INVESTIGATION OF THE PERFORMANCE OF THE PEM FUEL CELL WITH TRIANGLE CHANNEL CROSS SECTION GEOMETRY

Muhammet ÖZDOĞAN¹ , Aydın DURMU޲

In this study, a single-cell PEM fuel cell with triangular channel cross-section geometry is modeled as a three-dimensional. It was assumed that the cell is working single-phase and steady-state conditions. Cell performance was investigated for different operating pressures and different temperatures. Analyzes were conducted for three different temperatures and three different working pressures to investigate the effect of temperature and working pressure on cell performance. As a result, the change curves of cell potential and the amount of power with respect to current density, contour plots of current density distribution and reactant distributions were given. Cell potential decreases with increasing current density. The amount of power first increased, and then decreased with increasing the current density. The amount of power is maximum at which the current density is approximately 1.6 A/cm2. Cell efficiency is increased by increasing cell potential. When the distributions of current density and hydrogen ratio in the channel are examined, it appears to decrease towards the outlet of the cell.

Keywords
PEM Fuel Cell, Triangular Channel Geometry, Three Dimensional Modeling, Operating Parameters, Channel Section Geometry,