Add to ORKGMathematical models are presented for solid polymer electrolyte fuel cells which describe the mass transport limitations which can result at high current density. The models considers oxygenand nitrogen diffusion and convection, vapour and liquid, water transport in the electrode, oxygen transport and water generation at the cathode and water transport through the membrane and vaporisation of water. The direct methanol fuell cell, unlike the hydrogen cell, suffers from mass transport limitations predominantly at the anode. For vapour fed cells the mass transfer characteristics are similar to those for the oxygen cathode, with CO2 flowing counter current to the vaporised fuel. For liquid fed cells mass transfer limitations arise from counter...
A brief review of recent literature on proton exchange membrane fuel cell (PEMFC) modelling is pres...
In polymer electrolyte fuel cells (PEFC) chemical energy, in for example hydrogen, is converted by a...
Multi-phase transport of reactant and product species, momentum, heat (energy), electron and proton ...
Mass transport is a factor which limits the performance of solid polymer electrolyte fuel cells oper...
This thesis deals with modeling of two types of fuel cells:the polymer electrolyte fuel cell (PEFC) ...
Liquid-feed direct methanol fuel cell systems (DMFC) have a number of advantages over hydrogen fuel ...
In polymeric electrolyte fuel cells the hydration level of the perfluosulphonic membrane used as ele...
Abstract In small fuel cell applications, it is desirable to take care of the management of reactant...
This paper describes recent attempts to define and understand important transport issues that contro...
Limiting current density data for a liquid feed direct methanol fuel cell best on a Nation solid pol...
A three dimensional transient model fully coupling the two phase flow, species transport, heat trans...
Fuel cells are predicted to be the power delivery devices of the future. They have many advantages s...
International audienceA model of a polymer electrolyte membrane fuel cell (PEMFC) is proposed to pre...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
The anisotropic mass transport issues inside a fuel cell membrane have been studied in this thesis u...
A brief review of recent literature on proton exchange membrane fuel cell (PEMFC) modelling is pres...
In polymer electrolyte fuel cells (PEFC) chemical energy, in for example hydrogen, is converted by a...
Multi-phase transport of reactant and product species, momentum, heat (energy), electron and proton ...
Mass transport is a factor which limits the performance of solid polymer electrolyte fuel cells oper...
This thesis deals with modeling of two types of fuel cells:the polymer electrolyte fuel cell (PEFC) ...
Liquid-feed direct methanol fuel cell systems (DMFC) have a number of advantages over hydrogen fuel ...
In polymeric electrolyte fuel cells the hydration level of the perfluosulphonic membrane used as ele...
Abstract In small fuel cell applications, it is desirable to take care of the management of reactant...
This paper describes recent attempts to define and understand important transport issues that contro...
Limiting current density data for a liquid feed direct methanol fuel cell best on a Nation solid pol...
A three dimensional transient model fully coupling the two phase flow, species transport, heat trans...
Fuel cells are predicted to be the power delivery devices of the future. They have many advantages s...
International audienceA model of a polymer electrolyte membrane fuel cell (PEMFC) is proposed to pre...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
The anisotropic mass transport issues inside a fuel cell membrane have been studied in this thesis u...
A brief review of recent literature on proton exchange membrane fuel cell (PEMFC) modelling is pres...
In polymer electrolyte fuel cells (PEFC) chemical energy, in for example hydrogen, is converted by a...
Multi-phase transport of reactant and product species, momentum, heat (energy), electron and proton ...