3C(s) + 3H, (g) → C,H, (g.propylene) AH" = +20.42 kJ/ mol C(s) + 02(g) CO,(g) AH" = -393.51 kJ/ mol H2(g) + 02(g) H20(1) AH = -285.83 kJ/ mol C3H6(g,cyclopropane) + 4 02(9) - 3C0,(g) + 3H,0(1) AH" = -2091.00 kJ/ mol
3C(s) + 3H, (g) → C,H, (g.propylene) AH" = +20.42 kJ/ mol C(s) + 02(g) CO,(g) AH" = -393.51 kJ/ mol H2(g) + 02(g) H20(1) AH = -285.83 kJ/ mol C3H6(g,cyclopropane) + 4 02(9) - 3C0,(g) + 3H,0(1) AH" = -2091.00 kJ/ mol
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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Question
Transcribed Image Text:Isomerization reaction is the chemical process by which a compound is transformed into any of its
isomeric forms with the same chemical composition but with different structure or configuration
and, hence, generally with different physical and chemical properties. For an example, propene or
propylene can be converted into cyclopropane in an isomerization reaction. Assume 255 g of
propene (propylene) are converted into cyclopropane at 25 °C as shown below:
C:Hog, propylene) – C:Hs(g, cyclopropane)
Calculate the change in enthalpy by showing each step by using the related enthalpy of combustion
and formation also with the Hess's law for the above mentioned condition by using the data given
below:
3C(s) + 3H, (g) C,H, (g,propylene)
AH" = +20.42 kJ/ mol
C(s) + 02(g) Co,(g)
AH = -393.51 kJ/ mol
Ha(g) + 늘02(0)→ Ha0()
AH" = -285.83 kJ/ mol
C3H,(g, cyclopropane) + 4; 02(9) - 3CO2(g) + 3H,0(1)
AH" = -2091.00 kJ/ mol
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