Description
Bioenergy Systems for the Future: Prospects for Biofuels and Biohydrogen examines the current advances in biomass conversion technologies for biofuels and biohydrogen production, including their advantages and challenges for real-world application and industrial-scale implementation.In its first part, the book explores the use of lignocellulosic biomass and agricultural wastes as feedstock, also addressing biomass conversion into biofuels, such as bioethanol, biodiesel, bio-methane, and bio-gasoline. The chapters in Part II cover several different pathways for hydrogen production, from biomass, including bioethanol and bio-methane reforming and syngas conversion. They also include a comparison between the most recent conversion technologies and conventional approaches for hydrogen production.Part III presents the status of advanced bioenergy technologies, such as applications of nanotechnology and the use of bio-alcohol in low-temperature fuel cells. The role of advanced bioenergy in a future bioeconomy and the integration of these technologies into existing systems are also discussed, providing a comprehensive, application-oriented overview that is ideal for engineering professionals, researchers, and graduate students involved in bioenergy.- Explores the most recent technologies for advanced liquid and gaseous biofuels production, along with their advantages and challenges- Presents real-life application of conversion technologies and their integration in existing systems- Includes the most promising pathways for sustainable hydrogen production for energy applications
Table of Contents
Biomass to bioenergy1. Biomass pretreatment and transformation from agricultural wastes2. Efficient transformation of non-food agricultural lignocelluloses3. Production of bio-alcohol and bio-methane4. Light olefins/biogasoline production from biomass5. Bioenergy from stillage anaerobic digestion to enhance the energy balance ratio of ethanol productionHydrogen production6. Thermodynamic analysis of ethanol reforming for hydrogen production7. Catalysts for conversion of synthesis gas8. Distributed H2 production from bio-alcohols and bio-methane in conventional steam reforming units9. H2 production from bio-alchools and bio-methane steam reforming in conventional and membrane reactors10. Formation of hydrogen rich gas via conversion of lignocellulosic biomass and its decomposition products11. Advantages and diadvantages of recent biomass conversion technologies compared to conventional approaches for hydrogen productionBioenergy technology aspects/status12. Nanocomposites for ''Nano Green Energy'' Applications13. Integration of membrane technologies into conventional existing systems in the food industry14. Integration of microalgae into an existing biofuel industry15. Low-temperature fuel cell operated with bio-alcohol fuels16. Syngas cleaning system for power generation17. Bioenergy production from second and third generation feedstocks
