Advanced materials for solid state hydrogen storage: "Thermal engineering issues"

Abstract

Hydrogen has been widely recognized as the "Energy Carrier" of the future. Efficient, reliable, economical and safe storage and delivery of hydrogen form important aspects in achieving success of the "Hydrogen Economy". Gravimetric and volumetric storage capacities become important when one considers portable and mobile applications of hydrogen. In the case of solid state hydrogen storage, the gas is reversibly embedded (by physisorption and/or chemisorption) in a solid matrix. A wide variety of materials such as intermetallics, physisorbents, complex hydrides/alanates, metal organic frameworks, etc. have been investigated as possible storage media. This paper discusses the feasibility of lithium- and sodium-aluminum hydrides with emphasis on their thermodynamic and thermo-physical properties. Drawbacks such as poor heat transfer characteristics and poor kinetics demand special attention to the thermal design of solid state storage devices. © 2014 Elsevier Ltd. All rights reserved.