镍氢(镍金属氢化物)电池才真正的轻巧。
内建的镍金属氢化物电池系统是自我充电;
过渡金属氢化物在络合催化中占有重要的地位。
Metal hydride compounds play a central role in coordination catalysis.
用途:主要用作储氢合金粉和镍金属氢化物电池。
Uses: Mainly used for alloy powder for hydrogen storage and used for battery made of Nickel metal hydride.
评述了氢同位素与金属氢化物在未来能源中的应用。
The probable application of hydrogen isotopes and metal hydrides to future energy source is reviewed.
一种两用太阳能金属氢化物复合机,用于节能技术领域。
One kind of dual purpose solar energy metal hydride assembly, USES in to conserve energy the area of technology.
本循环方案利用金属氢化物来解决氢的储存和携带问题。
This cycle scheme utilizes the hydrogenate of metal for solving the problems of reserving and carrying of hydrogen.
这种金属氢化物的粉末,在受热后会分解,释放出气体来。
When heated, these metal hydride powders decompose, liberating the gas.
本文讨论了影响金属氢化物镍电池中发泡镍正极性能的一些因素。
Some factors that influenced the performances of the paste-type nickel cathodes in Ni-MH batteries were discussed.
介绍了氢气的储运技术,特别是金属氢化物储氢技术的原理和特性。
The technology of hydrogen gas reserving and transporting is introduced, especially the characteristics and principle of hydrogen-reserving technology of metal hydride.
传统的锂离子以及金属氢化物镍蓄电池中所含有的活性物质被放置在一个薄膜中。
Conventional lithium-ion or nickel metal hydride rechargeable batteries contain active material that is placed into a thin film.
对金属氢化物镍电池和镉镍电池在不同条件下的内阻进行了测试分析。
The internal resistances of Ni-MH and Ni-Cd battery in different conditions were tested and analyzed.
本文提出用金属氢化物解决氢能燃气轮机中式的贮存、携带和加压问题。
The paper suggests using hydrogenium to solve the problems of reserving, carrying and pressing of hydrogen in gas turbine.
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 surface composition and morphology of hydrogen storage alloys have an important influence on the electrochemical properties of metal hydride electrodes.
这种能量密度极高,比普通电容,但只反映十分之一的镍金属氢化物电池。
This energy density is high in comparison to a regular capacitor but reflects only one-tenth that of the nickel-metal-hydride battery.
利用恒流放电法测定了金属氢化物(MH)电极中氢原子扩散系数的平均值。
The average value of hydrogen diffusion coefficient in metal hydride(MH) electrode was measured by constant current discharge method.
用金属氢化物来提取超纯氢,经过多年来实践证明在技术经济上都是可行的。
The generation ultra pure hydrogen with metal hydride is proven to be feasible both technologically and economically in our years of industrial practice.
另外,还讨论了反应的金属氢化物机理,并获得了支持该机理存在的间接证据。
In addition, it was presumed that the dimerization reaction was attributed to the metal hydride mechanism, and some indirect evidences were obtained for supporting this mechanism.
其刚性内支承结构包含其的电子元件,包括它的可再充电的镍金属氢化物电池。
Its rigid inner support structure contains its electronic components, including its rechargeable nickel metal hydride battery.
利用这种性质可以进行金属氢化物柱内氢同位素间的置换,实现工程方面的应用。
With this character, the displacements between hydrogen isotopes can be conducted in metal hydride packing column, further, and some important applications in en...
复合材料通常和传感器连接,其中所述复合材料包含用于存储气体的金属氢化物材料。
A composite material is generally associated with the sensor, wherein the composite material comprises a metal hydride material for gas storage.
近年由于其优良储氢性能得以被发现,氢化铝钠成为最有前景的络合金属氢化物之一。
More recently, sodium aluminum hydride been considered as one of most promising complex metal hydride, for its excellent performance of hydride storage have been discovered.
介绍了国内外废旧电池的回收概况以及火法和湿法回收金属氢化物-镍电池的工艺流程。
The general situation of recycling and reusing for nickel metal hydride batteries and its fire metallurgy and hydrometallurgy technical processes are summarized.
通过试验测得金属氢化物电极的电化学交流阻抗谱(EIS),经过分析得到该电极的等效电路图。
Electrochemical impedance spectra (EIS) of a metal hydride electrode were interpreted by means of an equivalent circuit.
把氢气以气体或液体的形式储存在一个包含“可逆的”金属氢化物结晶的容器里是一个携带它的办法。
Storing hydrogen as a gas or liquid in a vessel containing "reversible" crystalline metal hydrides is one way to carry it around.
阐述了分别用金属氢化物、甲醛作还原剂将9-芴甲醛还原为9-芴甲醇的工艺,并对工艺技术进行了评价。
The tow processes of reducing 9-fluorenylformaldehyde to 9-fluorenyl-methanol are studied by using metal hydride and formaldehyde. The evaluation of the technics is given at last.
固体表面吸附的氢同位素具有自发与气相氢同位素交换并达到某种程度平衡的性质,这种交换作用在金属氢化物表面同样存在。
The hydrogen absorbed on solid surface can exchange with its isotopes in gas phase until equilibrium achieved. Such characteristic exists in metal hydride-hydrogen system, too.
固体表面吸附的氢同位素具有自发与气相氢同位素交换并达到某种程度平衡的性质,这种交换作用在金属氢化物表面同样存在。
The hydrogen absorbed on solid surface can exchange with its isotopes in gas phase until equilibrium achieved. Such characteristic exists in metal hydride-hydrogen system, too.
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