With stability compared with the water electrolysis type.
与水电解式相比具有稳定运转特征。
The new DSA for alkaline water electrolysis has higher catalytic activity and longer life time.
这种新型表面活性层用于碱性水电解时具有析氧催化活性高,稳定性好等特点。
Deuterium generating by heavy water electrolysis is one of the most important generating deuterium methods.
电解重水制氘是生产高纯氘的重要方法之一。
Hydrogen production plant by water electrolysis as the safeguard of the upper sounding is an important step.
水电解制氢设备是高空探测施放气球的保障,对高空业务是一个重要环节。
The invention is directed to iridium oxide based catalysts for use as anode catalysts in PEM water electrolysis.
本发明涉及在PEM水电解装置中用作阳极催化剂的含氧化铱的催化剂。
The claimed catalyst materials are characterised by a low oxygen overvoltage and long lifetime in water electrolysis.
所要求的催化剂的特征在于,在水电解中氧过压低和寿命长。
Producing hydrogen by water electrolysis with SPE is a mature technology and will be one of the main ways of hydrogen production.
SPE电解水制氢技术成熟,将成为未来主要制氢方法之一。
The system for water electrolysis device practical, reliable, safe, vehicle-mounted water electrolysis device for the application.
本系统对于电解水装置实用,可靠,安全,适用车载式水电解器的应用。
These lay the necessary theory foundation for the research of heavy water electrolysis and the production of high purity deuterium.
为研究重水电解及高纯氘的制取奠定了必要的理论基础。
It shows that electrodes material and distance, membrane, and NaCl density are four effective factors in acidic water electrolysis.
电极材质,离子膜,电极间距,氯化钠溶液浓度是影响酸性氧化电位水生成的重要因素。
Where normal water electrolysis requires the passage of current measured in amps, Meyer's cell achieves the same effect in milliamps.
凡正常电解水需要毫安通过对当前测量放大器,迈耶的细胞达到的效果相同。
The additives technique was simple and feasible, showing the great potential of decreasing the energy consumption of water electrolysis.
添加剂法简单易行,并显示出了降低水电解能耗的较大潜力。
Hydrogen energy is a kind of high efficient, clean secondary energy. Water electrolysis is a important method for preparation hydrogen on big scale.
氢能是一种高效、洁净的二次能源,电解水是实现大规模制氢的重要手段。
At the same time, the advantage and disadvantage and difficult points of the technology are discussed, compared with the alkaline water electrolysis.
同时论述了与碱水电解相比,该技术的优缺点和技术难点。
Therefore, it appears increasingly important and urgent for the study of metal corrosion and coating failure caused by ballast water electrolysis treatment technology.
对该技术造成的金属腐蚀和压载舱涂层失效影响的研究显得愈加重要和紧迫。
Test data indicated that the oxygen evolution activity of the Pt-coated titanium electrode is higher than that of a platinized titanium electrode in water electrolysis.
测试数据表明,在水电解中,钛涂铂电极析氧活性高于钛镀铂电极。
Neutron diffraction data of palladium electrode in heavy water electrolysis cell have been collected under the balance condition of absorption and evolution of deuterium.
在吸、放氘达到动态平衡条件下,实时收集了重水电解池中钯电极的中子衍射数据。
The research progress in lowering the hydrogen generating energy consumption of alkaline water electrolysis by decrea-(sing) the anodic over potential for oxygen evolution was reviewed.
综述了通过降低阳极析氧过电位来减少碱性水电解制氢能耗的研究进展。
Hydrogen is widely used to industries of petroleum, chemistry, metallurgy and electronics, etc. Hydrogen generation system by water electrolysis is one of the important hydrogen production methods.
氢气广泛用于石油、化工、冶金、电子等行业,水电解制氢是重要的制氢方法之一。
Water can be reduced to oxygen and hydrogen by electrolysis.
水通过电解可以分解为氧和氢。
Electrolysis of water, catalytic decomposition of hydrocarbons?
电解水,催化分解碳氢化合物?
Hydrogen can also be created from water using electrolysis and potentially even from biofuels.
氢也可以通过电解水产生,甚至可能从生物燃料中获取。
Instead, he says, the solution to large-scale hydrogen production lies in using renewable electricity to extract hydrogen from water via electrolysis.
相反他认为大规模生产氢的解决方案在于使用可更新的电通过电解方式从水中提取氢。
Transparent solar cells generate electricity from ambient light. This electricity is used to carry out electrolysis of water and generate hydrogen to fuel the car.
透明的太阳能电池通过背景光发电,然后进行水电解产生氢来驱动汽车。
Technical advances included electrolysis, the ship’s chronometer, chemical processing, tool-making machines, and the water frame.
技术进步包括电解、船上的精密计时器、化学反应、机床和水力纺纱机等等。
If the co 2 extracted from the atmosphere were combined with hydrogen (extracted from water using electrolysis), it could make synthetic hydrocarbon fuels.
如果我们能将从大气分离出的CO2与氢(通过电解水得到)结合在一起,就能制造出人工合成的碳氢化合物燃料。
The electrolysis of water into hydrogen and oxygen is perhaps the best known example of this process.
水电解生成氢气和氧气是大家最熟悉的电解例子。
The electrolysis of water into hydrogen and oxygen is perhaps the best known example of this process.
水电解生成氢气和氧气是大家最熟悉的电解例子。
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