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F4: Advances In Lattice Boltzmann Method: Innovations and Applications In Complex Systems
Chair:
Alessandro De Rosis (University of Manchester)*
Key words: Lattice Boltzmann Method.
ABSTRACT
The Lattice Boltzmann Method (LBM) has gained widespread recognition as a powerful computational framework for simulating a diverse range of complex systems, from fluid dynamics to multiphysics and beyond. Its inherent flexibility, scalability, and compatibility with modern high-performance computing platforms, such as GPUs, make it a preferred choice for addressing challenges in both scientific research and engineering applications. This mini-symposium will gather leading experts and emerging researchers to discuss recent innovations in LBM theory, algorithmic developments, and novel applications.
Topics of interest include, but are not limited to:
advances in LBM for fluid-structure interactions and multiscale phenomena;
hybrid LBM approaches integrating machine learning and traditional numerical methods;
high-performance LBM simulations on modern computational architectures;
applications of LBM in fields such as porous media, thermal systems, magnetohydrodynamics and environmental modelling
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