Biopolymer-based Composites for Energy Generation and Storage
Editat de Satyaranjan Bairagi, Shakeel Ahmed, Mohammad Jawaiden Limba Engleză Paperback – sep 2025
It critically examines challenges and limitations, considering both environmental impact and economic benefits. Research advancements and future directions are also discussed, making this a valuable resource for researchers and professionals interested in the application of sustainable materials in the energy sector.
- Explores the properties and performance of various types of biopolymers and biocomposites used in energy generation and storage technologies
- Describes diverse applications of biopolymer-based composites in energy storage and generation, ranging from portable electronics and electric vehicles to grid storage
- Features case studies and techno-economic aspects associated with the utilization of biopolymer-based composites for energy storage and generation
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Specificații
ISBN-13: 9780443315220
ISBN-10: 0443315221
Pagini: 500
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443315221
Pagini: 500
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Cuprins
1. Introduction to Biopolymer-based Composites for Energy Storage and Generation
2. Properties and Performance of Biopolymers in Energy Storage Applications
3. Biopolymers in Batteries: Concepts and Applications
4. Biopolymers in Supercapacitors: Concepts and Applications
5. Biopolymers in Solar Cells: Concepts and Applications
6. Biopolymers in Portable Electronics: Applications and Case Studies
7. Biopolymers in Electric Vehicles: Applications and Case Studies
8. Biopolymers in Grid Energy Storage: Applications and Case Studies
9. Biopolymers in Energy Harvesting and Generation
10. Biopolymers in Energy Efficiency and Conservation
11. Challenges and Limitations of using Biopolymer-based Composites for Energy Storage and Generation
12. Environmental Impact and Economic Benefits of Biopolymer-based Composites for Energy Storage and Generation
13. Biopolymer-based Composites for Energy Storage and Generation: Advancements and Future Perspectives
14. Biopolymer-based Composites for Energy Storage and Generation: Scale-up and Commercialization
15. Biopolymer-based Composites for Energy Storage and Generation: Life Cycle Assessment
16. Biopolymer-based Composites for Energy Storage and Generation: Standardization and regulations
17. Biopolymer-based Composites for Energy Storage and Generation: Education and outreach
18. Biopolymer-based Composites for Energy Storage and Generation: Case studies and success stories
19. Biopolymer-based Composites for Energy Storage and Generation: Integration with other technologies
20. Conclusion and Summary of Biopolymer-based Composites for Energy Storage and Generation
2. Properties and Performance of Biopolymers in Energy Storage Applications
3. Biopolymers in Batteries: Concepts and Applications
4. Biopolymers in Supercapacitors: Concepts and Applications
5. Biopolymers in Solar Cells: Concepts and Applications
6. Biopolymers in Portable Electronics: Applications and Case Studies
7. Biopolymers in Electric Vehicles: Applications and Case Studies
8. Biopolymers in Grid Energy Storage: Applications and Case Studies
9. Biopolymers in Energy Harvesting and Generation
10. Biopolymers in Energy Efficiency and Conservation
11. Challenges and Limitations of using Biopolymer-based Composites for Energy Storage and Generation
12. Environmental Impact and Economic Benefits of Biopolymer-based Composites for Energy Storage and Generation
13. Biopolymer-based Composites for Energy Storage and Generation: Advancements and Future Perspectives
14. Biopolymer-based Composites for Energy Storage and Generation: Scale-up and Commercialization
15. Biopolymer-based Composites for Energy Storage and Generation: Life Cycle Assessment
16. Biopolymer-based Composites for Energy Storage and Generation: Standardization and regulations
17. Biopolymer-based Composites for Energy Storage and Generation: Education and outreach
18. Biopolymer-based Composites for Energy Storage and Generation: Case studies and success stories
19. Biopolymer-based Composites for Energy Storage and Generation: Integration with other technologies
20. Conclusion and Summary of Biopolymer-based Composites for Energy Storage and Generation