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Microbial Cellulase in the Production of Second Generation Biofuels: State-of-the-Art and Beyond

Microbial Cellulase in the Production of Second Generation Biofuels: State-of-the-Art and Beyond

Jovana Trbojević-Ivić
Copyright: © 2023 |Pages: 25
ISBN13: 9781668452691|ISBN10: 1668452693|ISBN13 Softcover: 9781668452707|EISBN13: 9781668452714
DOI: 10.4018/978-1-6684-5269-1.ch014
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MLA

Trbojević-Ivić, Jovana. "Microbial Cellulase in the Production of Second Generation Biofuels: State-of-the-Art and Beyond." Biomass and Bioenergy Solutions for Climate Change Mitigation and Sustainability, edited by Ashok Kumar Rathoure and Shankar Mukundrao Khade, IGI Global, 2023, pp. 233-257. https://doi.org/10.4018/978-1-6684-5269-1.ch014

APA

Trbojević-Ivić, J. (2023). Microbial Cellulase in the Production of Second Generation Biofuels: State-of-the-Art and Beyond. In A. Rathoure & S. Khade (Eds.), Biomass and Bioenergy Solutions for Climate Change Mitigation and Sustainability (pp. 233-257). IGI Global. https://doi.org/10.4018/978-1-6684-5269-1.ch014

Chicago

Trbojević-Ivić, Jovana. "Microbial Cellulase in the Production of Second Generation Biofuels: State-of-the-Art and Beyond." In Biomass and Bioenergy Solutions for Climate Change Mitigation and Sustainability, edited by Ashok Kumar Rathoure and Shankar Mukundrao Khade, 233-257. Hershey, PA: IGI Global, 2023. https://doi.org/10.4018/978-1-6684-5269-1.ch014

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Abstract

Bioethanol from inedible cellulose-rich biomass is the most promising candidate to replace fast depleting, environmentally polluting fossil fuels. Hydrolysis of cellulose to glucose is the crucial step in its biotransformation to bioethanol. Enzymatic hydrolysis is favored over acid hydrolysis, as enzymes are eco-friendly biocatalysts with high substrate specificity and superior catalytic efficiency in mild reaction conditions. Complete hydrolysis of cellulose is achieved by cellulase. Higher cellulase production yield, stability, and catalytic efficiency are the main attentive points for the successful implementation in industrial production of bioethanol. This chapter will highlight general characteristics of microbial cellulases and their role in the bioconversion of cellulose to biofuels, economic sustainability of cellulose-based biofuels, and the latest innovations in cellulase immobilization as the most comprehensive strategy for improvement of enzyme stability, activity, and reusability for cost-effective large-scale application.

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