Api Popoola, Sadiq Abiola Raji

Metal Alloys for Hydrogen Storage Applications

Solid-State Hydrogen Storage in Metal-Based Materials

• Broschiertes Buch

Produktbeschreibung

Metal Alloys for Hydrogen Storage Applications: Solid-State Hydrogen Storage in Metal-Based Materials provides an overview of the fundamentals, mechanics, processing, and application of various metal alloys, intermetallics, metal matrix composites, metal oxides, and other lightweight metal materials for use in hydrogen storage. Titanium-based, magnesium-based, binary type, and high entropy alloys are each covered, as are hydrogen bonding systems, the effects of alloy microstructure on hydrogen storage capacity and efficiency, alloy modifiers, and coatings and additives for alloys. Modeling techniques and approaches to additive manufacturing of components for hydrogen energy storages are also outlined, and various applications are included throughout.

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Produktdetails

• Verlag: Elsevier Science
• Seitenzahl: 600
• Erscheinungstermin: 1. September 2025
• Englisch
• ISBN-13: 9780443290626
• ISBN-10: 0443290628
• Artikelnr.: 71592926

Autorenporträt

Prof Patricia Popoola is a Full Professor at the Department of Chemical, Metallurgical and Materials Engineering, at the Tshwane University of Technology, Pretoria, South Africa. She is an NRF rated researcher (C3-category) with research focus in Advanced Engineering Materials. She is an author/co-author of more than 400 Journal articles (in high-impact Journals and Conference Proceedings) and more than 30 book chapters. Currently, she has produced thirty Masters' and fifteen Doctoral degree graduates. Prof Popoola and her students are recipients of numerous academic excellence awards

Inhaltsangabe

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