Study of PEM Fuel Cell End Plate Design by Structural Analysis Based on Contact Pressure

Tapobrata Dey, Jaydeep Deshpande, D. Singdeo, P. Ghosh
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引用次数: 12

Abstract

A fuel cell stack is configured to power any load ranging from watts to megawatt by varying cells connected in series. During stack assembly, major emphasis must be placed on application of adequate external pressure for reducing the ohmic losses, the purpose of which is to achieve proper contact between the cell components and minimize the contact resistance. Present work aims to study the influence of geometry of the cell, bolt configuration, gasket thickness mismatch, and material properties of different components of average and distribution contact pressure. The geometries are evaluated for end plate designs with a view to understand the pressure distribution and contact resistance in each case. Among different designs, extruded hexagon is found to perform well with an average contact pressure of 0.13 MPa and contact resistance of 28 Ω-cm2. Greater gasket thickness requires higher forces to be applied before the GDL makes contact with BPP. The effect of gasket thickness mismatch is evaluated for different values to identify its appropriate value. The pressure is applied using bolts and position and number of bolts is determined for homogeneous contact pressure on the active area. This study provides a framework for future end plate design of fuel cells.
基于接触压力结构分析的PEM燃料电池端板设计研究
一个燃料电池堆被配置为任何负载供电从瓦特到兆瓦通过不同的电池串联连接。在堆叠组装过程中,主要的重点必须放在施加足够的外部压力,以减少欧姆损耗,其目的是实现单元组件之间的适当接触,并尽量减少接触电阻。本工作旨在研究电池几何形状、螺栓配置、衬垫厚度不匹配以及材料性能对平均和分布接触压力不同组成部分的影响。为了了解每种情况下的压力分布和接触阻力,对端板设计的几何形状进行了评估。在不同的设计中,挤压六边形的平均接触压力为0.13 MPa,接触电阻为28 Ω-cm2。更大的垫片厚度要求在GDL与BPP接触之前施加更高的力。对不同的衬垫厚度失配值进行了评价,以确定其合适的值。使用螺栓施加压力,螺栓的位置和数量取决于活动区域上的均匀接触压力。该研究为未来燃料电池端板的设计提供了一个框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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发文量
13
审稿时长
28 weeks
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