Bioethanol Production Using Saccharomyces cerevisiae with Different Perspectives: Substrates, Growth Variables, Inhibitor Reduction and Immobilization

Fermentation Technology Pub Date : 2016-08-31 DOI:10.4172/2167-7972.1000131

B. Bhadana, Madhulika Chauhan

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引用次数: 35

Abstract

In the transportation sector, the most commonly used biofuel is ‘bioethanol’ to reduce greenhouse gases. Ethanol production at the industrial level is employed by many yeast, bacteria, and fungi. But Saccharomyces Cerevisiae is most employed yeast. Wide range of substrates has been used for ethanol production such as lignocellulose, molasses, sweat sorghum cane extract, starch based substrate and other wastes. Lignocellulosic hydrolysates contain many inhibitors that can be reduced by treatment with activated charcoal and reducing agents, repeated sequential fermentation, over-liming, evaporation, anion exchanger, enzymatic treatment using peroxidase and laccase, and in-situ detoxification with fermenting microbes. Co-culturing of S. Cerevisiae with other microbes is targeted for optimization of ethanol production, short fermentation time, and for reduced process cost. Yeast cell immobilization has been considered as a potential alternative to enhance ethanol productivity. This paper also reviews the effects of various factors on yeast fermentation for ethanol optimization.

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利用酿酒酵母生产生物乙醇:底物、生长变量、抑制剂还原和固定化

在运输部门，最常用的生物燃料是“生物乙醇”，以减少温室气体。许多酵母菌、细菌和真菌采用工业水平的乙醇生产。但酿酒酵母是最常用的酵母。广泛的底物已被用于乙醇生产，如木质纤维素、糖蜜、汗高粱甘蔗提取物、淀粉基底物和其他废物。木质纤维素水解物含有许多抑制剂，这些抑制剂可以通过活性炭和还原剂处理、重复顺序发酵、过石灰化、蒸发、阴离子交换剂、使用过氧化物酶和漆酶的酶处理以及发酵微生物的原位解毒来还原。酿酒酵母与其他微生物共培养的目标是优化乙醇生产，缩短发酵时间，降低工艺成本。酵母细胞固定化被认为是提高乙醇产量的潜在替代方法。综述了各种因素对酵母发酵乙醇优化的影响。

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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Fermentation Technology

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