1=0.7) , find the composition leaving the second reactor.
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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Examples: Substance A in the liquid phase produces R and S by the following reactions: R r R =k 1 C A ^ 2 S 1 r s =k 2 C A The feed (CAo =1.0 , C Ra =0. , Cs 0 =0.3) enters two mixed flow reactors in series (r l =2.5 min, T2 = 10 min). Knowing the composition in the first reactor (C Al = 0.4, C Rl =0.2 . CS1=0.7) , find the composition leaving the second reactor.
Transcribed Image Text:Example 5:
Substance A in the liquid phase produces R and S by the following reactions:
R,
TR = k,C%
S,
rs = k,CA
The feed (CAo = 1.0, CRo = 0, Cso = 0.3) enters two mixed flow reactors in series
(tI = 2.5 min, t2 = 10 min). Knowing the composition in the first reactor (CA1=
0.4, CRI= 0.2, Csı = 0.7), find the composition leaving the second reactor.
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