Advances in Energy from Waste
Transformation Methods, Applications and Limitations Under Sustainability
Herausgeber: Vambol, Viola; Mozaffari, Niloofar; Mozaffari, Nastaran; Khan, Nadeem A; Vambol, Sergij
Advances in Energy from Waste
Transformation Methods, Applications and Limitations Under Sustainability
Herausgeber: Vambol, Viola; Mozaffari, Niloofar; Mozaffari, Nastaran; Khan, Nadeem A; Vambol, Sergij
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Advances of Energy from Waste: Transformation Methods, Applications and Limitations Under Sustainability provides advanced, systematic information on the environmental transformation of waste and pollutants of various origins into useful products, contributing to the development of the local economy and increasing the sustainability of the energy sector. In addition, remarkable competences in design, performance, efficiency, and implementation of diverse systems utilized for waste energy recovery are evaluated. The book also includes recent advances in biomass-derived green catalysts for…mehr
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- Produktdetails
- Verlag: Elsevier Science
- Seitenzahl: 980
- Erscheinungstermin: 1. Juli 2024
- Englisch
- ISBN-13: 9780443138478
- ISBN-10: 0443138478
- Artikelnr.: 69081052
- Verlag: Elsevier Science
- Seitenzahl: 980
- Erscheinungstermin: 1. Juli 2024
- Englisch
- ISBN-13: 9780443138478
- ISBN-10: 0443138478
- Artikelnr.: 69081052
of Typical Wastes of Various Genesis 3. Main Factors of Negative Impact of
Waste Accumulation 4. Type of Industries, Waste Options and Their
Potential5. Environmental Toxicities Due to the Accumulation, Processing
and Destruction of Waste, Assessment Methods and Levels. 6. Health Risks
Associated with the Accumulation and Processing of Waste 6.1 Pollution Load
and its Assessment 6.2 Immediate Health Risk Section-II (Waste to Energy
and Resources Recovery) 7. Necessity to Recover Energy from Waste in
Circular Bioeconomy 8. Possible Roadmap for the Circular Economy Using
Waste-to-Energy Technologies 9. Waste to Energy Plant Around Globe: A Case
Study Using Technoeconomic Analysis 10. Waste Recycling and Energy
Production and its Future Scope. 11. Plastic/ Solid Waste Recycling for
Energy Production: Case Studies. 12. Biowaste Biorefineries and Circular
Bioeconomy 13. Critical Factors Affecting MSW Management Strategies and
Waste to Energy Generation 14. Possible Roadmap for the Circular Economy
Using Waste-to-Energy Technologies 15. Greenhouse Gases Emissions of the
Studied WtE Routes and Importance in Circular Bioeconomy 15.1 Need and
Basics of Utilizing GHG as Part of UN Sustainability Project 16. Biological
Conversion into Bioethanol and Biodiesel of Municipal Biowaste and Future
Prospective w.r.t to Circular Economy Section-III (UN Sustainability Aspect
of Waste to Energy) 17. Industry 4.0 Based Solid Waste Management and
Future Prospect in Circular Economy 18. Plastic Waste Management Techniques
and WtE Consideration in Developing Countries. 19. Sustainability
Transitions of Urban Food-Energy-Water-Waste Infrastructure and WtE
Prospective in Line City: Futuristic Case Studies. 20. Synergies and
Interactions in Urban Waste to Energy Generation in Circular Economy 21.
Legal Aspects and Problems of Legislation in the Field of Solid Waste
Management in Some Developing Countries of Europe and Asia Section-IV (Case
Studies) 22. Case Studies on the Use of Waste in the Production of
Agricultural Biogas in Poland. 23. Case Studies of Atmospheric Protection
in Thermal Waste Treatment. 23.1 Pollution Load and Its Assessment 23.2
Protective Practices and Technologies that Reduce Health Risks 24. Case
Studies of Obtaining Compost to Increase Yields 24.1 Features and
Difficulties of Processes, and Its Evaluation of Effectiveness 24.2
Immediate Health Risk 24.3 Waste Management Aspect of Mining Waste and Its
Resource Recovery 25. Case Studies of the Waste Potential of Some
Developing Countries (Asia, Africa, Iran, and India). 26. Case Studies of
the Legislative Framework for Realizing the Potential of Waste and
Protecting the Environment in Relation to Their Generation and Use 27.
Final Remarks and Perspectives for the Future.
of Typical Wastes of Various Genesis 3. Main Factors of Negative Impact of
Waste Accumulation 4. Type of Industries, Waste Options and Their
Potential5. Environmental Toxicities Due to the Accumulation, Processing
and Destruction of Waste, Assessment Methods and Levels. 6. Health Risks
Associated with the Accumulation and Processing of Waste 6.1 Pollution Load
and its Assessment 6.2 Immediate Health Risk Section-II (Waste to Energy
and Resources Recovery) 7. Necessity to Recover Energy from Waste in
Circular Bioeconomy 8. Possible Roadmap for the Circular Economy Using
Waste-to-Energy Technologies 9. Waste to Energy Plant Around Globe: A Case
Study Using Technoeconomic Analysis 10. Waste Recycling and Energy
Production and its Future Scope. 11. Plastic/ Solid Waste Recycling for
Energy Production: Case Studies. 12. Biowaste Biorefineries and Circular
Bioeconomy 13. Critical Factors Affecting MSW Management Strategies and
Waste to Energy Generation 14. Possible Roadmap for the Circular Economy
Using Waste-to-Energy Technologies 15. Greenhouse Gases Emissions of the
Studied WtE Routes and Importance in Circular Bioeconomy 15.1 Need and
Basics of Utilizing GHG as Part of UN Sustainability Project 16. Biological
Conversion into Bioethanol and Biodiesel of Municipal Biowaste and Future
Prospective w.r.t to Circular Economy Section-III (UN Sustainability Aspect
of Waste to Energy) 17. Industry 4.0 Based Solid Waste Management and
Future Prospect in Circular Economy 18. Plastic Waste Management Techniques
and WtE Consideration in Developing Countries. 19. Sustainability
Transitions of Urban Food-Energy-Water-Waste Infrastructure and WtE
Prospective in Line City: Futuristic Case Studies. 20. Synergies and
Interactions in Urban Waste to Energy Generation in Circular Economy 21.
Legal Aspects and Problems of Legislation in the Field of Solid Waste
Management in Some Developing Countries of Europe and Asia Section-IV (Case
Studies) 22. Case Studies on the Use of Waste in the Production of
Agricultural Biogas in Poland. 23. Case Studies of Atmospheric Protection
in Thermal Waste Treatment. 23.1 Pollution Load and Its Assessment 23.2
Protective Practices and Technologies that Reduce Health Risks 24. Case
Studies of Obtaining Compost to Increase Yields 24.1 Features and
Difficulties of Processes, and Its Evaluation of Effectiveness 24.2
Immediate Health Risk 24.3 Waste Management Aspect of Mining Waste and Its
Resource Recovery 25. Case Studies of the Waste Potential of Some
Developing Countries (Asia, Africa, Iran, and India). 26. Case Studies of
the Legislative Framework for Realizing the Potential of Waste and
Protecting the Environment in Relation to Their Generation and Use 27.
Final Remarks and Perspectives for the Future.