Polymer Circularity in Sustainable Energy
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Product details:
- Publisher Elsevier Science
- Date of Publication 1 September 2026
- ISBN 9780443277399
- Binding Paperback
- No. of pages570 pages
- Size 235x191 mm
- Weight 450 g
- Language English 0
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Long description:
Polymer Circularity in Sustainable Energy offers a comprehensive overview of the recycling and reuse of polymers in specific energy technologies. The book discusses the fundamental aspects of polymer chemistry, global challenges in polymer waste management, regulatory frameworks for polymer recycling, and technological advances in polymer sorting and separation. The initial chapters explore different methods of polymer reuse, including mechanical and chemical recycling, as well as chemical depolymerization for electroactive polymers. Sections then examine the applications of recycled polymers such as polyurethanes, polyvinylidene fluoride, and other polymers in specific energy technologies, including photovoltaics, fuel cells, space energy systems, and battery technologies.
The book also discusses the integration of artificial intelligence in polymer recycling for energy solutions and presents case studies on polymer recycling projects in the energy sector. It further addresses the challenges and opportunities in scaling up polymer recycling infrastructure. It will serve as a valuable reference for researchers and scientists in polymer science and engineering, as well as industry professionals in renewable energy and waste management who are interested on optimizing the use of polymers while minimizing waste generation in the energy industry.
Table of Contents:
1. Fundamentals of Polymer Chemistry
2. Global Challenges in Polymer Waste Management
3. Regulatory Frameworks and Policies for Polymer Recycling
4. Technological Advances in Polymer Sorting and Separation
5. Advancing Polymer Reuse. Mechanical and Chemical Recycling Methods
6. Advances in Chemical Depolymerization for Electroactive Polymers
7. Recycling and Reuse of Polymers in Photovoltaic Technologies
8. Recycling and Reuse of Polymers in Fuel Cells
9. Recycling of Polymers in Space Energy Systems
10. Recycling and Reuse of Conductive Polymers
11. Recycling and Reuse of Fluoropolymers in Battery Technologies
12. Polyvinylidene Fluoride. Recycling and Reuse in Piezoelectric and Triboelectric Technologies
13. Sensing Technologies. Recycling and Reuse of Silicone Rubber
14. Recycled Polyurethanes. Applications in Renewable Energy Technologies
15. Ethylene Propylene Diene Monomer. Reuse and Recycling in Solar Technologies
16. Degradation and Recycling of Perfluorosulfonic Acid Membranes for Fuel Cells
17. Nafion. Circular Strategies for Recovery, Recycling, and Reuse in Energy Applications
18. Polymer Binders in Battery Electrodes. Sustainable Recovery and Recycling Strategies
19. Upcycling of Polymer Waste into High-Value Energy Products
20. Integration of Artificial Intelligence in Polymer Recycling for Energy Solutions
21. Case Studies on Polymer Recycling Projects in the Energy Sector
22. Challenges and Opportunities in Scaling Up Polymer Recycling Infrastructure
