- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
Waste to Profit: Environmental Concerns and Sustainable Development gives information about selecting the most suitable technology for waste treatment and energy recovery under different conditions. It contains techno-economic analysis, life cycle assessment, optimization of tools and technologies, including overview of various technologies involved in the treatment of wastes and factors influencing the involved processes. Finally, it explores the environmental, socioeconomic, and sustainability impact of different waste-to-energy systems.
Features:
Reviews energy sources and technologies from waste, their environmental interactions, and the relevant global energy policies
Provides overview of waste-to-energy technologies for a sustainable future
Explores physicochemical properties involved in the pertinent process and technologies
Gives a multidisciplinary view about energy conversion and management, planning, controlling, and monitoring processes
Discusses information in transferring the technologies' industrial level and global level to meet the requirements of different countries
This book is aimed at researchers and graduate students in environmental engineering, energy engineering, waste management, waste to energy, and bioenergy.
Contents
1. Crop Residue to Fuel, Fertilizer, and Other By-products: An Approach toward Circular Economy; 2. Cost-effective Sustainable Electrodes for Bioelectrocatalysis towards Electricity Generation; 3. Green Synthesis of Nanoparticles from Agro-waste: A Sustainable Approach; 4. Conversion of Waste Plastics into Sustainable Fuel; 5. Innovations in Sludge-Conversion Techniques; 6. Scale-up of Microbial Fuel Cells: A Waste-to-Energy Option; 7. Critical Role of Catalysts in Pyrolysis Reactions; 8. Engineering Perspectives on the Application of Photosynthetic Algal Microbial Fuel Cells for Simultaneous Wastewater Remediation and Bioelectricity Generation; 9. Pyrolysis and Steam Gasification of Biomass Waste for Hydrogen Production; 10. Insight into Current Scenario of Electronic Waste to Nanomaterials Conversion; 11. Wastewater Treatment Using Nanoadsorbents Derived from Waste Materials; 12. Environmental Sustainability: An Interdisciplinary Approach; 13. Environmental Movements and Law in India: A Brief Introduction; 14. Co-pyrolysis of Biomass with Polymer Waste for the Production of High-quality Biofuel; 15. Thermal Degradation Behaviors and Kinetics of Pyrolysis; 16. Techniques for Biodiesel Production from Wastes; 17. Environmental Impact of Municipal Waste Energy Recovery Plant; 18. A Comprehensive Review on the Modelling of Biomass Gasification Process for Hydrogen-rich Syngas Generation; 19. A Comprehensive Review of Bio-catalyst Synthesis, Characterization, and Feedstock Selection for Biodiesel Synthesis Using Different Methods; 20. A Techno-economic Analysis of Green Hydrogen Production from Agricultural Residues and Municipal Solid Waste through Biomass-steam Gasification Process; 21. The Energy Potential of Brazilian Organic Waste; 22. Life Cycle Sustainability Assessment of Bioenergy: Literature Review and Case study; 23. Environmental, Social, and Economic Aspects of Waste-to-energy Technologies in Brazil: Gasification and Pyrolysis; 24. Life Cycle Assessment of Lubricant Oil Plastic Containers in Brazil: Comparing Disposal Scenarios; 25. Step towards Sustainability: Fuel Production and Hybrid Vehicles; 26. Microwave Pyrolysis of Composite Fuels with Biomass; 27. Combustion and Pyrolysis Characteristics of Composite Fuels with Waste-derived and Low-grade Components; 28. Analysis of Gaseous Anthropogenic Emissions from Coal and Slurry Fuel Combustion and Pyrolysis; 29. Allothermal Approach for Thermochemical Conversion of Coal-enrichment Waste; 30. Membrane Technology in Circular Economy: Current Status and Future Projections
