本文综述了储氢材料的种类及其最新研究进展。
Recent progress in hydrogen storage material has been reviewed in this paper.
该文综述并预测了镁基合金在储氢材料上的应用前景。
The article summarizes and predicts the prospects of magnesium and its alloys used as hydrogen storage materials.
而有机物储氢材料主要介绍了有机液体和金属有机物。
In the organic hydrogen storage material, organic liquid and metal organic are introduced.
流体存储容器容纳可逆地释放并存储氢气的储氢材料。
A fluid storage vessel contains a hydrogen storage material that reversibly releases and stores hydrogen gas.
综述近十年来国内外有关纳米镁储氢材料吸放氢动力学的研究现状和发展趋势。
The development of Mg nano-materials for hydrogen storage in the recent decade has been reviewed in this paper.
计算结果表明:不同颗粒直径的镁-镍-氧化物储氢材料的吸放氢反应速度差别较大;
The results show that the reaction rates of absorption and desorption are greatly different among the Mg-Ni-MnO2 hydrogen storage materials with different particle sizes;
在合成的过程中采用直接加入过渡金属,从而达到在短时间内合成具有可逆 的储氢材料。
In the synthesizing process, transition metal is directly added so as to synthesize reversible hydrogen storage material in a short time.
综述了氢能研究的重要意义,对氢气的各种制备方法和国内外有关储氢材料的研究工作进行了详细介绍。
The importance of hydrogen energy was proposed. All kinds of preparing methods and storage materials for hydrogen were reviewed in detail.
总结了目前制备镁基储氢材料所用的主要方法,例如熔炼法、扩散法、机械合金化法、氢化燃烧合成法等。
Also sum up the manufacturing methods of magnesium based hydrogen storage materials, containing melting method, diffusing method, mechanical alloy method, composing by hydrogen burning metho...
镁基储氢材料储氢容量大,并且吸放氢过程伴随一定的热效应,从而在氢气的存储和热能存储等方面具有潜在的应用前景。
Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
分别对合金材料和复合材料的储氢性能进行了系统的阐述,指出现有的技术手段已经能够制备具有优异充放氢性能的镁基储氢材料。
It was proposed that the Mg-based hydrogen storage material of excellent hydriding and dehydriding properties can be prepared by using the present technology. The application state of Mg-base hyd...
这时候,材料出现了更多微孔,从而增加了表面面积和储氢空间。
At this point the material becomes more porous, increasing its surface area and its hydrogen-storing capacity.
密度泛函;团簇;储氢;发光材料。
Cluster; Hydrogen Storage; Density Functional Theory; Organic Solar Cell Material.
目前,纳米材料和纳米技术在太阳能电池、燃料电池、热电、催化剂、制氢储氢等能源领域已取得突出进展。
At present, nano-materials and nano-technology in solar batteries, fuel cells, thermoelectric, catalysts, hydrogen energy, such as hydrogen storage areas have made outstanding progress.
本文总结了纳米储氢合金颗粒与复合材料的制备方法;
The fabrication methods of HSA nanoparticles and composite HSA are summarized.
另外在研究过程中还发现研磨时间和研磨速度的变化,对材料的储氢性能也有一定的影响。
Additionally, grinding time and grinding speed have been found greatly affect the performances of the composite.
这些材料都具有一定的电化学储氢作用,煅烧玉米茎后所得多孔碳材料是一种较好的双电层电容电极材料。
XRD and TEM indicated that these materials are disordered porous carbon materials with many nanochannels of different sizes. They have the ability of electrochemical hydrogen storage.
空心碳纳米球在储氢、锂离子负极材料等领域应具有类似于碳纳米管的潜在的巨大应用前景。
Therefore, it has remarkably potential application in hydrogen storage material and anode material for lithium secondary batteries.
本实用新型涉及一种生产钕铁硼稀土永磁合金材料及稀土储氢合金材料的真空熔炼炉。
The utility model relates to a vacuum melting-refining furnace for producing neodymium, iron, boron and rare earth permanent magnetic alloy material and rare earth hydrogen-storage alloy material.
本实用新型涉及一种生产钕铁硼稀土永磁合金材料及稀土储氢合金材料的真空熔炼炉。
The utility model relates to a vacuum melting-refining furnace for producing neodymium, iron, boron and rare earth permanent magnetic alloy material and rare earth hydrogen-storage alloy material.
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