细菌纳米纤维素复合生物催化剂在糖化和发酵过程中淀粉转化为生物乙醇的研究

Athanasios Drosos, Agapi Dima, Panagiotis Kandylis, Theano Petsi, Poonam S. Nigam, Athanasios A. Koutinas, Maria Kanellaki
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引用次数: 0

摘要

摘要将淀粉酶和酿酒酵母分别固定化在细菌纳米纤维素(BNC)上的复合生物催化剂(CB)用于淀粉(5%,w/v)同时糖化发酵(SSF)生产生物乙醇。研究了以下参数:1)在淀粉酶共固定过程中添加磷酸盐和/或二价金属离子盐,2)所需共固定时间,3)淀粉的发酵温度和初始pH值,4)单次或双次冷冻干燥的CB。两次冷冻干燥的黑炭黑发酵效率为89.9%,乙醇产率为0.51 g乙醇g - 1淀粉,而单次冷冻干燥的黑炭黑发酵效率为81.1%,乙醇产率为0.46 g乙醇g - 1淀粉。在两次冷冻干燥的情况下,两次循环的发酵效率仅下降27.1%,而在一次冷冻干燥的情况下,发酵效率下降51.3%。双冷冻干燥CB的应用可以用于:i)生态友好型生物合成的增值生物产品;Ii)通过淀粉废物或食品淀粉残渣处理获得燃料级生物乙醇的有希望的选择,以及iii)工业化的实施。最后,通过应用CB模型模拟淀粉一步SSF的工业过程,对技术经济分析进行了评估,其中使用bnc使生物过程同时具有成本效益和环境效益。
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Bacterial Nanocellulose‐Based Composite Biocatalysts for Starch‐to‐Bioethanol Valorization under Simultaneous Saccharification and Fermentation
Abstract Composite biocatalysts (CB) consisting of amylases and Saccharomyces cerevisiae immobilized separately on bacterial nanocellulose (BNC) are used for the process of simultaneous saccharification and fermentation (SSF) of starch (5%, w/v) for bioethanol production. Parameters such as: i) addition of phosphates and/or divalent metal‐ions salts during the co‐immobilization process of the amylases, ii) required co‐immobilization time, iii) fermentation temperature and initial pH of starch, and iv) CB as single or double freeze‐dried are studied. The utilization of double freeze‐dried CB exhibits fermentation efficiency 89.9% and ethanol yield 0.51 g ethanol g −1 starch while the single freeze‐dried CB 81.1% and 0.46 g ethanol g −1 starch, respectively. In the case of double freeze‐dried CB, the fermentation efficiency decreases by only 27.1% in two‐recycling batches, while in the single freeze‐dried one decreases by 51.3%. The application of double freeze‐dried CB can be used for: i) the eco‐friendly biosynthesis of value‐added bioproducts; ii) the promising option for fuel‐grade bioethanol through starchy wastes or foodstuff starchy residues treatment, and iii) the implementation of industrialization. Finally, to simulate an industrial process of one‐step SSF of starch by applying a CB model, a technoeconomic analysis is evaluated, where using BNCs makes the bioprocess cost‐effective and environmentally favorable, simultaneously.
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