Review on “Membranes for Ethanol-Water Separation”

Silpakorn University Science and Technology Journal Pub Date : 2016-07-22 DOI:10.14456/SUSTJ.2016.21

S. Wongkasemjit, Panupong Chuntanalerg, S. Kulthipanja, T. Chaisuwan

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引用次数: 1

Abstract

Bioethanol fuel produced directly from the renewable biomass is one of the truly important energy developments in Thailand. Typically, the ethanol concentration after fermentation is quite low. Normally, ethanol, as called anhydrous ethanol or absolute ethanol used for fuel energy, is required 99.5% purity or concentration. It is necessary to use energy-effective separation method for concentrating ethanol up to the fuel level. There are several techniques used to purify ethanol such as distillation, membrane technology and molecular sieve separation. Recently, the less energyintensive technique of pervaporation is found to be a promising method for producing high-purity ethanol, but the overall economic feasibility is dependent upon the membrane. Thus, in this review, various membranes reported in literature are discussed and compared as to their advantages, disadvantages, and separation performance via the pervaporation process. It is found that different membranes provide different performances and advantages in ethanol separation. Other parameters governing the separation performance, such as temperature, ethanol concentration, membrane production method, and production cost, are also included.

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“乙醇-水分离膜”综述

直接由可再生生物质生产的生物乙醇燃料是泰国真正重要的能源发展之一。通常，发酵后的乙醇浓度很低。通常，乙醇，称为无水乙醇或用于燃料能源的绝对乙醇，要求纯度或浓度为99.5%。为了将乙醇浓缩到燃料水平，有必要采用节能的分离方法。乙醇的提纯有蒸馏、膜技术和分子筛分离等几种技术。近年来，低能耗的渗透蒸发技术被认为是生产高纯度乙醇的一种很有前途的方法，但整体经济可行性取决于膜。因此，在这篇综述中，讨论和比较了文献中报道的各种膜的优点、缺点和通过渗透蒸发过程的分离性能。研究发现，不同的膜在乙醇分离中具有不同的性能和优势。还包括控制分离性能的其他参数，如温度、乙醇浓度、膜生产方法和生产成本。

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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Silpakorn University Science and Technology Journal

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