An X-Ray Tomography Based Lattice Boltzmann Simulation Study on Gas Diffusion Layers of Polymer Electrolyte Fuel Cells

被引:32
|
作者
Rama, Pratap [1 ]
Liu, Yu [1 ]
Chen, Rui [1 ]
Ostadi, Hossein [2 ]
Jiang, Kyle [2 ]
Zhang, Xiaoxian [3 ]
Fisher, Rosemary [4 ]
Jeschke, Michael [4 ]
机构
[1] Univ Loughborough, Dept Aeronaut & Automot Engn, Loughborough LE11 3TU, Leics, England
[2] Univ Birmingham, Sch Mech & Mfg Engn, Ctr Biomed & Nanotechnol, Birmingham B15 2TT, W Midlands, England
[3] Univ Liverpool, Dept Engn, Liverpool L69 3GQ, Merseyside, England
[4] Tech Fibre Prod Ltd, Kendal LA9 6PZ, England
来源
JOURNAL OF FUEL CELL SCIENCE AND TECHNOLOGY | 2010年 / 7卷 / 03期
关键词
computerised tomography; diffusion; flow simulation; lattice Boltzmann methods; permeability; porous materials; proton exchange membrane fuel cells; MICROSCALE FLOW SIMULATION; 2-PHASE TRANSPORT; WATER MANAGEMENT; CARBON PAPER; PERFORMANCE; MODEL; MEDIA; GDL;
D O I
10.1115/1.3211096
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
This work reports a feasibility study into the combined full morphological reconstruction of fuel cell structures using X-ray computed micro- and nanotomography and lattice Boltzmann modeling to simulate fluid flow at pore scale in porous materials. This work provides a description of how the two techniques have been adapted to simulate gas movement through a carbon paper gas diffusion layer (GDL). The validation work demonstrates that the difference between the simulated and measured absolute permeability of air is 3%. The current study elucidates the potential to enable improvements in GDL design, material composition, and cell design to be realized through a greater understanding of the nano- and microscale transport processes occurring within the polymer electrolyte fuel cell.
引用
收藏
页码:0310151 / 03101512
页数:12
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