A thermodynamically consistent mathematical model for hydrogen adsorption in
metal hydrides is proposed. Beside hydrogen diffusion, the model accounts for
phase transformation accompanied by hysteresis, swelling, temperature and heat
transfer, strain, and stress. We prove existence of solutions of the ensuing
system of partial differential equations by a carefully-designed, semi-implicit
approximation scheme. A generalization for a drift-diffusion of multi-component
ionized "gas" is outlined, too

Roubicek, Tomas

Tomassetti, Giuseppe

English

arXiv

Roubicek, T

Tomassetti, G

Cineca Institutional Research Information System

Thermomechanics of hydrogen storage in metallic hydrides: modeling and analysis

Abstract. A thermodynamically consistent mathematical model for hydrogen adsorption in metal hydrides is proposed. Beside hydrogen diffusion, the model accounts for phase transformation accompanied by hysteresis, swelling, temperature and heat transfer, strain, and stress. We prove existence of solutions of the ensuing system of partial differential equations by a carefully-designed,semi-implicit approximation scheme. A generalization for a drift-diffusion of multi-component ionized “gas” is outlined, too

TOMASSETTI, GIUSEPPE

Archivio della Ricerca - Università di Roma Tor vergata

Thermomechanics of hydrogen storage in metallic hydrides: modeling and
  analysis

Thermomechanics of hydrogen storage in metallic hydrides: modeling and analysis

Abstract

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Archivio della Ricerca - Università di Roma Tor vergata