Example 5: For a system of methanol (1) and methyl-acetate (2) mixture, the following 7 equations provide the activity coefficients values: Iny, = Ax3, InyY2 = Ax² where A = 1.3424 – 0.00523 T(C) %3D Using the Modified Raoult's Law, calculate the followings: A) Bubble P and the composition of the first bubble of vapor for the liquid mixture of x]= 0.3 at T=300.15 K. B) Dew P and the composition of the first liquid drop for the vapor mixture of yr= 0.4 at T=300.15 K. C) Bubble T and the composition of the first bubble of vapor for the liquid mixture of x]= 0.8 at P=100 kPa

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
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Example 5: For a system of methanol (1) and methyl-acetate (2) mixture, the following
7
equations provide the activity coefficients values:
Iny = Ax2, Iny2 = Ax? where A = 1.3424 – 0.00523 T(C)
Using the Modified Raoult's Law, calculate the followings:
A) Bubble P and the composition of the first bubble of vapor for the liquid mixture of
x= 0.3 at T=300.15 K.
B) Dew P and the composition of the first liquid drop for the vapor mixture of y=
0.4 at T=300.15 K.
C) Bubble T and the composition of the first bubble of vapor for the liquid mixture of
x= 0.8 at P=100 kPa
D) Dew T and the composition of the first liquid drop for the vapor mixture of yı=
0.6 at P=100 kPa.
Transcribed Image Text:Example 5: For a system of methanol (1) and methyl-acetate (2) mixture, the following 7 equations provide the activity coefficients values: Iny = Ax2, Iny2 = Ax? where A = 1.3424 – 0.00523 T(C) Using the Modified Raoult's Law, calculate the followings: A) Bubble P and the composition of the first bubble of vapor for the liquid mixture of x= 0.3 at T=300.15 K. B) Dew P and the composition of the first liquid drop for the vapor mixture of y= 0.4 at T=300.15 K. C) Bubble T and the composition of the first bubble of vapor for the liquid mixture of x= 0.8 at P=100 kPa D) Dew T and the composition of the first liquid drop for the vapor mixture of yı= 0.6 at P=100 kPa.
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