Progress in bioethanol production via consolidated bioprocessing

被引：0

作者：

Li X. ^{[1
]}

Zhu Y. ^{[1
]}

Wang B. ^{[1
]}

Fu J. ^{[1
]}

Wang Z. ^{[1
]}

Chen T. ^{[1
]}

机构：

[1] School of Chemical Engineering and Technology, Tianjin University, Key Laboratory of Systems Bioengineering, Tianjin

来源：

Huagong Jinzhan/Chemical Industry and Engineering Progress | 2016年 / 35卷 / 11期

关键词：

Bioethanol; Biotechnology; Consolidated bioprocessing; Fermentation; Lignocellulose;

D O I：

10.16085/j.issn.1000-6613.2016.11.033

中图分类号：

学科分类号：

摘要：

Consolidated bioprocessing(CBP),refers to bioprocessing by exploitation and utilization of ideal chassis microorganisms to directly convert lignocellulose into bioproducts in one processing. The research background,development concepts and technology roadmaps of the CBP were briefly introduced in this paper. Subsequently,we comprehensively reviewed the different strategies and the recent research progress in CBP lignocellulose to second generation bioethanol production. Then,the advantages and bottleneck factors of the native,recombinant and co-culture strains used in CBP bioethanol fermentation were analyzed. The genetic engineering,metabolic engineering and other techniques' application value and potential for overcoming the barrier factors of CBP bioethanol production and increasing bioethanol yield were assessed. Ultimately,this review provided a brief commentary on the contribution of emerging biotech,such as `omics' and synthetic biology and on CBP bioethanol production and the recent conditions of the lignocellulosic bioethanol production toward commercialization scale,as well as opportunities and challenges in the future. © 2016, Chemical Industry Press. All right reserved.

引用

页码：3600 / 3610

页数：10

共 53 条

[1] Santos L.V.D., Grassi M.C.D.B., Gallardo J.C.M., Et al., Second-generation ethanol: the need is becoming a reality, Industrial Biotechnology, 12, 1, pp. 40-57, (2016)
[2] Hendriks A.T., Zeeman G., Pretreatments to enhance the digestibility of lignocellulosic biomass, Bioresource Technology, 100, 1, pp. 10-18, (2009)
[3] Mood S.H., Golfeshan A.H., Tabatabaei M., Et al., Lignocellulosic biomass to bioethanol, a comprehensive review with a focus on pretreatment, Renewable and Sustainable Energy Reviews, 27, 6, pp. 77-93, (2013)
[4] Salehi Jouzani G., Taherzadeh M.J., Advances in consolidated bioprocessing systems for bioethanol and butanol production from biomass: a comprehensive review, Biofuel Research Journal, 2, 1, pp. 152-195, (2015)
[5] Ennes D., Abubackar H.N., Diaz M., Et al., Bioethanol production from biomass: carbohydrate vs syngas fermentation, Journal of Chemical Technology & Biotechnology, 91, 2, pp. 304-317, (2016)
[6] Lynd L.R., Van Zyl W.H., Mcbride J.E., Et al., Consolidated bioprocessing of cellulosic biomass: an update, Current Opinion in Biotechnology, 16, 5, pp. 577-583, (2005)
[7] Olson D.G., Mcbride J.E., Shaw A.J., Et al., Recent progress in consolidated bioprocessing, Current Opinion in Biotechnology, 23, 3, pp. 396-405, (2012)
[8] Den Haan R., Van Rensburg E., Rose S.H., Et al., Progress and challenges in the engineering of non-cellulolytic microorganisms for consolidated bioprocessing, Current Opinion in Biotechnology, 33, pp. 32-38, (2015)
[9] Brethauer S., Studer M.H., Consolidated bioprocessing of lignocellulose by a microbial consortium, Energy & Environmental Science, 7, 4, pp. 1446-1453, (2014)
[10] Zheng Z.B., Chen T., Zhao M.N., Et al., Engineering Escherichia coli for succinate production from hemicellulose via consolidated bioprocessing, Microbial Cell Factories, 11, 1, pp. 37-48, (2012)

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