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Computational Fluid Dynamics (CFD) simulations. Anticipated starting date: 1st June 2024 The project will take place in the Building Physics research group, under supervision of dr. Stefanie Gillmeier (assistant
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(CFD) and reduced order models for pot-room ventilation, atmospheric dispersion modelling, and estimation methods, as well as the coupling between these. The results of the project are expected to be
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-Reynolds-number turbulent channel flows and hypersonic turbulent boundary layers for years and has developed an in-house high order CFD code to simulate airframe noise, jet noise, cavity noise etc
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, involving precise constitutive modelling of relevant thermomechanical and electrical properties, for rolling contacts. It builds upon existing CFD-FSI models constructed in the open-source software OpenFOAM
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language (Python, Julia, R, C++, etc.) Being fluent in English (both written and spoken) Having prior knowledge of spatio-temporal modelling paradigms, agent-based models, particle-based methods, or CFD
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in EHL contacts with surface roughness. More elaborate simulation techniques e.g. CFD, are computationally too demanding for exploring vast amounts of design variations in a reasonable time. UGent