A liquid stream containing half n-hexane and half n-pentane at 80°C and 5 atm is fed at a rate of 100 mol/hr to a flash evaporator operating at pressure (P) and 65°C. The decrease in pressure causes a lot of the liquid to vaporize. The liquid and vapor exit streams are in equilibrium with each other at the same temperature and pressure as in the evaporator. The liquid exit stream contains 59% hexane. a. Calculate the evaporator pressure (P), the fraction of hexane in the vapor stream, and the flow rates of the exiting liquid and vapor streams. b. Calculate the rate of heat flow to or from (specify which, to OR from) the evaporator. c. Usually we think of evaporators as units that increase temperature to vaporize species. Explain how this flash evaporator is able to vaporize the feed with a decrease in temperature.
A liquid stream containing half n-hexane and half n-pentane at 80°C and 5 atm is fed at a rate of 100 mol/hr to a flash evaporator operating at pressure (P) and 65°C. The decrease in pressure causes a lot of the liquid to vaporize. The liquid and vapor exit streams are in equilibrium with each other at the same temperature and pressure as in the evaporator. The liquid exit stream contains 59% hexane. a. Calculate the evaporator pressure (P), the fraction of hexane in the vapor stream, and the flow rates of the exiting liquid and vapor streams. b. Calculate the rate of heat flow to or from (specify which, to OR from) the evaporator. c. Usually we think of evaporators as units that increase temperature to vaporize species. Explain how this flash evaporator is able to vaporize the feed with a decrease in temperature.
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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A liquid stream containing half n-hexane and half n-pentane at 80°C and 5 atm is fed at a rate of 100 mol/hr to a flash evaporator operating at pressure (P) and 65°C. The decrease in pressure causes a lot of the liquid to vaporize. The liquid and vapor exit streams are in equilibrium with each other at the same temperature and pressure as in the evaporator. The liquid exit stream contains 59% hexane.
a. Calculate the evaporator pressure (P), the fraction of hexane in the vapor stream, and the flow rates of the exiting liquid and vapor streams.
b. Calculate the rate of heat flow to or from (specify which, to OR from) the evaporator.
c. Usually we think of evaporators as units that increase temperature to vaporize species. Explain how this flash evaporator is able to vaporize the feed with a decrease in temperature.
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