Lattice Boltzmann Modeling of Water Cumulation at the Gas Channel-Gas Diffusion Layer Interface in Polymer Electrolyte Membrane Fuel Cells

Journal of Fuel Cell Science and Technology Pub Date : 2014-12-01 DOI:10.1115/1.4028952

D. Maggiolo, A. Marion, M. Guarnieri

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引用次数: 1

Abstract

Several experiments have proved that water in liquid phase can be present at the anode of a PEM fuel cell due to vapor condensation resulting in mass transport losses. Nevertheless, it is not yet well understood where exactly water tends to cumulate and how the design of the gas channel (GC) and gas diffusion layer (GDL) could be improved to limit water cumulation. In the present work, a three-dimensional lattice Boltzmann based model is implemented in order to simulate the water cumulation at the GC–GDL interface at the anode of a PEM fuel cell. The numerical model incorporates the H 2 –H 2 O mixture equation of state and spontaneously simulates phase separation phenomena. Different simulations are carried out varying pressure gradient, pore size, and relative height of the GDL. Results reveal that, once saturation conditions are reached, water tends to cumulate in two main regions: the upper and side walls of the GC and the GC–GDL interface, resulting in a limitation of the reactant diffusion from the GC to the GDL. Interestingly, the cumulation of liquid water at the interface is found to diminish as the relative height of the GDL increases.

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聚合物电解质膜燃料电池气通道-气体扩散层界面水积累的晶格玻尔兹曼模型

几个实验已经证明，由于蒸汽凝结导致质量输运损失，液相中的水可以存在于PEM燃料电池的阳极。然而，目前还不清楚水究竟在哪里积聚，以及如何改进气通道(GC)和气体扩散层(GDL)的设计来限制水的积聚。在本工作中，为了模拟PEM燃料电池阳极GC-GDL界面上的水积累，实现了一个三维晶格玻尔兹曼模型。该数值模型采用h2 - h2o混合状态方程，自发地模拟了相分离现象。不同的压力梯度、孔径和相对高度进行了不同的模拟。结果表明，一旦达到饱和条件，水倾向于在两个主要区域积聚:GC的上壁和侧壁以及GC - GDL界面，导致反应物从GC向GDL的扩散受到限制。有趣的是，界面上液态水的积累随着GDL相对高度的增加而减少。

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Journal of Fuel Cell Science and Technology 工程技术-电化学

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6-12 weeks

期刊介绍： The Journal of Fuel Cell Science and Technology publishes peer-reviewed archival scholarly articles, Research Papers, Technical Briefs, and feature articles on all aspects of the science, engineering, and manufacturing of fuel cells of all types. Specific areas of importance include, but are not limited to: development of constituent materials, joining, bonding, connecting, interface/interphase regions, and seals, cell design, processing and manufacturing, multi-scale modeling, combined and coupled behavior, aging, durability and damage tolerance, reliability, availability, stack design, processing and manufacturing, system design and manufacturing, power electronics, optimization and control, fuel cell applications, and fuels and infrastructure.

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