Contact Resistance at PEM-PEM Interfaces: Charged Fluid Flow Between Nanochannels

机译：PEM-PEM接口处的接触电阻：纳米通道之间的带电流体流动

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For hydrogen fuel cells running at low temperature, a single polymer electrolyte membrane could be fabricated from several layers of ionomer, each with specific properties so as to optimize the functionality of the overall membrane. However, an ohmic resistance between interfaces of two joint polymer electrolyte membranes is observed for which a theoretical explanation is missing. In this contribution, a new model for the charged fluid flow in and between ionomer nanochannels is established and investigated numerically. Employing a statistical analysis over an ensemble of nanochannel connections, the model provides a possible explanation for this interfacial resistance.

机译：对于在低温下运行的氢燃料电池，可以由多层离聚物制造单个聚合物电解质膜，每个离聚物具有特定的特性，以便优化整个膜的功能。然而，观察到两个接合聚合物电解质膜的界面之间的欧姆电阻，其缺少理论解释。在此贡献中，建立了用于离聚物纳米通道内和之间的带电流体流动的新模型并进行了数值研究。通过对纳米通道连接的整体进行统计分析，该模型为这种界面阻力提供了可能的解释。

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《Electrochemical Conference on Energy amp; the Environment》|2014年|145-159|共15页
会议地点 Shanghai(CN)
作者
S.-J. Kimmerle; K. Ladipo; A. Novruzi; P. Berg;
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Institute for Mathematics and Computer Application, Universitaet der Bundeswehr Muenchen, 85577 Neubiberg, Germany;

Humber College, Toronto, Ontario, M9W 5L7, Canada;

Department of Mathematics and Statistics, University of Ottawa, Ottawa, Ontario, K1N 6N5, Canada;

Department of Physics, Norwegian University of Science and Technology (NTNU), 7491 Trondheim, Norway;

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4. Contact Resistance at PEM-PEM Interfaces: Charged Fluid Flow Between Nanochannels [C] . S.-J. Kimmerle, K. Ladipo, A. Novruzi, Electrochemical Conference on Energy the Environment . 2014

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Contact Resistance at PEM-PEM Interfaces: Charged Fluid Flow Between Nanochannels

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