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首页> 外文期刊>Journal of Ceramic Processing Research. (Text in English) >Fe2O3, MnO, and VCl3-added Mg composites by reaction-involving grinding processing for hydrogen storage
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Fe2O3, MnO, and VCl3-added Mg composites by reaction-involving grinding processing for hydrogen storage

机译:通过涉及储氢的磨削加工,通过涉及磨削加工来加入Mg复合材料的Fe 2 O 3,MNO和VCL 3加入的Mg复合材料

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摘要

Oxide-added samples, 90 wt% Mg + 10 wt% Fe2O3 (named Mg-10Fe(2)O(3)) and 90 wt% Mg + 10 wt% MnO (named Mg-10MnO), a halide-added sample, 90 wt% Mg + 10 wt% VCl3 (named Mg-10VCl(3)), and a pure Mg sample (named Mg) were prepared by reaction-involving grinding (grinding in hydrogen). The hydriding and dehydriding properties of the prepared samples were examined and compared. For the halide-added sample, Mg-10VCl(3), the initial hydriding rate was much higher and the quantity of hydrogen absorbed for 60 min was significantly larger than those of the oxide-added samples and Mg. After activation, Mg-10VCl(3) had much higher initial hydriding and dehydriding rates, and much larger quantities of hydrogen absorbed and released for 60 min, than Mg-10Fe(2)O(3), Mg-10MnO, and Mg. The activated Mg-10Fe(2)O(3) and Mg-10MnO absorbed 5.16 and 3.95 wt% H, respectively, at 593 K in 12 bar H-2 for 60 min. The activation of Mg-10VCl(3) was completed after two hydriding-dehydriding cycles. Mg-10VCl(3) had an effective hydrogen-storage capacity (the quantity of hydrogen absorbed for 60 min) of 5.71 wt% at the second cycle (n = 2). At n = 2, the sample absorbed 4.58 wt% H for 5 min and 5.71 wt% H for 60 min at 593 K in 12 bar H-2. At n = 3, the sample released 1.32 wt% H for 10 min and 5.42 wt% H for 60 min at 593 K in 1.0 bar H-2. The hydrogen release equilibrium hydrogen pressure-composition-temperature (PCT) curve at 593 K showed an equilibrium plateau pressure at 2.56 bar.
机译:氧化物添加的样品,90wt%Mg + 10wt%Fe 2 O 3(名为Mg-10Fe(2)O(3))和90wt%Mg + 10wt%MnO(命名为Mg-10mNO),添加卤化物样品,通过涉及磨削(在氢气中研磨)制备90wt%Mg + 10wt%VCl 3(命名为Mg-10VCl(3))和纯Mg样品(命名Mg)。检查制备样品的水合和脱水性能并进行比较。对于卤化物添加的样品,Mg-10VCl(3),初始水晶速率要高出大高,吸收60分钟的氢量明显大于氧化物添加的样品和Mg。在活化后,Mg-10VCL(3)的初始水合和脱水速率具有更高的初始水合和脱水速率,并且比Mg-10Fe(2)O(3),Mg-10mNO和Mg吸收更大量的氢。活化的Mg-10Fe(2)O(3)和Mg-10MNO分别吸收5.16和3.95wt%H,在12巴H-2中以593k H-2持续60分钟。在两个水合脱水循环后完成Mg-10VCl(3)的活化。 MG-10VCL(3)在第二循环(n = 2)处具有有效的储氢容量(吸收60分钟的氢气量),5.71wt%(n = 2)。在n = 2,样品吸收4.58wt%H,50分钟,5.71wt%H,在12巴H-2中以593k持续60分钟。在n = 3时,样品在1.0巴H-2中以593k释放1.32wt%h持续10分钟,5.42wt%h持续60分钟。氢释放平衡氢气压力 - 组合物 - 温度(PCT)曲线在593k下显示出2.56巴的平衡平台压力。

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