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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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Project Description Computational Fluid Dynamics (CFD) is a key element of modern engineering R&D and of digital engineering processes in Industry4.0. In a CFD code, the fundamental equations of fluid flow
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. The Division of Fluid and Experimental Mechanics now offers a PhD position in the subject fluid mechanics with application to hydraulic turbines. The position is part of a larger European project with
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, adapting to the climate changes and satisfying new regulations. The Division of Fluid and Experimental Mechanics now offers a PhD position in the subject fluid mechanics with application to hydraulic
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microplastic particles in complex flow fields, as part of the MicroWash project. In the MicroWash project, we will combine novel experiments and simulations to investigate the fluid mechanical principles
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microplastic particles in complex flow fields, as part of the MicroWash project. In the MicroWash project, we will combine novel experiments and simulations to investigate the fluid mechanical principles
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to think freely and innovate, our actions together, large and small, contribute to a better world. We look forward to receiving your application! We are looking for a PhD student in Fluid and mechatronic
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100%, Zurich, fixed-term This project is a collaboration between the Institute of Fluid Dynamics at ETH Zurich and the ID19 microtomography beamline at the ESRF, Grenoble, France. The research in
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. Their expertise is unique: fluid rheology, surface state control and physical chemistry on the IMMM side, instrumentation and acoustic signal analysis on the LAUM side. CRASH (University of Sherbrooke, Canada) has
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to develop quantitative analogues for (induced) seismicity. Injecting or extracting fluids into the shallow subsurface carries the risk of induced seismicity. An explicit multi-physics system to model fluid