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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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discipline. Strong background in Heat Transfer, fluid dynamics Experience with computational fluid dynamics; metallurgical processes Excellent written and oral communication skills in English Ability to work
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-students with a solid background in fluid dynamics, statistical physics, computational physics and high-performance computing. A master’s degree (or an equivalent university degree) in (applied) physics
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. Computational fluid dynamics is an essential enabler for science and for many outstanding societal challenges. Many key advanced and emerging technologies require unprecedented control of heat and mass transfer
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the atmosphere, and the interactions between wind farms. This project represents an opportunity for us to advance our collective knowledge of fluid and atmospheric dynamics relevant to wind energy. Join us in
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to push the boundaries of fundamental fluid and atmospheric dynamics, enhance wind farm efficiency, and deepen our understanding of their interaction with the atmosphere. Join us in pushing the boundaries
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the potential of hydrogen storage and carbon capture technologies. Your project: Utilise Computational Fluid Dynamics (CFD) to model the complex gas flow within high-pressure mechanical seals. Analyse
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(https://www.nature.com/articles/srep13163 ). In this PhD project, you will investigate the fluid dynamics of flexible fibers in complex acoustofluidics flows, and explore the potential for separation and
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(https://www.nature.com/articles/srep13163 ). In this PhD project, you will investigate the fluid dynamics of flexible fibers in complex acoustofluidics flows, and explore the potential for separation and