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Full Description
Enzymes in the Valorization of Waste: Next-Gen Technological Advances for Sustainable Development of Enzyme-based Biorefinery focusses on key enzymes which are involved in the development of integrated biorefinery. It highlights the modern next-gen technologies for promoting the application of sustainable and greener enzymatic steps at industrial scale for the development of futuristic and self-sustainable "consolidated/integrated biorefinery/enzyme-based biorefinery." It also deals with technological advancement for improvement of enzyme yield or specificity, conversion capability, such as protein and metabolic engineering and advances in next generation technologies, and so forth.
Features:
• Explores all modern-day technologies that can potentially be used in enzyme-based biorefinery conversion of wastes to value-added products.
• Covers technological, economic, and environmental assessments of enzyme-based biorefinery prospects.
• Deliberates all possible products that can be generated from wastes including biofuel and essential chemicals.
• Illustrates techniques for enhanced yield and properties to be used in various industrial applications.
• Reviews advanced information of relevant sources and mechanism of enzymes.
This book is aimed at graduate students, researchers and related industry professionals in biochemical engineering, environmental science, wastewater treatment, biotechnology, applied microbiology, biomass-based biorefinery, biochemistry, green chemistry, sustainable development, waste treatment, enzymology, microbial biotechnology, and waste valorization.
Contents
1: Fundamentals of enzyme-based biorefinery for conversion of waste to value-added products
2: Valorization of biowaste to bio-wealth using cellulase enzyme during pre-hydrolysis simultaneous saccharification and fermentation process
3: Enzyme associated bioconversion of agro-waste materials via macrofungi cultivation for sustainable next-gen ecosystem
4: Extremophilic Bacteria and Archaea in the valorisation of Metalloids: Arsenic, Selenium and Tellurium.
5: Enzyme Purification Strategies
6: Overview of the enzyme support system of immobilization for enhanced efficiency and reuse of enzymes
7: Nanobiotechnology in enzyme-based biorefinement and valorization of waste.
8: Bioinformatics Integration to Biomass Waste Biodegradation and valorization
9: Cell surface engineering: A fabrication approach towards effective valorization of waste
10: Economics of biochemical conversion based biorefinery concept for the valorization of lignocellulosic biomass
