1) hydrogen storage property
储氢特性
1.
In this review,the recent progress on the morphology,microstructure,synthesis,theoretical calculation,hydrogen storage property and electrochemical hydrogen storage of CNT was investigated.
大量研究工作表明 :碳纳米管具有储氢的理想结构 ,它的储氢特性与制备工艺、测试条件、计算方法等密切相关 ,大比表面积、大直径、表面活化和搀杂后的碳纳米管具有好的储氢性能 ,定向多壁碳纳米管具有较好的电化学性
2.
The results showed that the catelytic activity of nano NiCe particles was related to both hydrogen storage property and the existence of NiCe alloys in the surface of nano NiCe particles.
利用氢电弧等离子法制备具有储氢特性纳米镍铈粒子,并在气相苯加氢反应中研究了其催化特性,发现其催化活性与储氢特性及表面层中NiCe合金存在有关,且具有高的选择性和热稳定性,这与纳米粒子独特的结构及铈的加入有
2) hydrogen storage properties
储氢特性
1.
By mean of microstructure analysis and hydrogen storage properties measurements, the effects of component on the hydrogen storage characteristics of Ti-V-Mn alloys have been investigated systemically, a.
在此基础上,首先选择具有高储氢容量的Ti-V-Mn系合金为对象,通过对其微结构分析以及储氢特性研究等手段,系统研究了合金成分对Ti-V-Mn储氢合金的微结构和储氢性能的影响,并通过机械球磨、与AB_5型储氢合金的复合等手段进一步提高合金的综合性能。
3) hydrogen storage
储氢特性
1.
The RE-based AB_3-type hydrogen storage alloys have been concerned widely for their higher discharge capacity, easier activation and better hydrogen pressure.
本文在国内外稀土系AB_3型储氢合金的研究进展基础上,制备出稀土系AB_3型储氢合金,运用X射线衍射、循环充放电、循环伏安、P-C-T测试等方法研究Mg和稀土元素对合金的气态储氢特性及电化学性能的影响,以期开发出高容量和长寿命的新型稀土系AB_3型储氢电极合金。
4) hydrogenation properties
储氢性能
1.
The effect of Cu addition on hydrogenation properties of Mg_2Ni alloy;
Cu的添加对Mg_2Ni合金储氢性能的影响
5) hydrogen storage properties
储氢性能
1.
Hydrogen storage properties of mechanical milling alloy(Mg+Mg_2Ni)+TiO_2;
机械合金化(Mg+Mg_2Ni)+TiO_2合金的储氢性能
2.
The research history,preparation technologies and applications of Mg-based hydrogen storage materials in the recent years are expatiated systematically,and the factors affecting hydrogen storage properties of Mg-based hydrogen storage materials are analyzed.
对近年来镁基储氢材料的研究开发概况、制备技术以及应用研究等方面进行了系统阐述,分析了影响镁基储氢材料储氢性能的主要因素,总结了采用机械合金化法、储氢合金组元部分替代、添加催化剂制成复合材料及表面改性等方法可以有效改善储氢性能,并对镁基储氢材料研究中存在的问题以及今后的发展方向进行了探讨与展望。
3.
The phase structures and hydrogen storage properties of Ti100-x-yVxFey(x=54,49,44;y=5,7.
储氢性能测试表明,3种合金的动力学性能均很好,在室温和4MPa初始氢压条件下,无需氢化孕育期就能快速吸氢;经4次~5次吸放氢循环即能活化,仅2min~3min就能吸氢饱和达到最大吸氢量363。
6) hydrogen storage performance
储氢性能
1.
Study on hydrogen storage performance of FeTi_(1.2)+xwt%LaNi_5(x=0,1,2,3,4) alloys;
合金FeTi_(1.2)+xwt%LaNi_5(x=0,1,2,3,4)储氢性能的研究
2.
The effect of rapid quenching on phase structure and hydrogen storage performance of Ti-28V-15Mn-10Cr alloy is investigated.
研究了快淬作用对Ti-28V-15Mn-10Cr合金的相结构和储氢性能的影响。
补充资料:储层描述(见油气田储层评价)
储层描述(见油气田储层评价)
reseroir evaluation of oil and gas field
储层描述(reseroir evaluation of 011 and gasfield)见油气田储层评价。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条