At present, despite the great advances in polymer electrolyte membrane fuel cell (PEMFC)
technology over the past two decades through intensive research and development …

Many computational fluid dynamics polymer-electrolyte-membrane fuel cell models have
been presented over the last few decades. A detailed literature overview of models, ranging …

An advanced PEM fuel cell mathematical model is described and realised in four ancillaries
in the Matlab–Simulink environment. Where possible, the model is based on parameters …

A comprehensive macroscopic three-dimensional multiphase non-isothermal polymer
electrolyte membrane fuel cell (PEMFC) model coupled with an improved electrochemical …

An improved agglomerate sub-model of catalyst layer (CL) involving actual agglomerate
size and oxygen local transport characteristics is developed and incorporated into a three …

Proton exchange membrane fuel cells (PEMFCs) are efficient and emission free
electrochemical generators, making them an attractive alternative power source. However …

Proton exchange membrane (PEM) based technologies (fuel cells and electrolysers) offer
promising sustainable power generation and storage solutions for a diverse range of …

Fuel cells are still undergoing intense development, and the combination of new and
optimized materials, improved product development, novel architectures, more efficient …

Computational fluid dynamics analysis was employed to investigate the performance of
proton exchange membrane fuel cells (PEMFCs) with different channel geometries at high …

This paper is a computational study of the cathode catalyst layer (CL) of a proton exchange
membrane fuel cell (PEMFC) and how changes in its structural parameters affect …