Microbial Biotechnology for Bioenergy presents the new and emerging biotechnological and microbiological approaches in bioenergy and their economic, social, and environmental implications. Using the latest global data and statistics, it analyses how bioenergy technology improves quality of life by reducing air and water pollution and mitigates energy dependence by creating renewable resources in local communities.
The book is formed of three sections; Section 1 addresses the "Sources, Challenges, and Environmental Views of Bioenergy and includes an overview of bioenergy, global statistics and projections for future bioenergy development, the role of biotechnology and bioprocesses in bioenergy, feedstock sources, challenges, decarbonisation, and emerging innovations and technologies. Section 2 "Yesterday, Today, and Tomorrow: Innovations of Bioenergy examines the vast topics of biotechnology and microbiology for bioenergy, reviewing both the present day state-of-the-art and future potential. Readers will find dedicated chapters on bioconversion of biomass energy and biological residues, the role of microbes, the potential of organic waste to provide bioenergy, the biotechnology of biofuels such as bioethanol, biodiesel, and biohydrogen, the sustainability of cellulosic ethanol energy and artificial photosynthesis, Power-to-X and integrating energy storage innovations, and the sustainability of microbial fuel cells. Finally, Section 3 explores the policies and environmental aspects of bioenergy, providing a global perspective on the current and future impact of bioenergy, including global projections based on present day global statistics.
Microbial Biotechnology for Bioenergy is a valuable reference for biotechnologists, environmental engineers, and microbiologists interested in bioenergy, and includes explanations of the fundamentals and key concepts to ensure it is accessible to students as well as researchers and professionals.
- Critically reviews past, present, and future bioenergy technologies, including global statistics, policies, and emerging approaches
- Highlights opportunities to improve quality of life and mitigate energy dependence, reducing air/water pollution and creating renewable resources in local communities
- Explores environmental benefits of incorporating microbial remediation into bioenergy production