Multi-component gas transport phenomena in a cathode electrode layer of Polymer Electrolyte Fuel Cells (PEFC) are investigated by using a two-dimensional computational model developed by Yi and Nguyen. In the past research, we encountered a problem that the solution did not converge when the same settings for physical parameters with them were used in our steady simulations. In the present study, we extend our simulation from steady to unsteady simulation to avoid the problem. Also, based on the results, the effect of changing permeability in the simulations is discussed with reporting possible errors regarding the value of permeability shown in the reference at the same time
Purpose: This paper aims to numerically investigate the impact of gas diffusion layer (GDL) anisotro...
In polymer electrolyte fuel cells of the types PEFC, DMFC and HT-PEFC, the gas diffusion layer (GDL)...
AbstractProton exchange membrane fuel cells (PEMFC) become in the last years an attractive alternati...
AbstractIn this paper, we study a 2D transient two-phase transport model for water species in the ca...
In this paper, we apply streamline-diffusion and Galerkin-least-squares finite element methods for 2...
The research and the development of PEMFC systems is an ongoing process with an increasing demand fo...
Simulation of the performance of the PEM fuel cell based on the fluid flow approach in electrodes of...
A computational fluid dynamics model for high-temperature polymer electrolyte fuel cells (PEFC) is d...
In this paper a numerical study of a two dimensional through–section electrode of the cathode-side G...
Numerical modeling plays an important role in understanding various transport processes in polymer e...
A detailed one-dimensional dynamic model of a gas diffusion electrode as part of a complete fuel cel...
This article elucidates the effect of low hydrogen concentration fuel gas on polymer electrolyte fue...
International audienceConsidering the complexity of the electrical behavior (polarization curve and ...
Polymer electrolyte fuel cells are efficient and clean devices that convert chemical energy directly...
This thesis presents numerical simulations of reacting transport phenomena in polymer electrolyte me...
Purpose: This paper aims to numerically investigate the impact of gas diffusion layer (GDL) anisotro...
In polymer electrolyte fuel cells of the types PEFC, DMFC and HT-PEFC, the gas diffusion layer (GDL)...
AbstractProton exchange membrane fuel cells (PEMFC) become in the last years an attractive alternati...
AbstractIn this paper, we study a 2D transient two-phase transport model for water species in the ca...
In this paper, we apply streamline-diffusion and Galerkin-least-squares finite element methods for 2...
The research and the development of PEMFC systems is an ongoing process with an increasing demand fo...
Simulation of the performance of the PEM fuel cell based on the fluid flow approach in electrodes of...
A computational fluid dynamics model for high-temperature polymer electrolyte fuel cells (PEFC) is d...
In this paper a numerical study of a two dimensional through–section electrode of the cathode-side G...
Numerical modeling plays an important role in understanding various transport processes in polymer e...
A detailed one-dimensional dynamic model of a gas diffusion electrode as part of a complete fuel cel...
This article elucidates the effect of low hydrogen concentration fuel gas on polymer electrolyte fue...
International audienceConsidering the complexity of the electrical behavior (polarization curve and ...
Polymer electrolyte fuel cells are efficient and clean devices that convert chemical energy directly...
This thesis presents numerical simulations of reacting transport phenomena in polymer electrolyte me...
Purpose: This paper aims to numerically investigate the impact of gas diffusion layer (GDL) anisotro...
In polymer electrolyte fuel cells of the types PEFC, DMFC and HT-PEFC, the gas diffusion layer (GDL)...
AbstractProton exchange membrane fuel cells (PEMFC) become in the last years an attractive alternati...