Assessing the Limits of Water Management using Asymmetric Micro-Porous Layer Configurations

机译：使用非对称微孔构造评估水管理的限制

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In high-power polymer electrolyte fuel cell systems, prevention of anode dry-out through enhanced back flux of water and restriction of evaporative losses is needed. One potential method to engineer the back flux of water to the anode is to utilize an asymmetric anode and cathode micro-porous layer configuration to independently tailor anode and cathode thermal and mass transport resistances. Extensive experimental tests have been performed to study the impact of asymmetric MPL configuration on the net water drag coefficient using sets of MPL with different thermal and mass transport resistances. It was observed that with asymmetric MPL alignment between the anode and cathode, the net water drag coefficient could be significantly altered, opening the door to enhanced high power performance at anode-dry-out conditions.

机译：在高功率聚合物电解质燃料电池系统中，需要通过增强的后焊剂干燥阳极干燥，并且需要限制蒸发损失。一种潜在的方法来工程到阳极向阳极的后助焊剂是使用不对称的阳极和阴极微孔层构造，以独立地定制阳极和阴极热和质量传输电阻。已经进行了广泛的实验测试，以研究使用具有不同热和质量传输电阻的MPL的MPL在净水阻力系数上研究不对称MPL配置对净水拖曳系数的影响。观察到阳极和阴极之间的不对称MPL对准，可以显着改变净水阻力系数，打开门，以提高阳极干燥条件下的高功率性能。

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《Polymer Electrolyte Fuel Cell Symposium;Meeting of the Electrochemical Society》|2013年||共8页
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Yasser Ashraf Gandomi; Matthew M. Mench;
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Assessing the Limits of Water Management using Asymmetric Micro-Porous Layer Configurations

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