TS011A Numerical Modeling Techniques for Complex Problems in Science and Engineering (In Honor of Rafael Montenegro) I
This thematic session is dedicated to recent advances in numerical modeling applied to multiphysical and multiscale problems in different areas of science and engineering. It will address both the development of new methodologies—such as finite elements, finite volumes, boundary elements, and high-order HDG formulations—and their application to complex cases: incompressible flows, wave propagation, porous media simulation, atmospheric and marine pollution, solar and wind energy, and forest fire propagation, among others. In addition to applications, contributions addressing key computational aspects such as load balancing in parallel algorithms, geometric accuracy in meshes, and the fidelity of numerical models will also be included. The aim of the session is to provide a multidisciplinary space for sharing theoretical, computational, and applied approaches that push the boundaries of numerical simulation in real and demanding contexts.
Scheduled presentations:
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Keynote
Numerical Modelling of Coupled Wind, Wildfire Spread and Smoke Dispersion: From Mathematical Formulation to Operational Integration
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Towards the Prediction of the Underwater Acoustic Footprint of Offshore Wind Turbines
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Data-Driven Prediction of Particulate Pollution Episodes from Low-Cost Sensor Networks in a Coastal Industrial City: Lessons from Gijón (Spain)
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Coupling CFD-DPM simulation of electric vehicle fire suppression in tunnel