A review on the chemo-catalytic conversion of cellulose to bio-ethanol

IF 9.1 Q1 ENGINEERING, CHEMICAL
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引用次数: 0

Abstract

While the industry has produced sugar-derived ethanol from the conventional method of fermentation for hundreds of years, other effective routes involving the direct transformation of carbohydrates still remain extremely rare. Very recently, an innovative chemo-catalytic method driven by the aqueous-phase catalysis was created for the synthesis of cellulosic ethanol, making a great breakthrough in the common ways as it can theoretically utilize all of the carbon atoms in sugars with faster kinetics; up to now, results from the relevant studies have been accumulated to a certain extent, but the periodic conclusions in this field are unfortunately absent. For this reason, this work tries to offer an overview of the cellulosic ethanol produced by chemo-catalytic routes, highlighting the present knowledge in relation to the technical efficiency, catalytic mechanisms as well as practical applications. At first, the advanced progress on the increasing efficiency from a varied type of catalytic systems are extensively discussed, which involves the specific functions of hybrid components from different strategies; meanwhile, the general influences of processing conditions, such as the hydrothermal severity and aqueous environments, are also identified. Subsequently, possible mechanisms behind the chemo-catalytic processes are widely elaborated by analyzing a number of experimental cases associated with the reaction network and its kinetic models. After that, the actual effects of this technique on the real biomass are collected to identify the positive/negative interactions between multiple components, together with the potential solutions on the semi-continuous processes of pilot scale application. The techno-economic analysis (TEA) is also calculated and compared with other similar methods, such as fermentation and gasification. Finally, several proposals aimed at upgrading the whole chain of chemo-catalytic processes are clearly provided, which may function as a guideline for future studies on the production of bio-ethanol from lignocellulosic materials.

Abstract Image

纤维素化学催化转化为生物乙醇研究进展
数百年来,业界一直采用传统的发酵法生产糖乙醇,但其他直接转化碳水化合物的有效途径仍然极为罕见。最近,一种由水相催化驱动的创新型化学催化方法被用于合成纤维素乙醇,这种方法在理论上可以以更快的动力学利用糖类中的所有碳原子,从而在普通方法上取得了重大突破;迄今为止,相关研究的成果已积累到一定程度,但遗憾的是,该领域还缺乏阶段性结论。因此,本研究试图概述通过化学催化路线生产纤维素乙醇的情况,重点介绍与技术效率、催化机制和实际应用有关的现有知识。首先,文章广泛讨论了各种类型催化系统在提高效率方面取得的先进进展,其中涉及不同策略中混合成分的特定功能;同时,文章还指出了水热严重程度和水环境等加工条件的一般影响。随后,通过分析与反应网络及其动力学模型相关的大量实验案例,广泛阐述了化学催化过程背后的可能机制。之后,收集了该技术对实际生物质的实际影响,以确定多种成分之间的正/负相互作用,以及在中试规模应用的半连续过程中的潜在解决方案。还计算了技术经济分析(TEA),并与发酵和气化等其他类似方法进行了比较。最后,还明确提出了几项旨在提升整个化学催化工艺链的建议,这些建议可作为今后利用木质纤维素材料生产生物乙醇的研究指南。
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
Green Chemical Engineering
Green Chemical Engineering Process Chemistry and Technology, Catalysis, Filtration and Separation
CiteScore
11.60
自引率
0.00%
发文量
58
审稿时长
51 days
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