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Full Description
Sustainable Technologies for Value Addition to Biomass Waste introduces readers to revolutionary approaches for converting waste biomass into commercially viable products such as biofuels, materials, and microbial derivatives. This book explores detailed methodologies for transforming biomass waste, highlighting advanced techniques, reactor designs, and sustainable strategies. It provides critical insights into the feasibility, limitations, and applications of these technologies, making it a vital resource for professionals seeking to understand the intersection of sustainability and innovation in waste management.
Beyond production technologies, the book delves into the physicochemical composition of biomass waste, explores marine biomass recycling, and examines the integration of artificial intelligence for efficient waste management. It offers a life cycle assessment framework to evaluate waste generation and conversion, emphasizing its role in advancing a circular economy while addressing environmental challenges. Readers will also benefit from discussions on commercial scalability and the broader impacts of these technologies on resource conservation and pollution reduction.Sustainable Technologies for Value Addition to Biomass Waste introduces readers to revolutionary approaches for converting waste biomass into commercially viable products such as biofuels, materials, and microbial derivatives. This book explores detailed methodologies for transforming biomass waste, highlighting advanced techniques, reactor designs, and sustainable strategies. It provides critical insights into the feasibility, limitations, and applications of these technologies, making it a vital resource for professionals seeking to understand the intersection of sustainability and innovation in waste management.
Beyond production technologies, the book delves into the physicochemical composition of biomass waste, explores marine biomass recycling, and examines the integration of artificial intelligence for efficient waste management. It offers a life cycle assessment framework to evaluate waste generation and conversion, emphasizing its role in advancing a circular economy while addressing environmental challenges. Readers will also benefit from discussions on commercial scalability and the broader impacts of these technologies on resource conservation and pollution reduction.
Contents
Section 1 - Sustainable technologies for waste biomass to -biofuels
1. Sustainable technologies for the valorization of waste biomass to ethanol
2. Sustainable technologies for the valorization of waste biomass to biodiesel
3. Sustainable technologies for the valorization of waste biomass to butanol
4. Sustainable technologies for the valorization of waste biomass to hydrogen
5. Sustainable technologies for the valorization of waste biomass to refuse-derived fuel
6. Sustainable technologies for the valorization of waste biomass to aviation fuel
Section 2 - Sustainable technologies for waste biomass to value-added materials
7. Sustainable technologies for the conversion of biomass waste to silica
8. Sustainable technologies for the conversion of biomass waste to activated carbon/biochar
9. Sustainable technologies for the conversion of biomass waste to photothermic materials
10. Sustainable technologies for the conversion of biomass waste to xylitol and palatinose
11. Sustainable technologies for the conversion of biomass waste to leather and foams
12. Sustainable technologies for the conversion of biomass waste to lubricants and plasticizers
13. Sustainable technologies for the conversion of biomass waste to resins
Section 3 - Sustainable technologies for waste biomass to value-added microbial products
14. Production of industrial enzymes
15. Production of exoploysaccharides
16. Production of biosurfactants
17. Production of pigments
18. Production of biopolymers
19. Production of organic acids
20. Microbial mitigation of methane for the production of methane-derived value-added products
Section 4 - Sustainable Technologies for biomass waste management and recycling
21. Sustainable treatment and management of municipal solid waste
22. Sustainable treatment and management of marine waste
23. Use of artificial intelligence and machine learning tools for sustainable management of biomass waste
24. Life-cycle assessment of biomass waste management processes
