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Innovation: Identify and implement improvements in LES sub-grid scale models or actuator disk/line representations to better capture turbine-atmosphere interactions. Scientific Impact: Lead the authoring
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at the molecular level. Realistic models Jackson's modelling is based on simplified but realistic models of the molecular interactions that take place in a fluid. His models predict the thermodyanmics, structure
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theory and modelling. Experience with acoustic/vibrational waves, periodic structures and/or Metamaterials. Experience with experimental measurement techniques for fluid mechanics. TU Delft Delft
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studies fundamental and applied aspects of multiphase flows, combining advanced experiments and state-of-the-art numerical simulations. Research focuses on dense dispersions, turbulence interacting with
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/ Health Monitoring Fluid Structure Interaction (e. g. Sloshing) Launcher Coupled Dynamic Analysis Demisability Re-Usability Thermo-Elastic High Stability / High Precision Structures Active / Adaptive