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vesicles are membrane-enclosed communicative particles released in body fluids that carry cell-type-specific molecular patterns including nucleic acids and proteins. Knowledge on their origin, fate and
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species and hydrodynamic stresses from fluids. In addition, hybrid strategies whereby these mechanistic modelling approaches and machine learning methods are combined will be investigated. We give some
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Starting Grant “FLOWSCOPY: Unravelling unsteady fluid flows in porous media with 3D X-ray micro-velocimetry”. Fluid flows in porous materials are a widespread phenomenon, just think of groundwater flow in
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“FLOWSCOPY: Unravelling unsteady fluid flows in porous media with 3D X-ray micro-velocimetry”. Fluid flows in porous materials are a widespread phenomenon, just think of groundwater flow in the subsurface
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extracellular vesicles and clinically relevant and transgenic models systems to assess their function. Extracellular vesicles are membrane-enclosed communicative particles released in body fluids that carry cell
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for solving a coupled multi-physics problem of linear elastic deformation, fluid flow and heat transport, by reduced-order modelling strategies. The dual-use solver should allow standalone calculations as
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. 5. You have affinity with Tribology. 6. You have profound knowledge of Computational Fluid Dynamics and OpenFOAM 7. Experience with Electromagnetic Simulation is an asset. 8. Experience with
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bio- physical characteristics of cells, their internal machinery, environment effects such as gradients of chemical species and hydrodynamic stresses from fluids. In addition, hybrid strategies whereby