Biochemical and environmental bioprocessing : challenges and developments / edited by M. Jerold and V. Sivasubramanian
Material type: TextPublication details: Boca Raton CRC Press 2020Description: 255pISBN:- 9780367187392
- 660.0286 JER-M
Item type | Current library | Collection | Shelving location | Call number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|---|---|
Books | BITS Pilani Hyderabad | 660 | General Stack (For lending) | 660.0286 JER-M (Browse shelf(Opens below)) | Available | 45993 |
The rapid growth of industries has resulted in the generation of a high volume of solid and liquid waste. Today, there is a need for Clean and Green technology for sustainable waste management. Biochemical and Environmental Bioprocessing: Challenges and Developments explore the State-of-art green technologies to manage waste and recover value-added products. Microbes play an essential role in bioremediation. Bioprocess engineering is an interdisciplinary connection the Science and Technology. Bioconversion and bioremediation are required to manage various environmental hazardous substances. This book will give intensive knowledge on applying Biochemical and Bioprocess technologies for eco-friendly pollution management. This book is fundamental to the students, researchers, academicians and engineers working in the area of Environmental Bioremediation and the exploration of various bioproducts from waste. Features Reviews different biological methods for treating effluents from Industries by using biomass and biopolymers. Highlights the applications of multiple bioreactors like Anaerobic Sequential Batch Reactor, Continuously stirred anaerobic digester, Up-flow anaerobic sludge blanket reactor, Fluidized and expanded bed reactors. Presents algae cultivation in Open Pond, Closed loop System, and Photo-bioreactors for bioenergy production. Discusses the intensified and integrated biorefinery approach by Microwave Irradiation, Pyrolysis, Acoustic cavitation, Hydrodynamic cavitation, Electron beam irradiation, High-pressure Autoclave reactor, Steam explosion and photochemical oxidation. Outlines the usage of the microbial fuel cell (MFC) for the production bioelectricity generation in different modules Tubular MFC, Stacked MFC, Separate electrode modules Cutting edge research of synthesis of biogenic nanoparticles and Pigments by green route for the health care and environment management.
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