Add to ORKGAbstract In small fuel cell applications, it is desirable to take care of the management of reactants, water and heat by passive means in order to minimize parasitic losses. A polymer electrolyte membrane fuel cell, in which air flow on the cathode was driven by free convection, was studied by experimental and modelling methods. The cathode side of the cell had straight vertical channels with their ends open to the ambient air. A two-dimensional, isothermal and steady state model was developed for the cathode side to identify the limiting processes of mass transport. The modelled domain consists of the cathode gas channel and the gas diffusion layer. Experimental data from current distribution measurements were used to provide boundary cond...
This thesis deals with modeling of two types of fuel cells:the polymer electrolyte fuel cell (PEFC) ...
The transport of three gas species, O2, H2O and N2, through the cathode of a proton exchange membran...
Water management is one issue that must be surpassed to ensure high membrane proton conductivity and...
Mathematical models are presented for solid polymer electrolyte fuel cells which describe the mass t...
The anisotropic mass transport issues inside a fuel cell membrane have been studied in this thesis u...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
A previously published computational multi-phase model of a polymer-electrolyte membrane fuel cell c...
A two-dimensional, steady state model for proton exchange membrane fuel cell (PEMFC) is presented. T...
A mathematical model of an air-breathing PEMFC and its validation is presented. The aim of this work...
Water concentration in proton exchange membrane (PEM) fuel cells strongly influences performance and...
In polymeric electrolyte fuel cells the hydration level of the perfluosulphonic membrane used as ele...
Water distribution in a fuel cell affects performance and durability, thus fundamental understanding...
A simple analytical model of water transport in the polymer electrolyte fuel cell is developed. Nonl...
A two-dimensional single-phase model is developed for the steady-state and transient analysis of pol...
The effects of water transport through membrane electrolyte assembly of a polymer exchange membrane ...
This thesis deals with modeling of two types of fuel cells:the polymer electrolyte fuel cell (PEFC) ...
The transport of three gas species, O2, H2O and N2, through the cathode of a proton exchange membran...
Water management is one issue that must be surpassed to ensure high membrane proton conductivity and...
Mathematical models are presented for solid polymer electrolyte fuel cells which describe the mass t...
The anisotropic mass transport issues inside a fuel cell membrane have been studied in this thesis u...
The simulation tool presented in this work develops descriptions of the most relevant processes in p...
A previously published computational multi-phase model of a polymer-electrolyte membrane fuel cell c...
A two-dimensional, steady state model for proton exchange membrane fuel cell (PEMFC) is presented. T...
A mathematical model of an air-breathing PEMFC and its validation is presented. The aim of this work...
Water concentration in proton exchange membrane (PEM) fuel cells strongly influences performance and...
In polymeric electrolyte fuel cells the hydration level of the perfluosulphonic membrane used as ele...
Water distribution in a fuel cell affects performance and durability, thus fundamental understanding...
A simple analytical model of water transport in the polymer electrolyte fuel cell is developed. Nonl...
A two-dimensional single-phase model is developed for the steady-state and transient analysis of pol...
The effects of water transport through membrane electrolyte assembly of a polymer exchange membrane ...
This thesis deals with modeling of two types of fuel cells:the polymer electrolyte fuel cell (PEFC) ...
The transport of three gas species, O2, H2O and N2, through the cathode of a proton exchange membran...
Water management is one issue that must be surpassed to ensure high membrane proton conductivity and...