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Consider the following scheme of elementary reactions: E₁ = 79 kJ/mol E₂ = 113 kJ/mol E3 = 126 kJ/mol E4 = 151 kJ/mol Es=0 RU 15 A²T4S What temperature progression would you recommend if the desired product is: (a) R, (b) S, (c) T, (d) U and if reactor size is not important? This industrially important reaction scheme is reported by Binns et al. (1969) and is used by Husain and Gangiah (1976, p. 245). In this problem we inter- changed two of the reported E values to make the problem more interesting.

Consider the following scheme of elementary reactions: E₁ = 79 kJ/mol E₂ = 113 kJ/mol E3 = 126 kJ/mol E4 = 151 kJ/mol Es=0 RU 15 A²T4S What temperature progression would you recommend if the desired product is: (a) R, (b) S, (c) T, (d) U and if reactor size is not important? This industrially important reaction scheme is reported by Binns et al. (1969) and is used by Husain and Gangiah (1976, p. 245). In this problem we inter- changed two of the reported E values to make the problem more interesting.

Introduction to Chemical Engineering Thermodynamics
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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Consider the following scheme of elementary reactions: E₁ = 79 kJ/mol E₂ = 113 kJ/mol E3 = 126 kJ/mol E4 = 151 kJ/mol Es=0 RU 15 ATAS What temperature progression would you recommend if the desired product is: (a) R, (b) S, (c) T, (d) U and if reactor size is not important? This industrially important reaction scheme is reported by Binns et al. (1969) and is used by Husain and Gangiah (1976, p. 245). In this problem we inter- changed two of the reported E values to make the problem more interesting.
Transcribed Image Text:Consider the following scheme of elementary reactions: E₁ = 79 kJ/mol E₂ = 113 kJ/mol E3 = 126 kJ/mol E4 = 151 kJ/mol Es=0 RU 15 ATAS What temperature progression would you recommend if the desired product is: (a) R, (b) S, (c) T, (d) U and if reactor size is not important? This industrially important reaction scheme is reported by Binns et al. (1969) and is used by Husain and Gangiah (1976, p. 245). In this problem we inter- changed two of the reported E values to make the problem more interesting.
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