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Field
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thermal resistance – potentially modifying the coupled electro-mechanical-fluid loading and causing fatigue and early failure. This PhD project will investigate how biofouling affects the hydrodynamic
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factors, including geographic location, hydrodynamic conditions, and water depth. This PhD will build upon numerical modelling studies to employ physical modelling experiments in state-of-the-art facilities
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processes, exploring wave energy propagation and other marine hydrodynamics towards minimising uncertainty of low resolution datasets Participate in research aimed at the dynamical downscaling of ocean models
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. This PhD project will investigate how biofouling affects the hydrodynamic, thermal and fluid-structure interaction performance of dynamic flexible cables and develop novel engineering solutions to enhance
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hydrodynamic modelling to assess anchoring stability, water-level changes, and impacts on energy yield and reliability, in collaboration with Zneco. Year 3 till submission: Electrolyser Integration with Hydrogen
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characterization methods to prove thermal properties of nanomaterials. Albert has expertise on theoretical development of non-equilibrium thermodynamics and hydrodynamic thermal transport models tailored to describe
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streaming, modulating hydrodynamic drainage and confinement, and thus tuning the balance among dispersion, hydration, and electrostatic forces. By coupling rapid field actuation with force spectroscopy and
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thesis, (assignment) report or other publication demonstrating your experience in numerical modelling of (complex) fluid flow problems. Specific experience in the modelling of hydrodynamics (turbulence
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miscible) is approached. Moreover, as the correlation length diverges, fluctuations become increasingly important and the physics of these fluctuations has to be considered and modelled near the liquid
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. the light curves and spectra) of these stars analytically and through numerical methods, based on binary stellar evolution models. You will also investigate potential observable signatures of binary evolution