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Numerical study of two-phase flow patterns in the gas channel of PEM fuel cells with tapered flow field design
Authors:Erasmo Mancusi,É  liton Fontana,Antô  nio Augusto Ulson de Souza,Selene M.A. Guelli Ulson de Souza
Affiliation:1. Universidade Federal de Santa Catarina, Departamento de Engenharia Química e de Alimentos, UFSC-CTC-EQA, PO Box 476, 88040-970 Florianópolis, SC, Brazil;2. Facoltà di Ingegneria, Università del Sannio, Piazza Roma, 82100 Benevento, Italy
Abstract:In this study the air–water two-phase flow in a tapered channel of a PEMFC was numerically simulated using the volume of fluid (VOF) method. In particular, a 3D mathematical model of the fuel cell flow channel was used to obtain a reliable evaluation of the fuel cell performance for different taper angles and different temperatures and to calculate the total amount of water produced. This information was then used as boundary conditions to simulate the two-phase flow in the cell channel through a 2D VOF model. Typical operating conditions were assigned and the numerical mesh was constructed to represent the real fuel cell configuration. The results show that tapering the channel downstream enhances the water removal due to increased airflow velocity. In the rectangular channel no film formation is noted with a marked predominance of slug flow. In contrast, as the taper angle is increased the predominant two-phase flow pattern is film flow. Finally many contact angles have been used to simulate the effect of the hydrophobicity of a GDL surface on the motion of the water. As the hydrophobicity of a GDL surface is decreased the presence of film is more evident even for less tapered channels.
Keywords:PEM fuel cell   VOF simulation   Multiphase flow   Tapered channel   Water transport   CFD simulation
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