Title of article
Performance analysis of a proton exchange membrane fuel cell using tree-shaped designs for flow distribution
Author/Authors
Lorenzini-Gutierrez، نويسنده , , Daniel and Hernandez-Guerrero، نويسنده , , Abel and Ramos-Alvarado، نويسنده , , Bladimir and Perez-Raya، نويسنده , , Isaac and Alatorre-Ordaz، نويسنده , , Alejandro، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
14
From page
14750
To page
14763
Abstract
The performance of a proton exchange membrane (PEM) fuel cell is directly associated to the flow channels design embedded in the bipolar plates. The flow field within a fuel cell must provide efficient mass transport with a reduced pressure drop through the flow channels in order to obtain a uniform current distribution and a high power density. In this investigation, three-dimensional fuel cell models are analyzed using computational fluid dynamics (CFD). The proposed flow fields are radially designed tree-shaped geometries that connect the center flow inlet to the perimeter of the fuel cell plate. Three flow geometries having different levels of bifurcation were investigated as flow channels for PEM fuel cells. The performance of the fuel cells is reported in polarization and power curves, and compared with that of fuel cells using conventional flow patterns such as serpentine and parallel channels. Results from the flow analysis indicate that tree-shaped flow patterns can provide a relatively low pressure drop as well as a uniform flow distribution. It was found that as the number of bifurcation levels increases, a larger active area can be utilized in order to generate higher power and current densities from the fuel cell with a negligible increase in pumping power.
Keywords
PEM fuel cell , Tree-shaped flow distributors , Numerical study , Optimized geometries , CFD
Journal title
International Journal of Hydrogen Energy
Serial Year
2013
Journal title
International Journal of Hydrogen Energy
Record number
1865697
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