Application of multiphase heat transfer for efficient hydrogen storage and recovery
This book chapter provides a technical review of the current practice in hydrogen storage and recovery using metal hydride (MH) reactor beds at various operating temperatures. Thermo-chemical processes involved are carefully examined and appraised while identifying practical challenges and performan...
| Main Authors: | , , |
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| Other Authors: | |
| Format: | Book Chapter |
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Elsevier
2024
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| Online Access: | http://hdl.handle.net/20.500.11937/96862 |
| _version_ | 1848766199655038976 |
|---|---|
| author | Nadim, Nima Chandratilleke, Tilak T Mathew, Arun |
| author2 | Khan, Mohammad Masud Kamal |
| author_facet | Khan, Mohammad Masud Kamal Nadim, Nima Chandratilleke, Tilak T Mathew, Arun |
| author_sort | Nadim, Nima |
| building | Curtin Institutional Repository |
| collection | Online Access |
| description | This book chapter provides a technical review of the current practice in hydrogen storage and recovery using metal hydride (MH) reactor beds at various operating temperatures. Thermo-chemical processes involved are carefully examined and appraised while identifying practical challenges and performance limitations. Potential enhancements to the current MHs-based hydrogen storage and recovery practice are illustrated through comparative studies of heat transfer media undergoing melting/solidification coupled with low temperature bed reaction and those of heat transfer media subjected to boiling/condensation with high temperature bed reaction. These outcomes identify the merits of multiphase mechanisms for effective thermal management and enhanced performance of hydrogen storage/recovery systems with MH reactor beds. |
| first_indexed | 2025-11-14T11:47:21Z |
| format | Book Chapter |
| id | curtin-20.500.11937-96862 |
| institution | Curtin University Malaysia |
| institution_category | Local University |
| last_indexed | 2025-11-14T11:47:21Z |
| publishDate | 2024 |
| publisher | Elsevier |
| recordtype | eprints |
| repository_type | Digital Repository |
| spelling | curtin-20.500.11937-968622025-03-27T04:28:38Z Application of multiphase heat transfer for efficient hydrogen storage and recovery Nadim, Nima Chandratilleke, Tilak T Mathew, Arun Khan, Mohammad Masud Kamal Azad, Abul Kalam Than Oo, Amanullah Maung This book chapter provides a technical review of the current practice in hydrogen storage and recovery using metal hydride (MH) reactor beds at various operating temperatures. Thermo-chemical processes involved are carefully examined and appraised while identifying practical challenges and performance limitations. Potential enhancements to the current MHs-based hydrogen storage and recovery practice are illustrated through comparative studies of heat transfer media undergoing melting/solidification coupled with low temperature bed reaction and those of heat transfer media subjected to boiling/condensation with high temperature bed reaction. These outcomes identify the merits of multiphase mechanisms for effective thermal management and enhanced performance of hydrogen storage/recovery systems with MH reactor beds. 2024 Book Chapter http://hdl.handle.net/20.500.11937/96862 10.1016/B978-0-443-15329-7.00011-9 Elsevier restricted restricted |
| spellingShingle | Nadim, Nima Chandratilleke, Tilak T Mathew, Arun Application of multiphase heat transfer for efficient hydrogen storage and recovery |
| title | Application of multiphase heat transfer for efficient hydrogen storage and recovery |
| title_full | Application of multiphase heat transfer for efficient hydrogen storage and recovery |
| title_fullStr | Application of multiphase heat transfer for efficient hydrogen storage and recovery |
| title_full_unstemmed | Application of multiphase heat transfer for efficient hydrogen storage and recovery |
| title_short | Application of multiphase heat transfer for efficient hydrogen storage and recovery |
| title_sort | application of multiphase heat transfer for efficient hydrogen storage and recovery |
| url | http://hdl.handle.net/20.500.11937/96862 |