A detailed one-dimensional dynamic model of a gas diffusion electrode as part of a complete fuel cell model is presented. Various effects of parameter changes are considered. Comparison of experimental results and simulation is performed and a new approach to simulation of a complete current voltage curve is discussed
International audienceIn terms of fuel cell steady-state performance modelling, many electrical mode...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
Modelling and simulation are well-established tools for investigating the physical processes inside ...
The modeling of fuel cells requires the coupling of fluid transport with electro-chemical reactions....
In the last decade, the interest in green power generators has increased. Hydrogen, especially, is a...
This chapter outlines analytical and numerical methods for modeling proton exchange membrane fuel ce...
A computational fluid dynamics model for high-temperature polymer electrolyte fuel cells (PEFC) is d...
The modeling of fuel cells requires the coupling of fluid transport with electro-chemical reactions....
This paper presents a one-dimensional model of the PEM fuel cell cathode for analysing current inter...
A mathematical model is developed that is based on a coupled system of partial differential equation...
A mathematical model is developed that is based on a coupled system of partial differential equation...
Abstract: Polymer Electrolyte Membrane Fuel Cells (PEMFCs) are identified as the most important choi...
International audienceConsidering the complexity of the electrical behavior (polarization curve and ...
A multidimensional dynamic model of a proton exchange membrane (PEM) fuel cell is presented. The mod...
Multi-component gas transport phenomena in a cathode electrode layer of Polymer Electrolyte Fuel Cel...
International audienceIn terms of fuel cell steady-state performance modelling, many electrical mode...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
Modelling and simulation are well-established tools for investigating the physical processes inside ...
The modeling of fuel cells requires the coupling of fluid transport with electro-chemical reactions....
In the last decade, the interest in green power generators has increased. Hydrogen, especially, is a...
This chapter outlines analytical and numerical methods for modeling proton exchange membrane fuel ce...
A computational fluid dynamics model for high-temperature polymer electrolyte fuel cells (PEFC) is d...
The modeling of fuel cells requires the coupling of fluid transport with electro-chemical reactions....
This paper presents a one-dimensional model of the PEM fuel cell cathode for analysing current inter...
A mathematical model is developed that is based on a coupled system of partial differential equation...
A mathematical model is developed that is based on a coupled system of partial differential equation...
Abstract: Polymer Electrolyte Membrane Fuel Cells (PEMFCs) are identified as the most important choi...
International audienceConsidering the complexity of the electrical behavior (polarization curve and ...
A multidimensional dynamic model of a proton exchange membrane (PEM) fuel cell is presented. The mod...
Multi-component gas transport phenomena in a cathode electrode layer of Polymer Electrolyte Fuel Cel...
International audienceIn terms of fuel cell steady-state performance modelling, many electrical mode...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
Modelling and simulation are well-established tools for investigating the physical processes inside ...