A comprehensive 3D, multiphase, and nonisothermal model for a proton exchange membrane fuel cell has been developed in this study. The model has been used to investigate the effects of the size of the parallel-type cathode flow channel on the fuel cell performance. The flow-field plate, with the numerically predicted best performing cathode flow channel, has been built and experimentally tested using an in-house fuel cell test station. The effects of the operating conditions of relative humidity, pressure, and temperature have also been studied. The results have shown that the fuel cell performs better as the size of the cathode flow channel decreases, and this is due to the increased velocity that assists in removing liquid water that may ...
Proton Exchange Membrane Fuel Cells (PEMFC) are highly efficient power generators, achieving up to 5...
In this paper we analyze the three-dimensional flow field in anode and cathode gas channels of polym...
Proton exchange membrane fuel cells are well known to be prormsmg alternative energy converters beca...
A comprehensive 3D, multiphase, and nonisothermal model for a proton exchange membrane fuel cell has...
In fuel cells flow configuration and operating conditions such as cell temperature, humidity at each...
A three-dimensional computational fluid dynamics in-house code to model the proton exchange membrane...
Proton exchange membrane fuel cell (PEMFC) is energy conversion device especially in future use in s...
AbstractProton exchange membrane fuel cells (PEMFC) become in the last years an attractive alternati...
The configuration of fuel, air, and cooling water paths is one of the major factors that influence t...
In this study, a three-dimensional, single-phase model has been established to investigate the perfo...
A two dimensional, along the channel, non-isothermal, two-phase flow, anode partial flooding model w...
AbstractThis research was studied to design of flow field on Proton Exchange Membrane Fuel Cell for ...
A low-performance fuel cell significantly hinders the application and commercialization of fuel cell...
This paper reports the three-dimensional modelling of a proton exchange membrane fuel cell (PEMFC) w...
A low-performance fuel cell significantly hinders the application and commercialization of fuel cell...
Proton Exchange Membrane Fuel Cells (PEMFC) are highly efficient power generators, achieving up to 5...
In this paper we analyze the three-dimensional flow field in anode and cathode gas channels of polym...
Proton exchange membrane fuel cells are well known to be prormsmg alternative energy converters beca...
A comprehensive 3D, multiphase, and nonisothermal model for a proton exchange membrane fuel cell has...
In fuel cells flow configuration and operating conditions such as cell temperature, humidity at each...
A three-dimensional computational fluid dynamics in-house code to model the proton exchange membrane...
Proton exchange membrane fuel cell (PEMFC) is energy conversion device especially in future use in s...
AbstractProton exchange membrane fuel cells (PEMFC) become in the last years an attractive alternati...
The configuration of fuel, air, and cooling water paths is one of the major factors that influence t...
In this study, a three-dimensional, single-phase model has been established to investigate the perfo...
A two dimensional, along the channel, non-isothermal, two-phase flow, anode partial flooding model w...
AbstractThis research was studied to design of flow field on Proton Exchange Membrane Fuel Cell for ...
A low-performance fuel cell significantly hinders the application and commercialization of fuel cell...
This paper reports the three-dimensional modelling of a proton exchange membrane fuel cell (PEMFC) w...
A low-performance fuel cell significantly hinders the application and commercialization of fuel cell...
Proton Exchange Membrane Fuel Cells (PEMFC) are highly efficient power generators, achieving up to 5...
In this paper we analyze the three-dimensional flow field in anode and cathode gas channels of polym...
Proton exchange membrane fuel cells are well known to be prormsmg alternative energy converters beca...