Add to ORKGThe operation of proton exchange membrane fuel cells at elevated temperatures near 100°C-120°C and low relative humidity affects several of the membrane properties. Most current research involves the determination of the membrane ionic conductivity, stability, and strength. This study describes the importance of the membrane material properties with respect to the kinetics of the oxygen reduction reaction in the fuel cell cathode
The fuel cell is a renewable technology which utilizes the hydrogen fuel via oxidation to generate e...
Compared with other energy sources, PEMFC has the advantages of high power density, low operating te...
Abstract: In a proton exchange membrane (PEM) fuel cell, there are many parameters that could signif...
The operation of proton exchange membrane fuel cells at elevated temperatures near 100°C-120°C and l...
Research was conducted to investigate and improve oxygen reduction kinetics in PEM fuel cells throug...
Polarization losses of proton exchange membrane (PEM) fuel cells at 120 degrees C and reduced relati...
Polarization losses of proton exchange membrane (PEM) fuel cells at 120 °C and reduced relative humi...
PEMFCs are a favoured alternative for their clean emissions, high energy density and superior effici...
Proton exchange membrane fuel cells continue to be of interest for portable power and automotive app...
Hydrogen is considered one of the most important energy vector of the future and fuel in transport s...
AbstractIn the first part of this paper, a comprehensive modeling and validation of a PEM fuel cell ...
Reactant diffusion and solubility is of utmost important for providing sufficient reactant concentra...
The effects of oxygen concentration and ambient pressure on fuel cell performance are explored both ...
Water loss and the coincident increase in membrane resistance to proton conduction are significant b...
Design of the Proton Exchange Membrane (PEM) fuel cell system is still developed and improved to ach...
The fuel cell is a renewable technology which utilizes the hydrogen fuel via oxidation to generate e...
Compared with other energy sources, PEMFC has the advantages of high power density, low operating te...
Abstract: In a proton exchange membrane (PEM) fuel cell, there are many parameters that could signif...
The operation of proton exchange membrane fuel cells at elevated temperatures near 100°C-120°C and l...
Research was conducted to investigate and improve oxygen reduction kinetics in PEM fuel cells throug...
Polarization losses of proton exchange membrane (PEM) fuel cells at 120 degrees C and reduced relati...
Polarization losses of proton exchange membrane (PEM) fuel cells at 120 °C and reduced relative humi...
PEMFCs are a favoured alternative for their clean emissions, high energy density and superior effici...
Proton exchange membrane fuel cells continue to be of interest for portable power and automotive app...
Hydrogen is considered one of the most important energy vector of the future and fuel in transport s...
AbstractIn the first part of this paper, a comprehensive modeling and validation of a PEM fuel cell ...
Reactant diffusion and solubility is of utmost important for providing sufficient reactant concentra...
The effects of oxygen concentration and ambient pressure on fuel cell performance are explored both ...
Water loss and the coincident increase in membrane resistance to proton conduction are significant b...
Design of the Proton Exchange Membrane (PEM) fuel cell system is still developed and improved to ach...
The fuel cell is a renewable technology which utilizes the hydrogen fuel via oxidation to generate e...
Compared with other energy sources, PEMFC has the advantages of high power density, low operating te...
Abstract: In a proton exchange membrane (PEM) fuel cell, there are many parameters that could signif...