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首页> 外文期刊>International journal of hydrogen energy >Hydrogen storage in binary and ternary Mg-based alloys: A comprehensive experimental study
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Hydrogen storage in binary and ternary Mg-based alloys: A comprehensive experimental study

机译:二元和三元镁基合金中的氢存储:综合实验研究

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摘要

This study focused on hydrogen sorption properties of 1.5 μm thick Mg-based films with Al, Fe and Ti as alloying elements. The binary alloys are used to establish as baseline case for the ternary Mg-Al-Ti, Mg-Fe-Ti and Mg-Al-Fe compositions. We show that the ternary alloys in particular display remarkable sorption behavior: at 200 ℃ the films are capable of absorbing 4-6 wt% hydrogen in seconds, and desorbing in minutes. Furthermore, this sorption behavior is stable over cycling for the Mg-Al-Ti and Mg-Fe-Ti alloys. Even after 100 absorption/desorption cycles, no degradation in capacity or kinetics is observed. For Mg-Al-Fe, the properties are clearly worse compared to the other ternary combinations. These differences are explained by considering the properties of all the different phases present during cycling in terms of their hydrogen affinity and catalytic activity. Based on these considerations, some general design principles for Mg-based hydrogen storage alloys are suggested.
机译:这项研究集中于1.5μm厚的以Al,Fe和Ti为合金元素的Mg基薄膜的氢吸附特性。二元合金被用于建立三元Mg-Al-Ti,Mg-Fe-Ti和Mg-Al-Fe组合物的基线情况。我们表明,三元合金尤其表现出显着的吸附行为:在200℃时,薄膜能够在数秒内吸收4-6 wt%的氢,并在数分钟内解吸。此外,对于Mg-Al-Ti和Mg-Fe-Ti合金,这种吸附行为在循环过程中是稳定的。即使经过100次吸收/解吸循环,也未观察到容量或动力学下降。对于Mg-Al-Fe,与其他三元组合相比,其性能明显较差。通过考虑循环过程中存在的所有不同相的氢亲和力和催化活性,可以解释这些差异。基于这些考虑,提出了一些基于镁的储氢合金的一般设计原则。

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  • 来源
    《International journal of hydrogen energy》 |2010年第5期|P.2091-2103|共13页
  • 作者

    W.P. Kalisvaart; C.T. Harrower; J. Haagsma; B. Zahiri; E.J. Luber; C. Ophus; E. Poirier; H. Fritzsche; D. Mitlin;

  • 作者单位

    Chemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

    rnChemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

    rnChemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

    rnChemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

    rnChemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

    rnChemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

    rnNational Research Council Canada, SIMS, Canadian Neutron Beam Centre, Chalk River Laboratories, Chalk River, Ontario, KOJ 1J0, Canada;

    rnNational Research Council Canada, SIMS, Canadian Neutron Beam Centre, Chalk River Laboratories, Chalk River, Ontario, KOJ 1J0, Canada;

    rnChemical and Materials Engineering, University of Alberta and National Research Council Canada, National Institute for Nanotechnology, T6G 2V4, Edmonton, Alberta, Canada;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    hydrogen storage; Mg-based alloys; intermetallics; kinetics;

    机译:储氢镁基合金;金属间化合物动力学;
  • 入库时间 2022-08-18 00:29:22

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