Modélisation de mini-réseaux autonomes : Intégration des piles à combustible, des électrolyseurs et des panneaux photovoltaïques avec des systèmes de batteries de secours.
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Abstract
With the rapid advancement of renewable energy technologies and the growing electricity
demand in isolated regions, autonomous mini-grids have emerged as a sustainable and
practical solution to current energy challenges. Parametric analysis applied to these systems
contributes to enhancing overall performance and improving design accuracy.
This study aligns with that objective by simulating an autonomous mini-grid that integrates
photovoltaic panels, electrolyzers, fuel cells, a hydrogen storage system, and backup batteries.
The analysis is conducted under the specific climatic conditions of the Aïn Témouchent
region, using two representative days: December 14th (winter) and June 14th (summer).
System modeling was performed using the TRNSYS software, known for its precision in
simulating complex energy systems. The results provided a better understanding of the
behavior of a solar-hydrogen mini-grid and helped identify potential optimization strategies to
improve its energy autonomy.
