Mass Transfer in Extractive Distillation when Using Ionic Liquids as Solvents

Heat and Mass Transfer - Advances in Modelling and Experimental Study for Industrial Applications Pub Date : 2018-09-19 DOI:10.5772/INTECHOPEN.76544

E. Quijada-Maldonado, Wytze G. Meidersma, André B. deHaan

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引用次数: 3

Abstract

Mass transfer efficiency study in extractive distillation with ionic liquids for the mixtures water-ethanol and toluene-methylcyclohexane has been carried out in this work. Ionic liquids for the separation of these mixtures overcome the performance of the common volatile organic solvents. However, these also showed higher viscosities. A rated-based analysis was performed in order to quantify the effect of the solvent viscosity and relative volatility on mass transfer efficiency. In addition to this, an experimental analysis of the mass transfer efficiency was carried out experimentally in an extractive distillation pilot plant. The results indicated that, high liquid viscosities of ionic liquids should not affect the mass transfer efficiency negatively if the produced relative volatilities are sufficiently higher than those produced by organic solvents. However, when the ionic liquid showed very high viscosities or this solvent was present in large concentrations inside the col- umn, the mass transfer efficiency decreases no matter how high the relative volatility is.

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以离子液体为溶剂的萃取精馏传质

对离子液体萃取精馏水-乙醇-甲苯-甲基环己烷混合物的传质效率进行了研究。离子液体用于分离这些混合物，克服了普通挥发性有机溶剂的性能。然而，这些也显示出较高的粘度。为了量化溶剂粘度和相对挥发性对传质效率的影响，进行了基于速率的分析。此外，还在萃取精馏中试装置上进行了传质效率的实验分析。结果表明，如果离子液体产生的相对挥发性足够高，则离子液体的高粘度不会对传质效率产生负面影响。然而，当离子液体粘度非常高或该溶剂在柱内浓度较大时，无论相对挥发度多高，传质效率都会降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Heat and Mass Transfer - Advances in Modelling and Experimental Study for Industrial Applications

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