Investigation of boiling heat transfer for improved performance of metal hydride thermal energy storage
Autor: | Terry D. Humphries, Nima Nadim, Arun Mathew, Craig E. Buckley, Tilak T. Chandratilleke |
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Rok vydání: | 2021 |
Předmět: |
Packed bed
Work (thermodynamics) Materials science Renewable Energy Sustainability and the Environment Nuclear engineering Magnesium hydride Energy Engineering and Power Technology Condensed Matter Physics Thermal energy storage 7. Clean energy chemistry.chemical_compound Fuel Technology chemistry 13. Climate action Boiling Heat exchanger Heat transfer Heat engine |
Zdroj: | International Journal of Hydrogen Energy. 46:28200-28213 |
ISSN: | 0360-3199 |
DOI: | 10.1016/j.ijhydene.2021.06.059 |
Popis: | The inherent nature concerning the intermittency of concentrating solar power (CSP) plants can be overcome by the integration of efficient thermal energy storage (TES) systems. Current CSP plants employ molten salts as TES materials although metal hydrides (MH) have proven to be more efficient due to their increased operating temperatures. Nonetheless, the heat exchange between the MH bed and the heat transfer medium used to operate a heat engine is a critical factor in the overall efficiency of the TES system. In this work, a computational study is carried out to investigate the performance of a magnesium hydride TES packed bed using a multiphase (boiling) medium instead of single-phase heat absorption methods. The boiling heat transfer behaviour is simulated by using the Eulerian two-fluid framework. The simulations are conducted at a transient state using SST-k-ω Reynolds-Averaged Navier-Stokes equations. It is observed that, unlike the single-phase heat collection method, the multiphase heat absorption method maintains a constant temperature in the heat transfer fluid throughout the reactor. Consequently, a higher temperature gradient is realised between the MH bed and heat transfer fluid (HTF), leading to improvements in the overall reaction rate of the hydrogenation process. |
Databáze: | OpenAIRE |
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