Paper Title
Modeling and Simulation of a Hydrogen-based Proton Exchange Membrane Fuel Cell for Power Generation

Abstract
Now is the time for hydrogen, it is a new vector of energy independence, which is available to decarbonize several sectors of the world economy. Hydrogen has the particularity of responding to the entire universe, of which it represents 75% of the mass and 92% of the atoms on earth. Unfortunately, it is only rarely present by electrolysis of water which is a electrolytic process that breaks down water (H2O) into dioxygen and hydrogen gas using an electric current. It is very easy and the process can even be offered if the electricity used is of renewable origin. Hydrogen can be suitable for all current or potential applications of electricity. In fact, thanks to a water electrolyzer and a fuel cell, it is possible to switch from electricity to hydrogen and vice versa. All, without emitting any pollutant in situ. Several researches dealed with this phenomenon, and treated the Fuel cell. In this paper, we illustrate a modeling of an Exchanged Proton Membrane Fuel Cell (PEMFC), using Matlab/Simulink. This modeling will highlight the influence of different parameters on the efficiency of the PEMFC and the electricity produced.