Ethylene gas (25°C) and steam (30°C) and atmospheric pressure are fed to a reaction process in an equimolar mixture. The process produces ethanol by the reaction: C2H4(g) + H20(g) → C2H50H(1) The liquid ethanol exists the process at 25°C. What is the heat transfer associated with this overall process per mole of ethanol produced?

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
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Ethylene gas (25°C) and steam (30°C) and
atmospheric pressure are fed
to a reaction process in an equimolar mixture.
The process produces ethanol by the reaction:
C2H4(g) + H20(g) → C2H50H(I)
The liquid ethanol exists the process at 25°C.
What is the heat transfer associated with this
overall process per mole of ethanol produced?
Transcribed Image Text:Show complete solution. Round everything to 4 decimal places. Box all final answers Ethylene gas (25°C) and steam (30°C) and atmospheric pressure are fed to a reaction process in an equimolar mixture. The process produces ethanol by the reaction: C2H4(g) + H20(g) → C2H50H(I) The liquid ethanol exists the process at 25°C. What is the heat transfer associated with this overall process per mole of ethanol produced?
Standard Heat of Formation:
Delta H°298.15 = 52,510 J/mole (C2H4(g))
delta H°298.15 = -241,818 J/mole (H2O(g))
delta H°298.15 = -277,690 J/mole(C2H50H(I))
Cp =5/2 R for ethylene gas and Cp= 7/2 R for
steam
Transcribed Image Text:Standard Heat of Formation: Delta H°298.15 = 52,510 J/mole (C2H4(g)) delta H°298.15 = -241,818 J/mole (H2O(g)) delta H°298.15 = -277,690 J/mole(C2H50H(I)) Cp =5/2 R for ethylene gas and Cp= 7/2 R for steam
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