Numerical Investigation of Heat and Mass Transfer Processes while the Desorption of Hydrogen Gas Stored in MmNi4.6Fe0.4-H6
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Date
2016-12-31
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جامعة الوادي - university of el oued
Abstract
This work presents a numerical investigation of two-dimensional coupled heat and mass transfer processes in
a unit disc of an annulus-disc reactor filled with the intermetallic (Mischmetal) compound MmNi4.6Fe0.4, during the hydrogen
gas desorption using the finite volume method. Temperature and amount of desorbed hydrogen and their time-averaged
quantities inside the metal hydride bed are presented for different heat transfer fluid temperatures, and different metal
thermal conductivities. Impacts of both effects on the metal hydride reactor performance in terms of discharging time are
examined by means of a set of numerical simulations. Thus, the dehydriding time minimization relates to the adjustment of
the amount of heat addition to the packed bed reactor. A good agreement was found between the present computational
results and the experimental data reported in the literature.
Description
Article
Keywords
Numerical simulation, Coupled heat and mass transfer, Finite volume method, Metal hydride, Desorption
Citation
Boukhari,Ali .Numerical Investigation of Heat and Mass Transfer Processes while the Desorption of Hydrogen Gas Stored in MmNi4.6Fe0.4-H6. The International Journal of Energetica. Vo1. No 01.31/12/2016.faculty of technology. university of el oued. [visited in ../../….]. available from [copy the link here]