Bhattacharyya, R.El-Emam, R.S.Khalid, Farrukh2022-01-282022-01-282022Bhattacharyya, R., El-Emam, R. S., & Khalid, F. (2022). Multi-criteria analysis for screening of reversible metal hydrides in hydrogen gas storage and high pressure delivery applications. International Journal of Hydrogen Energy, doi:10.1016/j.ijhydene.2021.12.1680360-3199https://doi.org/10.1016/j.ijhydene.2021.12.168https://hdl.handle.net/20.500.12713/2437Metals and alloys forming reversible hydrides with hydrogen gas are potential building blocks for compact, solid state hydrogen storage systems. Based on the materials’ thermodynamic characteristics, their use as temperature-swing gas compression and delivery systems in the hydrogen economy is also possible. Given the wide variety of materials developed and tested at laboratory and pilot scales, a harmonized method of selecting the feasible material(s) for a particular real-life application is required. This study proposes a system selection framework based on a normalized, multi-criteria metric. Using calculated values of multi-criteria metric, multi-criteria screening and ranking of potential materials has been demonstrated for a particular use case. It is found that the alloy TiMn1.52 having value of additive metric between 0.25 and 0.35 represents the best material for a single stage system. The alloy pair CaNi5–Ti1.5CrMn represents the best alternative for a two-stage system with additive metric values between 0.63 and 0.82. Energy and economic characteristics of the metal hydride gas compression and delivery systems are evaluated and compared with an equivalent mechanical compression system producing the same final effect (i.e., delivery of a given quantity of gas at a defined pressure). © 2021 Hydrogen Energy Publications LLCeninfo:eu-repo/semantics/closedAccessGas CompressionHydrogenMetal HydridesMulti-criteria AnalysisMulti-criteria analysis for screening of reversible metal hydrides in hydrogen gas storage and high pressure delivery applicationsArticleWOS:0008335156000092-s2.0-85123164704Q110.1016/j.ijhydene.2021.12.168Q1