The Raoult's Law states that the vapor pressure of a solute (P;) is equal to the molar fraction of a chemical species (x) multiplied by the pure component vapor pressure (P) of that chemical species: P = x,P; For a binary system, there only two components in the liquid and in the gas phases. Thus: P, = P. P Vi = = x:- Pr Yi = 1.0 Pr For water/ethanol system (ethanol is 40% wt), calculate the f a. Partial pressure of water and ethanol; b. Molar fraction of ethanol and water in the gas phase; c. If we have a gas with the same composition with the vapor above the liquid as the mentioned binary system, held at a constant temperature of 35°C, calculate the pressure in which the gas starts to condense.

The Raoult's Law states that the vapor pressure of a solute (P;) is equal to the molar fraction of a chemical species (x) multiplied by the pure component vapor pressure (P) of that chemical species: P = x,P; For a binary system, there only two components in the liquid and in the gas phases. Thus: P, = P. P Vi = = x:- Pr Yi = 1.0 Pr For water/ethanol system (ethanol is 40% wt), calculate the f a. Partial pressure of water and ethanol; b. Molar fraction of ethanol and water in the gas phase; c. If we have a gas with the same composition with the vapor above the liquid as the mentioned binary system, held at a constant temperature of 35°C, calculate the pressure in which the gas starts to condense.

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

The Raoult's Law states that the vapor pressure of a solute (P;) is equal to the molar fraction of a chemical species
(x;) multiplied by the pure component vapor pressure (P) of that chemical species:
P = x;P
For a binary system, there only two components in the liquid and in the gas phases. Thus:
P
P
Yi = = X
Pr
Pr =
P
Y; = 1.0
i
For water/ethanol system (ethanol is 40% wt), calculate the ff
a. Partial pressure of water and ethanol;
b. Molar fraction of ethanol and water in the gas phase;
If we have a gas with the same composition with the vapor above the liquid as the mentioned binary system, held at
c.
a constant temperature of 35°C, calculate the pressure in which the gas starts to condense.

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