Research
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Finite Volume Methods for Shallow Water Equations
I develop numerical schemes based on the finite volume method for solving the shallow water equations. These approaches are applied to real-world cases, such as the Nador Lagoon and the Bay of Tangier, in order to simulate hydrodynamic behavior and analyze environmental exchanges at different spatial and temporal scales.
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Meshless Methods for Hydrodynamics and Heat Transfer
I design and implement meshless numerical methods to address complex systems governed by the shallow water equations and the Navier–Stokes equations. These methods are particularly well suited to modeling heat transfer phenomena in complex geometries, offering a flexible and robust alternative to traditional methods.
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Design and Optimization of Thermal Systems using CFD
My research also focuses on the innovative design and optimization of thermal systems, particularly solar absorbers and heat exchangers. Through computational fluid dynamics (CFD) simulations, I evaluate and enhance the thermal performance of these devices, with the aim of proposing more efficient and sustainable solutions in the fields of energy and heat transfer.