CORDIS Project
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The project develops innovative closure models for turbulent fluid flows by integrating physics-based and data-driven methods using the concept of entropy. This approach aims to enhance the accuracy and stability of computational fluid dynamics simulations, particularly for applications in wind turbine wake modeling an…
Turbulent fluid flows play a critical role in science and engineering in energy, process design, climate and life sciences.
Accurate and efficient computational fluid dynamics (CFD) simulation tools are therefore essential.
As resolving all turbulent scales of motion is computationally infeasible, every CFD code requires a closure model to represent the effect of unresolved scales. A recent paradigm shift is to construct closure models by combining physics- and data-driven methods.
However, thes…
STICHTING NEDERLANDSE WETENSCHAPPELIJK ONDERZOEK INSTITUTEN
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