Waste Biorefinery: Potential and Perspectives
Editat de Thallada Bhaskar, Ashok Pandey, S.Venkata Mohan, Duu-Jong Lee, Samir Kumar Khanalen Limba Engleză Paperback – 14 apr 2018
Waste Biorefinery: Potential and Perspectives designs concepts that enable modern biorefineries to utilize all types of biogenic wastes, and to integrate processes that convert byproduct streams to high-value products, achieving higher cost benefits. This book is an essential resource for researchers and students studying biomass, biorefineries, and biofuels/products/processes, as well as chemists, biochemical/chemical engineers, microbiologists, and biotechnologists working in industries and government agencies.
- Details the most advanced and innovative methods for biomass conversion
- Covers biochemical and thermo-chemical processes as well as product development
- Discusses the integration of technologies to produce bio-fuels, energy products, and biochemicals
- Illustrates specific applications in numerous case studies for reference and teaching purposes
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Specificații
ISBN-13: 9780444639929
ISBN-10: 0444639926
Pagini: 890
Dimensiuni: 191 x 234 x 44 mm
Greutate: 1.5 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0444639926
Pagini: 890
Dimensiuni: 191 x 234 x 44 mm
Greutate: 1.5 kg
Editura: ELSEVIER SCIENCE
Public țintă
Chemists, Chemical Engineers, Biochemical Engineers, Microbiologists, Biotechnologists working in academic institutes, research institutes, industries and governmental agencies. MS/M Tech students; Ph D scholars; researchers studying biomass conversion, biofuels, biorefineries, bioprocesses and bioproducts, bio-chemicals etcCuprins
I. Feedstocks for Biorefineries1. Waste Feedstocks for Biofefineries: An Approach to Develop a Sustainable Society2. Kinetic Analysis of Biomass Pyrolysis3. Side-streams from bioenergy and biorefinery complexes as a resource for circular bio-economy
II. Conversion Processes4. Thermochemical Conversion in Biorefineries5. Combined Thermochemical-Biochemical Routes in Waste Biorefinery
III. Food Waste Biorefinery6. Acidogenic Valorization of Food Waste to Biogas and Platform Chemicals7. Food Supply Chain Waste: A Functional Periodic Table of Biobased Resources
IV. Municipal Solid Waste Biorefinery8. Conversion of Solid Waste to Fuels and Chemicals through Pyrolysis
V. Lignocellulosic Biorefinery9. Lignocellulosic Biorefinery Wastes - Or Resources10. Hydrothermal Processing of Wet Forest Residues and Agricultural Wastes for Production of Biofuels and Chemicals11. Pyrolysis of Lignocellulosic Biomass for the Production of Renewable Chemicals12. Co-pyrolysis of Agro Residues with Waste Plastics for Resource and Energy Recovery13. Microwave-driven Biorefinery for Utilization of Food and Agricultural Waste Biomass14. Lignin Conversion: A Key to the Concept of Lignocellulosic Biomass-based Integrated Biorefinery15. Synthesis of Bioethanol from Invasive Weeds: Process Design, Optimization, and Intensification with Ultrasound16. Valorization of Wastes from Agro-food and Forest Industries within the Biorefinery Concept: South Europe Scenario17. Ionic Liquid Stable cellulases and Hemicellulases: Application in Biobased Production of Biofuels
VI. Water-based Biorefinery18. Resource Recovery from Wastes and Wastewaters using Bioelectrochemical Systems19. Exploitation of Microalgae-based Biorefinery - Opportunities and Challenges
VII. Specific Biorefinery20. Waste Biorefinery in Arid Regions21. Potential and Perspectives of Biorefinery from Castor Seed22. Insect-based biorefinery for bioenergy and biobased products: A critical review23. Thermochemical Valorization of Paper Deinking Residue through Microwave-assisted Pyrolysis
VIII. Associated Studies24. Process Integration and Design Philosophy for Competitive Waste Biorefineries25. Process Control and Monitoring in Biorefineries26. Environmental Impacts of Utilizing Woody Biomass for Energy
II. Conversion Processes4. Thermochemical Conversion in Biorefineries5. Combined Thermochemical-Biochemical Routes in Waste Biorefinery
III. Food Waste Biorefinery6. Acidogenic Valorization of Food Waste to Biogas and Platform Chemicals7. Food Supply Chain Waste: A Functional Periodic Table of Biobased Resources
IV. Municipal Solid Waste Biorefinery8. Conversion of Solid Waste to Fuels and Chemicals through Pyrolysis
V. Lignocellulosic Biorefinery9. Lignocellulosic Biorefinery Wastes - Or Resources10. Hydrothermal Processing of Wet Forest Residues and Agricultural Wastes for Production of Biofuels and Chemicals11. Pyrolysis of Lignocellulosic Biomass for the Production of Renewable Chemicals12. Co-pyrolysis of Agro Residues with Waste Plastics for Resource and Energy Recovery13. Microwave-driven Biorefinery for Utilization of Food and Agricultural Waste Biomass14. Lignin Conversion: A Key to the Concept of Lignocellulosic Biomass-based Integrated Biorefinery15. Synthesis of Bioethanol from Invasive Weeds: Process Design, Optimization, and Intensification with Ultrasound16. Valorization of Wastes from Agro-food and Forest Industries within the Biorefinery Concept: South Europe Scenario17. Ionic Liquid Stable cellulases and Hemicellulases: Application in Biobased Production of Biofuels
VI. Water-based Biorefinery18. Resource Recovery from Wastes and Wastewaters using Bioelectrochemical Systems19. Exploitation of Microalgae-based Biorefinery - Opportunities and Challenges
VII. Specific Biorefinery20. Waste Biorefinery in Arid Regions21. Potential and Perspectives of Biorefinery from Castor Seed22. Insect-based biorefinery for bioenergy and biobased products: A critical review23. Thermochemical Valorization of Paper Deinking Residue through Microwave-assisted Pyrolysis
VIII. Associated Studies24. Process Integration and Design Philosophy for Competitive Waste Biorefineries25. Process Control and Monitoring in Biorefineries26. Environmental Impacts of Utilizing Woody Biomass for Energy
Recenzii
"To conclude, through a balanced combination of different branches of science: chemistry, biology, engineering, and biotechnology, this book provides data-based information on the state of the art of biogenic waste utilisation within the field of biorefinery in which waste and resources are interchangeable." --Detritus