Briefly explain the role of each of the following properties or parameters in the liquid-liquid extraction process. Include if it should it be high or low (or something else), and why. Although the answers should be generally valid for any LLE process, assume the solvents to be immiscible (to prevent far- fetched answers). Use no more than 100 words per explanation. (iv) Relative volatility between the feed solvent and extracting solvent. (v) Relative volatility between the solute and extracting solvent. (vi) The ratio of flow rates of feed over extracting solvent.

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
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Briefly explain the role of each of the following properties or parameters in the
liquid-liquid extraction process. Include if it should it be high or low (or
something else), and why. Although the answers should be generally valid
for any LLE process, assume the solvents to be immiscible (to prevent far-
fetched answers). Use no more than 100 words per explanation.
(iv) Relative volatility between the feed solvent and extracting solvent.
(v) Relative volatility between the solute and extracting solvent.
(vi) The ratio of flow rates of feed over extracting solvent.
Transcribed Image Text:Briefly explain the role of each of the following properties or parameters in the liquid-liquid extraction process. Include if it should it be high or low (or something else), and why. Although the answers should be generally valid for any LLE process, assume the solvents to be immiscible (to prevent far- fetched answers). Use no more than 100 words per explanation. (iv) Relative volatility between the feed solvent and extracting solvent. (v) Relative volatility between the solute and extracting solvent. (vi) The ratio of flow rates of feed over extracting solvent.
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