Sustainable Bioenergy Production from Agricultural Biomass and Waste
- 1st Edition - September 1, 2026
- Latest edition
- Editor: Wojciech Czekała
- Language: English
Sustainable Bioenergy Production from Agricultural Biomass and Waste provides a comprehensive overview of the conversion of agricultural biomass and waste to bioenergy, coveri… Read more
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Sustainable Bioenergy Production from Agricultural Biomass and Waste provides a comprehensive overview of the conversion of agricultural biomass and waste to bioenergy, covering characteristics, properties, and energy use by source, and offering in-depth information on a range of biological treatment processes to produce biogas and biomethane, bioethanol, and biodiesel, as well as thermal treatment processes. Additionally, the book discusses environmental, social, and economic aspects of converting agricultural biomass and waste to energy, and the role and combination of biological and thermal aspects in the context of sustainable development. This latest volume in the Woodhead Series in Bioenergy is of interest to scientists, researchers, engineers, industrial practitioners, and graduate and postgraduate students working on or looking to understand how to utilize and add value to agricultural biomass and waste.
- Covers a range of sources, including straw and hay, slurry and manure, and waste, as well as by-products from the agri-food industry
- Focuses on biological and thermal conversion processes for agricultural biomass and waste
- Explains fundamentals, practical aspects, and techniques for the production of biogas, biomethane, bioethanol, biodiesel, and compost
- Considers sustainable development, and key environmental, social and economic aspects
Researchers, scientists, engineers, industrial practitioners, and graduate and postgraduate students with an interest in agricultural biomass and waste
Part I: Agricultural biomass and waste
1. Biomass – characteristics, properties and management in the context of sustainable development
2. Straw and hay - properties and energy use
3. Slurry and manure - properties and energy use
4. Waste and by-products from the agri-food industry - properties and energy use
Part II: Biological treatment processes of biomass and waste
5. Production of biogas and biomethane from agricultural biomass and waste
6. Production of bioethanol from agricultural biomass and waste
7. Production of biodiesel from agricultural biomass and waste
8. Composting of agricultural biomass and waste
9. Carboxylate platform based biorefinery: Production of medium chain carboxylic acids from organic rich waste
10. Environmental, social and economic aspects of converting agricultural biomass and waste to energy through biological processes
Part III: Thermal treatment processes of biomass and waste
11. Production and energetic use of solid biofuels made from agricultural biomass and waste
12. Pyrolysis and gasification of agricultural biomass and waste
13. Environmental, social and economic aspects of converting agricultural biomass and waste to energy through thermal processes
Part IV: Sustainable development principles
14. Conclusion and recommendations regarding bioenergy production from agricultural biomass and waste in accordance with sustainable development
1. Biomass – characteristics, properties and management in the context of sustainable development
2. Straw and hay - properties and energy use
3. Slurry and manure - properties and energy use
4. Waste and by-products from the agri-food industry - properties and energy use
Part II: Biological treatment processes of biomass and waste
5. Production of biogas and biomethane from agricultural biomass and waste
6. Production of bioethanol from agricultural biomass and waste
7. Production of biodiesel from agricultural biomass and waste
8. Composting of agricultural biomass and waste
9. Carboxylate platform based biorefinery: Production of medium chain carboxylic acids from organic rich waste
10. Environmental, social and economic aspects of converting agricultural biomass and waste to energy through biological processes
Part III: Thermal treatment processes of biomass and waste
11. Production and energetic use of solid biofuels made from agricultural biomass and waste
12. Pyrolysis and gasification of agricultural biomass and waste
13. Environmental, social and economic aspects of converting agricultural biomass and waste to energy through thermal processes
Part IV: Sustainable development principles
14. Conclusion and recommendations regarding bioenergy production from agricultural biomass and waste in accordance with sustainable development
- Edition: 1
- Latest edition
- Published: September 1, 2026
- Language: English
WC
Wojciech Czekała
Prof. Czakala is a researcher and lecturer at the Poznań University of Life Sciences. His research fields include waste management, biofuels production, biogas, energy recovery, composting, fertilizer production, sustainable development and circular economy. He was ranked in the World's TOP 2% Scientists 2022.
Affiliations and expertise
Researcher and Lecturer, Poznań University of Life Sciences, Poland