Metal Alloys for Hydrogen Storage Applications: Solid-State Hydrogen Storage in Metal-Based Materials
Autor API Popoola, Sadiq Abiola Rajien Limba Engleză Paperback – sep 2025
- Covers the fundamentals, properties, mechanics, and applications of alloys and other metallic materials for use as energy storage materials
- Discusses recent advances in the processing of metal hydrides, oxides, and other derivatives tailored for solid state hydrogen energy storage applications
- Investigates hydrides of Ti-based alloys, Mg-based alloys, high entropy alloys, and metal matrix composites and their energy storage applications in fuel cells, supercapacitors, batteries, solar cells, and more
Preț: 1041.96 lei
Preț vechi: 1145.00 lei
-9% Nou
Puncte Express: 1563
Preț estimativ în valută:
199.43€ • 207.42$ • 167.12£
199.43€ • 207.42$ • 167.12£
Carte nepublicată încă
Doresc să fiu notificat când acest titlu va fi disponibil:
Se trimite...
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9780443290626
ISBN-10: 0443290628
Pagini: 600
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443290628
Pagini: 600
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Cuprins
1. Introduction to Hydrogen Energy Storage in Metals
2. Solid-State Hydrogen Storage Materials, Technologies, and Requirements for Hydrogen Energy Storage and Utilization
3. Hydrogen Bonding System in Metal Alloys
4. Kinetics and Thermodynamics of Solid-State Absorption-Desorption Hydrogen Energy Storage Systems
5. Effects of Microstructures on the Hydrogen Energy Storage Capacity and Efficiency of Metal Alloys
6. Modifiers of Metal Alloys for Hydrogen Energy Storage
7. Titanium-Based Alloys for Hydrogen Storage Applications
8. Magnesium-Based Alloys for Hydrogen Storage Applications
9. Binary-Type (AB5, AB, A2B and AB2) Alloys For Hydrogen Storage Applications
10. High Entropy Alloys (HEAs) for Hydrogen Storage Applications
11. Other Metal Alloys and Intermetallics for Hydrogen Storage Applications
12. Metal Matrix Composites for Hydrogen Storage Applications
13. Metal Oxides as Host for Hydrogen Energy Storage Applications
14. Coatings and Additives for Hydrogen Storage in Metal Alloys
15. Other Lightweight Materials for Hydrogen Energy Storage Applications
16. Processing of Metal Alloys for Hydrogen Storage
17. Additive Manufacturing of 3D Printed Components for Hydrogen Energy Storages Technologies
18. Modeling of Metal-Based Alloys for Hydrogen Energy Storage
19. The Adoption of Metal Alloys as Hydrogen Storage Materials for Different Energy Applications
20. Energy Usage and Consumption in Processing and Production of Metallic Materials for Cost-Effective Hydrogen Energy Applications
21. Conclusion: Future Trends, Challenges and Recommendations for Metal Alloys as Hydrogen Energy Storage Materials
2. Solid-State Hydrogen Storage Materials, Technologies, and Requirements for Hydrogen Energy Storage and Utilization
3. Hydrogen Bonding System in Metal Alloys
4. Kinetics and Thermodynamics of Solid-State Absorption-Desorption Hydrogen Energy Storage Systems
5. Effects of Microstructures on the Hydrogen Energy Storage Capacity and Efficiency of Metal Alloys
6. Modifiers of Metal Alloys for Hydrogen Energy Storage
7. Titanium-Based Alloys for Hydrogen Storage Applications
8. Magnesium-Based Alloys for Hydrogen Storage Applications
9. Binary-Type (AB5, AB, A2B and AB2) Alloys For Hydrogen Storage Applications
10. High Entropy Alloys (HEAs) for Hydrogen Storage Applications
11. Other Metal Alloys and Intermetallics for Hydrogen Storage Applications
12. Metal Matrix Composites for Hydrogen Storage Applications
13. Metal Oxides as Host for Hydrogen Energy Storage Applications
14. Coatings and Additives for Hydrogen Storage in Metal Alloys
15. Other Lightweight Materials for Hydrogen Energy Storage Applications
16. Processing of Metal Alloys for Hydrogen Storage
17. Additive Manufacturing of 3D Printed Components for Hydrogen Energy Storages Technologies
18. Modeling of Metal-Based Alloys for Hydrogen Energy Storage
19. The Adoption of Metal Alloys as Hydrogen Storage Materials for Different Energy Applications
20. Energy Usage and Consumption in Processing and Production of Metallic Materials for Cost-Effective Hydrogen Energy Applications
21. Conclusion: Future Trends, Challenges and Recommendations for Metal Alloys as Hydrogen Energy Storage Materials