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areas Engineering & Technology Mathematics & Statistics Physics & Astronomy Project description Individual wind turbines produce turbulent wakes that have implications for maximum power generation from
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work together on fundamental and applied research questions in the stateof-the-art Research Laboratory for Turbulence and Wind Energy Systems. Our mission is to advance the understanding of wind as a
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We are inviting applications for a fully funded PhD position to investigate the complex behaviours of energy transfer in rotating, stably stratified turbulent flows—a critical phenomenon in
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of new theory for the ‘intermediate strain’ turbulence regime whose physics have remained unexplored. Understanding this regime is critical for the development of novel turbulence models in various
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, elasticity is identified to play a key role in reducing noise. Theoretical modelling has shown the noise generation by scattering turbulent fluctuations at an elastic trailing ledge, which can change the
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to the complexity of the mathematical models that describe them. The current consensus is that there are three “types” of viscoelastic chaos: modified Newtonian turbulence, elastic turbulence, and elasto-inertial
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The transition of boundary layers from the laminar to the turbulent regime is one of the most challenging topics in classical physics and applied mathematics, and stands as a bottleneck problem in
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This project focuses on reducing aerofoil broadband noise, specifically turbulence–leading edge interaction noise and trailing edge self-noise, commonly encountered in aero-engines, wind turbines
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Aerofoil broadband noise, specifically turbulence–leading edge interaction noise and trailing edge self-noise, is commonly encountered in aero-engines, wind turbines, and household appliances
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Unsteady RANS approaches, with special emphasis placed on the modelling of near-wall turbulence. The project will also aim to identify areas for additional model development and propose further experimental