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。
The hydrogen storage capacity of hydrogen-storage electrode alloys is much higher than that of conventional At_5-type electrode alloys, and hence AB_3-type ele…
稀土镁基AB_3型贮氢合金的贮氢量高于传统的稀土基AB_5型贮氢合金,有望成为新一代的贮氧电极合金材料。
The aim of the present investigation is to develop a liquid-solid two-phase hydrogen storage system with a high hydrogen storage capacity and a good kinetic property.
本论文是研发具有高储氢量、优良动力学性能新型液固双相储氢系统工作的一部分。
Firstly, the significance of investigation on hydrogen storage in carbon nanotubes (CNTs) is indicated, and the hydrogen storage capacity of CNTs can be enhanced obviously by transition metal-doping.
首先,揭示了研究碳纳米管储氢的意义,指出通过对碳纳米管进行过渡金属掺杂能够有效地提高其储氢量。
Trulite won this contract to develop a system for the Navy that allows for substantial power capacity in a small package, with hydrogen storage capabilities greater than 2000 watt-hours per kilogram.
Trulite公司赢得该项合同以便为海军开发一个系统,该系统允许在一个小包装中有充实的动力容量,同时氢储存能力大于每千克200 0瓦特时。
It is preferable to locate all bulk gaseous hydrogen systems outdoors, even when the storage capacity is less than 15,000 standard cubic feet.
最好把所有的大量气态氢系统都放在室外,即使当储存容量小于15,000标准立方英尺时也是如此。
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。
Total storage capacity of an indoor hydrogen system should BE limited to 3000cubic feet or less.
室内氢系统的全部储存量应限制在3000立方英尺或更少。
For a further improvement of the storage capacity, materials with even higher surface areas accessible for hydrogen molecules are needed.
为进一步提高存储容量、材料与更高的表面积氢分子可以是非常必要的。
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 results show that the copper-microencapsulated hydrogen-storage alloy electrode has better performances in capacity, high-rate discharge, self-discharge and cycle life.
实验结果表明,表面微包覆铜贮氢电极在放电容量、高倍率放电、自放电和循环寿命性能方面均有明显改进。
Bulk gaseous hydrogen systems in excess of 15,000 standard cubic feet storage capacity must be located in a separate building or outdoors.
超过15,000标准立方英尺的大量气态氢系统必须放置在单独的建筑物或室外。
Bulk gaseous hydrogen systems in excess of 15,000 standard cubic feet storage capacity must be located in a separate building or outdoors.
超过15,000标准立方英尺的大量气态氢系统必须放置在单独的建筑物或室外。
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