Abstract
Water flooding in gas diffusion material (GDM) is an important limit in performance of proton exchange membrane fuel cell (PEFMC). Some efforts, such as modifying the pore structures in the GDM, have been made in order to facilitate water transport and to reduce flooding in PEMFC. Recent experimental studies have demonstrated that using a bi-layer GDM, consisting of a fine micro-porous layer (MPL) and a coarse gas diffusion layer (GDL), can be advantageous for water management in PEMFC. In this work, a pore network model with an invasion percolation algorithm is developed and used to investigate the effects of MPL properties, including thickness, wettability and connectivity, on water distribution in the bi-layer GDM from the viewpoint at the pore level. Furthermore, a reasonable inlet boundary condition is proposed to describe the actual phenomenon that the CL surface is covered with many independent water droplets which are much larger than pore sizes in MPL. Influences of water droplet size and coverage fraction are also clarified in the present study.
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