International Journal of Hydrogen Energy, Vol.31, No.3, 379-389, 2006
A hybrid model of cathode of PEM fuel cell using the interdigitated gas distributor
A two-dimensional (2D), single- and two-phase, hybrid multi-component transport model is developed for the cathode of PEM fuel cell using interdigitated gas distributor. The continuity equation and Darcy's law are used to describe the flow of the reactant gas and production water. The production water is treated as vapor when the current density is small, and as two-phase while the current density is greater than the critical current density. The advection-diffusion equations are utilized to study species transport of multi-component mixture gas. The Butler-Volmer equation is prescribed for the domain in the catalyst layer. The predicted results of the hybrid model agree well with the available experimental data. The model is used to investigate the effects of operating conditions and the cathode structure parameters on the performance of the PEM fuel cell. It is observed that liquid water appears originally in the cathodic catalyst layer over outlet channel under intermediate current and tends to be distributed uniformly by the capillary force with the increase of the current. It is found that reduction of the width of outlet channel can enhance the performance of PEM fuel cell via the increase of the current density over this region. which has, seemingly, not been discussed in previous literatures. (c) 2005 International Association for Hydrogen Energy. Published by Elsevier Ltd. All fights reserved.