At a particular section of an equipment for absorption of the solute A in a liquid, the bulk gas phase contains 9.5 mol% A and the liquid contains 2 mol% of it. The gas-film coefficient (ky) is = 10 kmol/(hr)(m²)(Ay) and the liquid film mass transfer coefficient (kx) is = 5.6667 kmol/(hr)(m²)(Ax). The equilibrium is given by the relation yA = 0.85x4. Calculate (a) the overall mass transfer coefficient on liquid phase basis (Kx), (b) the molar flux of A, and (c) the interfacial concentrations of solute, xAi and y Ai-
At a particular section of an equipment for absorption of the solute A in a liquid, the bulk gas phase contains 9.5 mol% A and the liquid contains 2 mol% of it. The gas-film coefficient (ky) is = 10 kmol/(hr)(m²)(Ay) and the liquid film mass transfer coefficient (kx) is = 5.6667 kmol/(hr)(m²)(Ax). The equilibrium is given by the relation yA = 0.85x4. Calculate (a) the overall mass transfer coefficient on liquid phase basis (Kx), (b) the molar flux of A, and (c) the interfacial concentrations of solute, xAi and y Ai-
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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Transcribed Image Text:QUESTION 11
8p
At a particular section of an equipment for absorption of the solute A in a liquid, the bulk gas phase contains
9.5 mol% A and the liquid contains 2 mol% of it. The gas-film coefficient (ky) is = 10 kmol/(hr)(m-)(Ay)
and the liquid film mass transfer coefficient (kx) is = 5.6667 kmol/(hr)(m-(Ax). The equilibrium is given by
the relation yA =
the molar flux of A, and (c) the interfacial concentrations of solute, x Ai and y Ai-
0.85x4. Calculate (a) the overall mass transfer coefficient on liquid phase basis (Kx), (b)
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