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A new light-element multi-principal-elements alloy AlMg2TiZn and its potential for hydrogen storage

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  • Cermak, Jiri
  • Kral, Lubomir
  • Roupcova, Pavla

Abstract

Hydrogen storage in a new-designed multi-principal-elements alloy (MPEA) AlMg2TiZn was studied. The chemical composition of the alloy ranks the alloy into the so-called light-elements family of MPEAs. The alloy was prepared by high energy ball milling and the measurements were carried out using Sieverts method in temperature interval 310°C–370 °C under the hydrogen-gas pressure up to 25 bar. It was found that hydrogen absorption capacity was about 1.35–1.4 wt% H2. Activation energy of hydrogen desorption, Ea = 148 ± 1 kJ/mol H2, was significantly lower than known value for pure Mg. Hydrogen absorption occurred in two steps, A1 and A2. The values of activation energy Ea = 175 ± 12 kJ/mol H2 for rapid absorption A1 and Ea = 195 ± 8 kJ/mol H2 for subsequent slow absorption A2 were close to that for Mg. It was proposed that A1 was related to formation of αMgH2, the second one, A2, was related to formation of βMgH2. Absolute value of hydride formation enthalpies, ΔH = 75 ± 3 kJ/mol H2 and ΔH = 70 ± 2 kJ/mol H2 obtained for A1 and A2, respectively, as well as value of ΔH = 76 ± 1 kJ/mol H2 for desorption were about the same as that for pure MgH2.

Suggested Citation

  • Cermak, Jiri & Kral, Lubomir & Roupcova, Pavla, 2022. "A new light-element multi-principal-elements alloy AlMg2TiZn and its potential for hydrogen storage," Renewable Energy, Elsevier, vol. 198(C), pages 1186-1192.
    • Handle: RePEc:eee:renene:v:198:y:2022:i:c:p:1186-1192
    DOI: 10.1016/j.renene.2022.08.108
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    References listed on IDEAS

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    1. Li, Jigang & Guo, Yanru & Jiang, Xiaojing & Li, Shuan & Li, Xingguo, 2020. "Hydrogen storage performances, kinetics and microstructure of Ti1.02Cr1.0Fe0.7-xMn0.3Alx alloy by Al substituting for Fe," Renewable Energy, Elsevier, vol. 153(C), pages 1140-1154.
    2. Cermak, Jiri & Kral, Lubomir & Roupcova, Pavla, 2022. "Hydrogen storage in TiVCrMo and TiZrNbHf multiprinciple-element alloys and their catalytic effect upon hydrogen storage in Mg," Renewable Energy, Elsevier, vol. 188(C), pages 411-424.
    3. Zhang, Yanghuan & Li, Xufeng & Cai, Ying & Qi, Yan & Guo, Shihai & Zhao, Dongliang, 2019. "Improved hydrogen storage performances of Mg-Y-Ni-Cu alloys by melt spinning," Renewable Energy, Elsevier, vol. 138(C), pages 263-271.
    4. Renato Belli Strozi & Daniel Rodrigo Leiva & Guilherme Zepon & Walter José Botta & Jacques Huot, 2021. "Effects of the Chromium Content in (TiVNb) 100−x Cr x Body-Centered Cubic High Entropy Alloys Designed for Hydrogen Storage Applications," Energies, MDPI, vol. 14(11), pages 1-11, May.
    5. Xie, Lishuai & Li, Jinshan & Zhang, Tiebang & Kou, Hongchao, 2017. "De/hydrogenation kinetics against air exposure and microstructure evolution during hydrogen absorption/desorption of Mg-Ni-Ce alloys," Renewable Energy, Elsevier, vol. 113(C), pages 1399-1407.
    6. Shang, Hongwei & Zhang, Yanghuan & Li, Yaqin & Qi, Yan & Guo, Shihai & Zhao, Dongliang, 2019. "Effects of adding over-stoichiometrical Ti and substituting Fe with Mn partly on structure and hydrogen storage performances of TiFe alloy," Renewable Energy, Elsevier, vol. 135(C), pages 1481-1498.
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