纳米晶材料
球磨机
材料科学
脱氢
化学工程
解吸
纳米复合材料
氢气储存
氢
催化作用
动力学
冶金
活化能
合金
复合材料
吸附
纳米技术
化学
物理化学
有机化学
物理
工程类
量子力学
作者
M. Sherif El-Eskandarany,H. Al-Matrouk,Ehab Shaban,Ahmed Al-Duweesh
出处
期刊:Energy
[Elsevier BV]
日期:2015-09-10
卷期号:91: 274-282
被引量:44
标识
DOI:10.1016/j.energy.2015.07.135
摘要
Reactive ball milling was employed to synthesize nanocrystalline MgH2 powders using a high-energy ball milling of pure Mg powders under 50 bar of a hydrogen gas atmosphere. The end-product of MgH2 powders obtained after 200 h of a continuous reactive ball milling time composed of fine grains (∼7 nm in diameter) of γ and β phases. A new catalytic agent of big-cube Zr2Ni nanocrystalline phase, which is proposed in the present study for improving the hydrogenation/dehydrogenation kinetics of MgH2 powders, was obtained upon high-energy ball milling of tetragonal-Zr2Ni powders for 150 h. The as-ball milled Zr2Ni powders consisted of ultrafine grains with an average grain size of 6 nm in diameter. The as-prepared MgH2 powders were mechanically doped with 10 wt% of big-cube Zr2Ni powders for 50 h, using high-energy ball mill under a hydrogen gas atmosphere for 50 h. The powders obtained after 50 h of milling enjoyed homogeneous morphology and uniform composition close to the starting nominal composition. Moreover, this binary nanocomposite system possessed superior hydrogenation/dehydrogenation kinetics at 250 °C, as suggested by the short time required to absorb and desorb 5.1 wt% H2 within 100 s and 613 s, respectively. At this temperature, the synthesized nanocomposite powders possessed excellent absorption/desorption cyclability of 2546 complete cycles within 1250 h. However, a minor degradation (∼0.5 wt% H2) in the hydrogen storage capacity was observed between 300 h and 2546 h of the cycle-life-time. This slight degradation took place due to the grain growth came off in the Mg/Zr2Ni grains.
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