Handbook of Waste Biorefinery
portes grátis
Handbook of Waste Biorefinery
Circular Economy of Renewable Energy
Queiroz Zepka, Leila; Jacob-Lopes, Eduardo; Costa Depra, Mariany
Springer International Publishing AG
09/2022
1014
Dura
Inglês
9783031065613
15 a 20 dias
1700
Descrição não disponível.
Part I. Fundamentals.- Chapter 1. Principles, Concepts, and Recent Trends Applied to the Waste Biorefineries.- Chapter 2. Zero Waste Biorefinery.- Chapter 3. Waste Biorefineries Facilities: The Feedstock Choice.- Chapter 4. Emerging Pretreatment Technologies Applied to Waste Biorefinery.- Chapter 5. Waste Biomaterials Innovation Markets.- Chapter 6. Step Forward on Waste Biorefineries: Technology Bottlenecks and Perspective on Commercialization.- Part II. Feedstocks.- Chapter 7. Strategies for Municipal Solid Waste: Functional Elements, Integrated Management, and Legislative Aspects.- Chapter 8. Sewage Sludge Biochar.- Chapter 9. Recovery of Value Added Products from Industrial Wastewaters: A Review to Potential Feedstocks.- Chapter 10. Fats, Oils, and Grease (FOG): Opportunities, Challenges, and Economic Approaches.- Chapter 11. Food Waste Biorefineries: Developments, Current Advances and Future Outlook.- Chapter 12. The Role of Livestock Wastes in Clean Energy: A Mapping in Germany's Potential Installations.- Chapter 13. Agricultural Waste-Derived Management for Bioenergy: A Paradigm Shift in the Waste Perceptions.- Chapter 14. Forestry Wastes: Technical Concepts, Economic Circularity, and Sustainability Approaches.- Chapter 15. Panoramic View about Microalgae Biomass as Waste-To-Energy: A Biorefinery Concept.- Chapter 16. Yeast Biomass: A By-Product for Application in the Food, Energy, Plastics and Pharmaceutical Industries.- Chapter 17. Enzymes Applied to Lignocellulosic Biorefinery.- Part III. Waste to Energy-Food-Feed-Chemical-Material Technologies (WtEFFCM-Tech).- Chapter 18. Waste-to-Chemicals.- Chapter 19. Fundamentals for Waste-to-Energy from Anaerobic Digestion Technologies: An Overview. Chapter 20. Composting Technologies for Biowastes: Environmental and Techno-Economic Feasibilities under Biorefinery Concepts.- Chapter 21. Vermicomposting Technology: A Sustainable Option for Waste Beneficiation.- Chapter 22. Land Application of Organic Waste Compost.- Chapter 23. Thermal Cracking Processes Up-to-Dateness for Oil Vacuum Residual and Bio-Raw Materials: A Perspective for Municipal Solid Waste.- Chapter 24. Chemistry to Technology of Gasification Process: A Close Look into Reactions and Kinetic Models.- Chapter 25. Open Burning Application to Municipal Solid Waste: Quantification Methods, Emission Inventories, and Uncertainty Delineations.- Chapter 26. Overview of Torrefaction Technologies: A Path Getaway for Waste-to-Energy.- Chapter 27. Hydrothermal Carbonisation of Waste Biomass: Current Limitations, Strategic Success and Market Position Analysis.- Chapter 28. A Comprehensive Outlook to Hydrothermal Liquefaction Technology: Economic and Environmental Benefits.- Chapter 29. Landfill Gas Utilization.- Chapter 30. Plasma Technology in Waste-to-Energy Valorization: Fundamentals, Current Status, and Future Directions.- Part IV. Criteria for Policy, Environmental, Intellectual Property, Economic Aspects, Social, and Scalability.- Chapter 31. Strategy and Design of Innovation Policy Road Mapping for Waste Biorefineries.- Chapter 32. Sustainability Metrics on Waste Biorefineries.- Chapter 33. Exergy Analysis of Waste Biorefineries.- Chapter 34. Social Circular Economy Indicators Applied to Waste Biorefineries.- Chapter 35. How to Realize an Urban Circular Bioeconomy.- Chapter 36. Innovation Management on Waste Biorefineries.- Chapter 37. Incentivising Circular and Sustainable Innovations Through Patent Law.- Chapter 38. Industrial Economy and Technological Management in The Context of Waste Biorefineries.- Chapter 39. Techno-economic Aspects and Circular Economy of Waste Biorefineries.- Chapter 40. Unlocking the Global Potential of Waste Biorefining: Scaling Up or Scaling Down?.- Chapter 41. Development and Scale-Up of Waste Biorefineries Systems: Lactic Acid as a Case Study.
