How to Assess the Relative Volume Change of Reversible Metal Hydrides Easily, Speedily and Concisely (Enough) with a Surprising Relevance for Clarifying Thermodynamic Tailoring Effects

26 November 2019, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

A practical way for assessing the relative volume change of reversible metal hydrides upon hydrogenation, based on the van’t Hoff reaction parameters, is outlined. Hitherto computational methods can provide that information only at a much higher level of complexity. By that method, the open issue of assessing the minimum pressure for complete [AlH4]-formation in Ti-doped NaAlH4 is resolved and the nature of the additional reaction pathway in KH/Ti-co-doped NaAlH4 elucidated. This work summarizes the essentials for the thermodynamic tailoring of metal hydrides in nine points and adds thus a central missing piece to the puzzle of understanding reversible chemical hydrogen storage in metal hydrides.

Keywords

metal hydride
Reversible Hydrogen Storage Properties
molar volume results
sodium alanate
Thermodynamic Modeling
Thermodynamic tailoring
Equilibrium thermodynamics
Reversible Hydrogen Storage Capacity
volume expansion ratios
reaction comparison approaches
reversibility
hydrogen storage

Supplementary materials

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V1 MHVolDetTTarticle ESI
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Supplementary weblinks

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