Microfiltration Performance of α-Alumina Membrane for Removal of Glycerol from Biodiesel

Industrial and Engineering Chemistry Pub Date : 2023-03-30 DOI:10.4028/p-ev6150

S. Kusumocahyo, Nabilla S Maharani, Silvya Yusri

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Abstract

In biodiesel industries, the removal of glycerol from biodiesel is very important in the downstream process of the biodiesel production since the presence of glycerol in biodiesel causes diesel engine problems. Glycerol is commonly separated from biodiesel by extraction method using water, however, this method results in a vast amount of wastewater and requires a high energy consumption. In this work, a ceramic microfiltration membrane made of α-alumina was applied to remove glycerol from biodiesel. The microfiltration experiment was carried out using biodiesel containing various glycerol concentrations as the feed. For all investigated glycerol concentrations from 1000 ppm until 10,000 ppm in the feed, the membrane showed an excellent separation performance with rejection values of 91 to 99%. The profile of the permeate flux against the permeation time showed a flux decline because of the fouling phenomenon during the crossflow microfiltration experiment, and stable permeate fluxes were obtained after 2 h of permeation time. The result of this work showed that the separation process using the microfiltration membrane is a promising method to purify biodiesel instead of the conventional water washing method.

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α-氧化铝膜去除生物柴油中甘油的微滤性能

在生物柴油工业中，从生物柴油中去除甘油在生物柴油生产的下游过程中是非常重要的，因为生物柴油中甘油的存在会导致柴油发动机出现问题。从生物柴油中分离甘油通常采用用水提取的方法，但该方法产生大量废水，能耗高。采用α-氧化铝陶瓷微滤膜去除生物柴油中的甘油。以不同甘油浓度的生物柴油为原料，进行了微滤实验。对于饲料中1000ppm至10000ppm的所有甘油浓度，膜表现出良好的分离性能，截留值为91%至99%。在横流微滤实验中，由于结垢现象，渗透通量随渗透时间的变化曲线呈下降趋势，渗透时间为2 h后，渗透通量趋于稳定。研究结果表明，微滤膜分离是一种很有前途的生物柴油净化方法，可以代替传统的水洗法。

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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Industrial and Engineering Chemistry

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