1. The following reaction occurs in a reactor: → C₂H4 C₂H6 (Ethane, E) + H₂ (Ethylene, Y) The reactor feed contains 90 mole% Ethane and 10 mole% H₂, at a total flow rate of 100 mol/s. The product stream contains ethane and ethylene in a ratio of 10 moles ethane/1.0 mole ethylene. a) Using molecular approach, determine the degree of freedom and calculate the flow rate of each species in the product stream. b) Using atomic approach, determine the degree of freedom and calculate the flow rate of each species in the product stream. c) Calculate the fractional conversion of ethane
1. The following reaction occurs in a reactor: → C₂H4 C₂H6 (Ethane, E) + H₂ (Ethylene, Y) The reactor feed contains 90 mole% Ethane and 10 mole% H₂, at a total flow rate of 100 mol/s. The product stream contains ethane and ethylene in a ratio of 10 moles ethane/1.0 mole ethylene. a) Using molecular approach, determine the degree of freedom and calculate the flow rate of each species in the product stream. b) Using atomic approach, determine the degree of freedom and calculate the flow rate of each species in the product stream. c) Calculate the fractional conversion of ethane
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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Transcribed Image Text:1. The following reaction occurs in a reactor:
C₂H6
(Ethane, E)
→ C₂H4
+ H₂
(Ethylene, Y)
The reactor feed contains 90 mole% Ethane and 10 mole% H₂, at a total flow rate of 100 mol/s. The product
stream contains ethane and ethylene in a ratio of 10 moles ethane/1.0 mole ethylene.
a) Using molecular approach, determine the degree of freedom and calculate the flow rate of each species
in the product stream.
b) Using atomic approach, determine the degree of freedom and calculate the flow rate of each species in
the product stream.
c) Calculate the fractional conversion of ethane
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