Production of A Biolubricant by Enzymatic Esterification: Possible Synergism Between Ionic Liquid and Enzyme

IF 0.5 Q4 ENGINEERING, CHEMICAL
Z. Bedő, K. Bélafi-Bakó, N. Nemestóthy, L. Gubicza
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引用次数: 1

Abstract

Abstract The possible replacement of lubricants with fossil-fuel sources and the manufacture of biolubricants with more beneficial features were studied. Oleic acid and isoamyl alcohol were reacted with an enzyme in an ionic liquid. During the reaction conventional as well as microwave heating was applied. After the experimental determination of the optimal reaction parameters, it was unexpectedly found that a synergistic effect occurred by applying ionic-liquid and microwave-heat treatment simultaneously. The enzyme exhibited a much higher level of activity than the value expected based on the measurements carried out separately by using an ionic liquid instead of an organic solvent and microwave-heat treatment or a conventional method. In the experiments with recycled enzyme it was found that ionic liquid maintained the enzyme more effectively, as if it was immobilized by it: the enzyme managed to maintain its activity and recycling ability.
酶酯化法生产生物润滑剂:离子液体和酶之间可能的协同作用
摘要:研究了化石燃料替代润滑油的可能性和制造更有益特性的生物润滑油的方法。油酸和异戊醇在离子液体中与酶反应。在反应过程中,采用了常规加热和微波加热。在实验确定最佳反应参数后,意外地发现离子-液体和微波-热处理同时进行会产生协同效应。该酶的活性水平远远高于使用离子液体代替有机溶剂和微波热处理或传统方法单独进行的测量所期望的值。在回收酶的实验中,我们发现离子液体更有效地维持酶,就好像它被它固定了一样:酶设法保持了它的活性和回收能力。
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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来源期刊
自引率
50.00%
发文量
9
审稿时长
6 weeks
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