Hydrogen storage alloy is an important functional material.
贮氢合金是一种重要的功能材料。
The progress of hydrogen storage using zeolites is reviewed in this paper.
综述了利用沸石进行贮氢的研究进展。
Hydrogen storage technology is an important process of hydrogen utilization.
氢能的储运技术是氢能利用的关键环节之一。
Hydrogen storage alloys are important materials for energy, weapon and engineering.
贮氢合金是重要的能源、武器和功能材料。
The influence of ball milling time on hydrogen storage performance was also investigated.
研究了材料的组成和球磨时间对吸放氢性能的影响。
Hydrogen storage inside a building should not be near oxidants or other combustible storage.
储存在建筑物内的氢不应接近氧化剂或其它可燃物。
Hydrogen storage alloys was one kind of the high performance materials developed in recent years.
贮氢合金是近年来开发的一类新型高性能材料。
Nanotechnology can remarkably modify the hydrogen storage properties of hydrogen storage materials.
将纳米技术与贮氢材料结合起来,可显著的改变材料的贮氢性能。
The preparation of hydrogen storage alloy by rapidly quenched under vacuum atmosphere is introduced.
本文介绍了应用真空快淬技术制备贮氢合金。
The gaseous hydrogen storage vessels and associated piping shall be electrically bonded and grounded.
气态氢储存容器和附属管道应当用导线连接在一起,且接地良好。 收藏。
The surface property of hydrogen storage alloy is very important for its electrochemical application.
贮氢合金的表面性质对于它的电化学应用极为重要。
The surface property of hydrogen storage alloy is very important for its electrochemical applications.
贮氢合金的表面性质对于合金的电化学应用是极为重要的。
A series hydrogen storage materials with high pressure ratios for hydrogen compression were developed.
开发了一种用于氢化学热压缩的具有高压缩比的贮氢材料系列。
It provides an essential theoretical evidence for studying mechanism and capacity of hydrogen storage further.
这为进一步研究碳纳米管的储氢机理和储氢容量等问题提供了必要的依据。
The development of Mg nano-materials for hydrogen storage in the recent decade has been reviewed in this paper.
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 article summarizes and predicts the prospects of magnesium and its alloys used as hydrogen storage materials.
该文综述并预测了镁基合金在储氢材料上的应用前景。
Liquid organic hydrides in hydrogen storage and transport is a new type of technology with some unique perfect advantages.
有机液态氢化物可逆储放氢技术是一种具有独特优点的新型储氢技术。
The paper designs a manual control system and a flow acquisition system of a device for activating hydrogen storage alloys.
根据储氢瓶活化测试的要求,本文还设计了一套活化装置的控制以及流量采集系统。
The surface treatment of hydrogen storage alloy electrode is an effective method to improve its electrochemical performances.
贮氢合金电极的表面处理是改善其电化学性能的有效方法。
And then, they can bring these energy into hydrogen storage, and green power for his buildings, machines and car power supply.
然后,他们可以将这些能源转化为氢气储存,并用绿色电力为自己的楼房、机器和汽车供电。
But after activation, the hydrogen storage capacity and hydriding rates of these alloys have not distinction among all alloys.
但各个球磨时间的合金活化好后总吸氢量和吸氢速率没有多大区别。
Principles and characteristics of this reversible hydrogen storage technology are introduced, and its research progress is reviewed.
介绍了这种储氢技术的原理和特点,综述了国内外研究现状。
We pointed out the mechanism of hydrogen storage (physisorption) in CNT can be described by the potential effect and the space effect.
指出碳纳米管储氢(物理吸附)的机制可用势能效应和空间效应描述。
The effects of three connection methods of electrode slices on the electrochemical properties of hydrogen storage alloys are reported.
本文报道了三种电极片接线方式对贮氢合金的电化学性能的影响。
Through the ways we discussed, the AB5 type hydrogen storage alloys are lucubrated and the properties of the alloys are further improved.
通过这些途径,可以对ab5型贮氢合金进行深入研究,从而进一步提高合金的性能。
The phase structure, hydrogen storage performance and electrochemical performance of the alloys were studied by XRD and three-electrode test system.
采用X射线衍射和三电极测试体系研究了合金的相结构、贮氢性能和电化学性能。
Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
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。
The surface composition and morphology of hydrogen storage alloys have an important influence on the electrochemical properties of metal hydride electrodes.
贮氢合金的表面成分和形态对金属氢化物电极的电化学性能具有重大影响。
The effects of electroless nickel plating on the particles morphology and the electrochemical properties of low-Co hydrogen storage alloy were investigated.
研究了化学镀镍对低钴贮氢合金粉末颗粒形态和电化学性能的影响。
The effects of electroless nickel plating on the particles morphology and the electrochemical properties of low-Co hydrogen storage alloy were investigated.
研究了化学镀镍对低钴贮氢合金粉末颗粒形态和电化学性能的影响。
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