| 1. | The microstructure and the properties of nickel diffusion layer were also investigated
同时,对扩散层的组织和性能进行了研究。 |
| 2. | In addition , treating the cathode diffusion layer with ptfe can further enhance the cell performance
另外,通过对阴极扩散层的疏水处理,有效地改善了阴极水的排出,进一步提高了电池性能。 |
| 3. | The studied domain consists of fluid channels , diffusion layers and catalyst layers of anode and cathode , and membrane
研究的区域包括阳极和阴极的流道、扩散层和催化层,以及中间的质子交换膜在内的整个电池。 |
| 4. | For pc , the pulse diffusion layer only depends on the diffusion coefficient of cations and the pulse length , is not related to the concentration of the mass
单脉冲扩散层的厚度仅取决于阳离子扩散系数和脉冲导通时间,与溶液本体浓度无关。 |
| 5. | The function of diffusion layer and hydrophobic layer is affected by channel and depends on the pore diameter , the porosity and the thickness of diffusion layer and catalyst layer
扩散层和疏水层对气体作用的结果受流道影响,取决于孔径、空隙率和厚度的变化。 |
| 6. | When the width of the channel is unchangeable , the more are the numbers of the channels , the narrower the channel becomes , the evener the oxygen on the surface of diffusion layer becomes
当流道宽度不变时,流道数目越多,流道间隔越窄,越有利于氧气在扩散层表面上的均匀化分布。 |
| 7. | The decrease of active surface area in the anode caused by co2 accumulation is reduced through treating the diffusion layer and catalyst layer with ptfe , resulting in increased dmfc performance
通过对阳极扩散层和催化剂层的疏水处理,降低了阳极产生的co2导致的催化活性比表面积损失,有效地提高了电池性能。 |
| 8. | The research results show that the radius of the gas channels and the electronic conductivity in carbon phase of the reaction layer , and the porosity of the gas diffusion layer are relatively less important
研究结果表明气体扩散层孔隙率,反应层气体通道的半径以及碳相中电子传导率等参数的变化对电极性能影响不大。 |
| 9. | The thin - film and flooded - agglomerate ( tffa ) model assumes that the oxygen diffusion electrode made of a gas - diffusion layer and a reaction layer possesses a double - scales of porous structure in the reaction layer
薄膜浸渍聚集体( tffa )模型假定由气体扩散层和反应层构成的氧气扩散电极在反应层中是一种二次构造形式的多孔结构。 |
| 10. | The calculation results show that the radius of the gas channels in the reaction layer and the porosity and average pore radius of the gas - diffusion layer seem to be less important for the performance of the electrode
模型结果表明对于电极性能而言,气体扩散层的孔隙率与平均孔径以及反应层气体通道的半径,相对其他参数来说显得不太重要。 |
