Hydrogen recovery from big-scale porous metal hydride (MH) reactor: impact of pressure and MH-thermophysical properties

Hydrogen recovery from big-scale porous metal hydride (MH) reactor: impact of pressure and MH-thermophysical properties

An advanced ANSYS FLUENT-based model was developed for hydrogen recovery from a multi-tubular fixed-bed metal hydride (MH) reactor of large-scale design. The model was firstly validated by comparing its results to specific experimental data. Mass and heat transfer processes inside the fixed bed were...

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Veröffentlicht in:Energy Storage and Saving 2022-12, Vol.1 (4), p.259-271
Hauptverfasser: Chibani, Atef, Merouani, Slimane, Dehane, Aissa, Bougriou, Cherif
Format: Artikel
Sprache:eng
Schlagworte:
Desorption
Heat and mass transfer
Hydrogen storage
Mathematical model
Metal hydride (MH)
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Zusammenfassung:An advanced ANSYS FLUENT-based model was developed for hydrogen recovery from a multi-tubular fixed-bed metal hydride (MH) reactor of large-scale design. The model was firstly validated by comparing its results to specific experimental data. Mass and heat transfer processes inside the fixed bed were investigated for various pressures and thermochemical characteristics of the MH (thermal conductivity, porosity and reaction parameters). The findings were reported as average, local and spatial changes in the metal’s bed temperature and hydrogen content. During the initial stage of the endothermic desorption (t
ISSN:2772-6835
2772-6835
DOI:10.1016/j.enss.2022.07.005