Modeling of hydrogen storage in hydride-forming materials : statistical thermodynamics

A. Ledovskikh, D. Danilov, W.J.J. Rey, P.H.L. Notten

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25 Citaten (Scopus)
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A new lattice gas model has been developed, describing the hydrogen storage in hydride-forming materials. This model is based on the mean-field theory and Bragg-Williams approximation. To describe first-order phase transitions and two-phase coexistence regions, a binary alloy approach has been adopted. A complete set of equations describing pressure-composition isotherms and equilibrium electrode potential curves of hydride forming materials in both solid-solution and two-phase coexistence regions has been set up. The proposed model defines both the equilibrium pressure and equilibrium potential as explicit functions of the normalized hydrogen concentration, using eight physically well-defined parameters. Gibbs free energies, entropies, and phase diagrams of both model (LaNiyCu1.0) and commercial, MischMetal-based, AB5-type materials at different compositions and temperatures have been simulated. Good agreement between experimental and theoretical results for the pressure-composition isotherms obtained in the gas phase and the equilibrium potential curves measured in electrochemical environment has been found in all cases.
Originele taal-2Engels
Pagina's (van-tot)014106-1/12
Aantal pagina's12
TijdschriftPhysical Review B
Nummer van het tijdschrift1
StatusGepubliceerd - 2006

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