Parametric Analysis of a Serpentine Flow Pattern Proton Exchange Membrane Fuel Cell for Optimized Performance

Abstract: Proton Exchange Membrane Fuel Cell is considered one of the best alternatives to conventional sources of energy especially for automobile industry but faces heat and mass transfer challenges limiting its market penetration. This study investigates the effect of different parameters on the performance of a fuel cell with serpentine type single channel geometry using 3-D numerical simulations of the fuel cell model in the academic version of ANSYS Fluent 18.1. The fuel cell domain was discretized using structure… Show more

“…In order to ensure that the reaction continues normally, additional power is needed to pump the reaction gas. This part of the additional power can be solved by Equation (23). Figure 8 shows the wattage variation of the net power generated by four different square and round tubular designs at different voltages.…”

Numerical Analysis of the Influence of Different Flow Patterns on Power and Reactant Transmission in Tubular-Shaped PEMFC

“…In order to ensure that the reaction continues normally, additional power is needed to pump the reaction gas. This part of the additional power can be solved by Equation (23). Figure 8 shows the wattage variation of the net power generated by four different square and round tubular designs at different voltages.…”

Numerical Analysis of the Influence of Different Flow Patterns on Power and Reactant Transmission in Tubular-Shaped PEMFC

A Modified Design Of The Gas Flow Channel Model For The Proton Exchange Membrane Fuel Cells: A Three-Dimensional Simulation