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Bioenergy;Biofuels;Biorefinery;Biomass Conversion;Circular Economy;Green Chemistry;Green Energy;Green Products;Renewable Energy;Waste;Waste-to-Energy Technologies;Waste Valorisation
Part I. Fundamentals.- Chapter 1. Principles, Concepts, and Recent Trends Applied to the Waste Biorefineries.- Chapter 2. Zero Waste Biorefinery.- Chapter 3. Waste Biorefineries Facilities: The Feedstock Choice.- Chapter 4. Emerging Pretreatment Technologies Applied to Waste Biorefinery.- Chapter 5. Waste Biomaterials Innovation Markets.- Chapter 6. Step Forward on Waste Biorefineries: Technology Bottlenecks and Perspective on Commercialization.- Part II. Feedstocks.- Chapter 7. Strategies for Municipal Solid Waste: Functional Elements, Integrated Management, and Legislative Aspects.- Chapter 8. Sewage Sludge Biochar.- Chapter 9. Recovery of Value Added Products from Industrial Wastewaters: A Review to Potential Feedstocks.- Chapter 10. Fats, Oils, and Grease (FOG): Opportunities, Challenges, and Economic Approaches.- Chapter 11. Food Waste Biorefineries: Developments, Current Advances and Future Outlook.- Chapter 12. The Role of Livestock Wastes in Clean Energy: A Mapping in Germany's Potential Installations.- Chapter 13. Agricultural Waste-Derived Management for Bioenergy: A Paradigm Shift in the Waste Perceptions.- Chapter 14. Forestry Wastes: Technical Concepts, Economic Circularity, and Sustainability Approaches.- Chapter 15. Panoramic View about Microalgae Biomass as Waste-To-Energy: A Biorefinery Concept.- Chapter 16. Yeast Biomass: A By-Product for Application in the Food, Energy, Plastics and Pharmaceutical Industries.- Chapter 17. Enzymes Applied to Lignocellulosic Biorefinery.- Part III. Waste to Energy-Food-Feed-Chemical-Material Technologies (WtEFFCM-Tech).- Chapter 18. Waste-to-Chemicals.- Chapter 19. Fundamentals for Waste-to-Energy from Anaerobic Digestion Technologies: An Overview. Chapter 20. Composting Technologies for Biowastes: Environmental and Techno-Economic Feasibilities under Biorefinery Concepts.- Chapter 21. Vermicomposting Technology: A Sustainable Option for Waste Beneficiation.- Chapter 22. Land Application of Organic Waste Compost.- Chapter 23. Thermal Cracking Processes Up-to-Dateness for Oil Vacuum Residual and Bio-Raw Materials: A Perspective for Municipal Solid Waste.- Chapter 24. Chemistry to Technology of Gasification Process: A Close Look into Reactions and Kinetic Models.- Chapter 25. Open Burning Application to Municipal Solid Waste: Quantification Methods, Emission Inventories, and Uncertainty Delineations.- Chapter 26. Overview of Torrefaction Technologies: A Path Getaway for Waste-to-Energy.- Chapter 27. Hydrothermal Carbonisation of Waste Biomass: Current Limitations, Strategic Success and Market Position Analysis.- Chapter 28. A Comprehensive Outlook to Hydrothermal Liquefaction Technology: Economic and Environmental Benefits.- Chapter 29. Landfill Gas Utilization.- Chapter 30. Plasma Technology in Waste-to-Energy Valorization: Fundamentals, Current Status, and Future Directions.- Part IV. Criteria for Policy, Environmental, Intellectual Property, Economic Aspects, Social, and Scalability.- Chapter 31. Strategy and Design of Innovation Policy Road Mapping for Waste Biorefineries.- Chapter 32. Sustainability Metrics on Waste Biorefineries.- Chapter 33. Exergy Analysis of Waste Biorefineries.- Chapter 34. Social Circular Economy Indicators Applied to Waste Biorefineries.- Chapter 35. How to Realize an Urban Circular Bioeconomy.- Chapter 36. Innovation Management on Waste Biorefineries.- Chapter 37. Incentivising Circular and Sustainable Innovations Through Patent Law.- Chapter 38. Industrial Economy and Technological Management in The Context of Waste Biorefineries.- Chapter 39. Techno-economic Aspects and Circular Economy of Waste Biorefineries.- Chapter 40. Unlocking the Global Potential of Waste Biorefining: Scaling Up or Scaling Down?.- Chapter 41. Development and Scale-Up of Waste Biorefineries Systems: Lactic Acid as a Case Study.
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