Samir Jemeï
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A Versatile Prognostics Approach for Batteries and Hydrogen Storage Systems Health Management Open
The degradation of energy storage systems, including batteries, proton exchange membrane fuel cells, and electrolyzers, presents a critical challenge to their long-term reliability and efficiency. This study addresses the prediction of Rem…
Comparative study of a new semi-empirical model of the proton exchange membrane fuel cell for online prognostics applications Open
International audience
AlphaPEM: An open-source dynamic 1D physics-based PEM fuel cell model for embedded applications Open
The urgency of the energy transition requires improving the performance and longevity of hydrogen technologies. AlphaPEM is a dynamic one-dimensional (1D) physics-based PEM fuel cell system simulator, programmed in Python and experimentall…
A system-level modeling framework for predicting Pt catalyst degradation in proton exchange membrane fuel cells Open
International audience
Remaining useful life prognostic-based energy management strategy for multi-fuel cell stack systems in automotive applications Open
\n \nTo achieve the 8000-h proton exchange membrane fuel cell stack (PEM FCS) life target set by the U.S DoE and promote fuel cell hybrid electric vehicles (FCHEVs) massive introduction in the automotive market, using multi-fuel cell stack…
Design of an energy system integrating hydrogen storage in Corsica island: multiobjective optimization model Open
International audience
An advanced 1D physics-based model for PEM hydrogen fuel cells with enhanced overvoltage prediction Open
A one-dimensional, dynamic, two-phase, isothermal and finite-difference model of proton exchange membrane fuel cell (PEMFC) systems has been developed. It is distinct from most existing models which are either fast but imprecise, such as l…
A Critical Review of Proton Exchange Membrane Fuel Cells Matter Transports and Voltage Polarisation for Modelling Open
Technologies based on the use of hydrogen are promising for future energy requirements in a more sustainable world. Consequently, modelling fuel cells is crucial, for instance, to optimize their control to achieve excellent performance, to…
View article: An adaptative approach for estimating the remaining useful life of a heavy-duty fuel cell vehicle
An adaptative approach for estimating the remaining useful life of a heavy-duty fuel cell vehicle Open
The aim of this paper is to predict the remaining useful lifetime without prior knowledge of the load profile of a heavy duty vehicle. To achieve this, the data is indexed by cumulative current load instead of time. Furthermore, the stress…
A dynamic 1D+1D physical model of the PEMFC hydrogen stack for embedded systems Open
International audience
A dual-scale modelling framework for predicting catalyst degradation in Polymer Electrolyte Fuel Cells Open
International audience
View article: Time to Market Reduction for Hydrogen Fuel Cell Stacks using Generative Adversarial Networks
Time to Market Reduction for Hydrogen Fuel Cell Stacks using Generative Adversarial Networks Open
To face the dependency on fossil fuels and limit carbon emissions, fuel cells are a very promising technology and appear to be a key candidate to tackle the increase of the energy demand and promote the energy transition. To meet future ne…
Study of optimal sizing for various hybrid power plants including Hydrogen Vector as storage system. A case of study in Corsica Island Open
International audience
An energy management of a combined cooling and power cogeneration system using hydrogen energy for an off-grid application Open
International audience
Hybrid Ageing Model of a Proton Exchange Membrane Fuel Cell (PEMFC) Open
Today the world is full of time-dependent phenomena in all fields: physics, chemistry, mechanics and many others. Time acts on the performance of any system whatever its nature is. When a system operates over time, aging becomes a real con…
View article: Remaining Useful Life Prediction for Proton Exchange Membrane Fuel Cells Including Reversible and Irreversible Losses
Remaining Useful Life Prediction for Proton Exchange Membrane Fuel Cells Including Reversible and Irreversible Losses Open
International audience
Autonomous Electric Vehicle Routing Problem using Ant Colony Optimization with consideration of the Battery State-of-Health Open
International audience
Degradation identification and prognostics of proton exchange membrane fuel cell under dynamic load Open
International audience
An online prognostics-based health management strategy for fuel cell hybrid electric vehicles Open
As the energy transformation in the transportation sector is taking place driven by the development of fuel cell technologies, fuel cell hybrid electric vehicles become promising solutions owing to their long driving duration and zero emis…
Combined Cooling and Power Management Strategy for a Standalone House Using Hydrogen and Solar Energy Open
Tropical climate is characterized by hot temperatures throughout the year. In areas subject to this climate, air conditioning represents an important share of total energy consumption. In some tropical islands, there is no electric grid; i…
Characterizing Aging of Lithium-ion Batteries during Long-term Test Campaigns for Transport Applications Open
International audience
View article: Hydrogen energy systems: A critical review of technologies, applications, trends and challenges
Hydrogen energy systems: A critical review of technologies, applications, trends and challenges Open
International audience