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Fluid dynamics of microplastics: fiber-flow interaction simulations to reduce plastic microfiber pollutant release Increasing scientific evidence and public awareness of risks from micro-plastics
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TU Delft is looking for talented PhD candidates with interest in quantum computing and computational fluid dynamics to join the Quantum-CFD research team at EEMCS. The Quantum-CFD research team
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Ship Propulsion (WASP) focusing on three research themes: 1) Fluid dynamics, 2) Design and operation, and 3) Sustainable and societal impact. In the fluid dynamics theme, 4 PhD projects are open to study
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our team. We will work towards understanding of the formation of bandgaps in transitional fluid flows and using them to suppress wave-like boundary layer instabilities, thus delaying laminar-turbulent
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for individuals with background on Mechanical/Enviromental/Civil Engineering, or physics. Strong background in fluid dynamics, experience in computational fluid dynamics, and programming in high-level (MATLAB
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candidate meets the following requirements: MSc degree in applied sciences, computer science, mechanical or aerospace engineering. Strong background in fluid dynamics (e.g. MSc thesis on a fluids-related
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, Chemical Engineering or Mechanical Engineering by the start of the project. Good knowledge of fluid mechanics and transport phenomena is needed to make progress in the project; knowledge of soft matter
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degree. Some experience with coding (Python, Fortran, C++ etc.) is required, affinity with computational methods and fluid dynamics is preferred. Doing a PhD at TU Delft requires English proficiency at a
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Are you interested in new problems at the interface between fluid dynamics and biology? Are you excited about hands-on experimental work in a multidisciplinary environment? We are looking
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under such loading conditions that can affect the lifetime of the vessel. Collaboration with highly-recognized (industrial) partners and other PhD researchers involved in the program is envisaged. We