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structure of magnetized fluid models as well as an understanding of the physics behind such models. A prior knowledge of matrix hydrodynamics and structure-preserving numerical methods. You will need strong
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: Magnetohydrodynamics and the mathematical theory of plasmas. Collisional kinetic models and their hydrodynamic limits. Dispersive phenomena in kinetic theory. Quantum gases. Applicants must hold a PhD degree in
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understanding of WS/DP adsorption to solid–water interfaces, including soils, sediments, sludge, and model mineral/organic surfaces. Experimental studies will investigate polymer–surface interactions, adsorption
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nutrient stress. Scaling up laboratory findings from controlled photobioreactors to outdoor semiindustrial raceways while ensuring productivity stability. Modeling hydrodynamics and energy-efficient mixing
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and Marine Studies (CESAM) and Physics Department, to exercise the functions of scientific research, dissemination and scientific management, namely: implementation of hydrodynamic models for the Ria de
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the University of Maine) with added electrolyser, ancillary plant and hydrogen storage tanks. FOW foundations with hydrogen storage and subject to wind turbine and hydrodynamic loads will be analysed in terms
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able to perform both analytical and numerical calculations. Experience with analytical or numerical modelling of active systems is desired. Experience with continuum/ hydrodynamic theories
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Postdoctoral Researcher to join the NWO-VIDI project Not-Just-Water, which investigates how multiple phases (e.g. air, water, debris) influence impact loads on structures during extreme hydrodynamic events
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and hydrogen storage tanks. FOW foundations with hydrogen storage and subject to wind turbine and hydrodynamic loads will be analysed in terms of storage capacity and levelized cost of hydrogen
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• Implement and use a specific measurement protocol to characterize algal and mixed communities (fauna/flora) • Contribute to hydrodynamic tests conducted in test tanks with the University of Massachusetts