研究的区域包括阳极和阴极的流道、扩散层和催化层以及质子交换膜在内的整个单电池。
The studied domain consists of flow channels, diffusion layers and catalyst layers of both the anode and cathode, and the membrane.
讨论了质子交换膜燃料电池运行电流密度和温度、阴极和阳极加湿温度、气体扩散层孔隙率等参数对以上结果的影响。
The effect of the current density and fuel cell temperature, humidified temperature of cathode and anode, porosity of porous diffusion layer on the results mentioned above are discussed.
研究的区域包括阴极和阳极的流道、扩散层、催化层和质子交换膜。
The studied domain consists of fluid channels, diffusion layers and catalyst layers of anode and cathode, and membrane.
提供用于燃料电池例如质子交换膜燃料电池的气体扩散介质。
A gas diffusion media for a fuel cell, such as a proton exchange membrane fuel cell, is provided.
首先,对MEA的制备及优化研究,主要从热压工艺参数、催化层组分优化、扩散层和质子交换膜的选择等方面考虑的。
First, Fabrication and optimization of MEA are studied in many aspects, for example hot press parameters, components of catalyst layer and diffusion layer, PEM thickness, etc.
例如扩散、离子交换、质子交换和离子注入等。
This technique includes diffusion, iron-exchange, proton-exchange and iron-infusion.
例如扩散、离子交换、质子交换和离子注入等。
This technique includes diffusion, iron-exchange, proton-exchange and iron-infusion.
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