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hydrodynamic modeling, with a focus on the use models such as CaMa-Flood with dams, and coastal hydrodynamics models (e.g., FVCOM). The new hire will also work on integrating land surface models such as CLM with
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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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the hydrogeology of volcanic and basement aquifers. - main mission: The recruited researcher will contribute to the development and implementation of numerical flow and transport models to improve the understanding
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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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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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to the ongoing project formation and funding acquisition. Your primary tasks will be Contribute to teaching within Offshore Wind Energy Hydrodynamic remodelling of model test results in OpenFOAM Development
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of ocean waves and hydrodynamic modelling, with particular focus on marine renewables, offshore wind and coastal structures. The research is primarily carried out through externally funded collaborative
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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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analysis framework that supports flood-resilient urban design by combining multi-sensor Earth observation (EO) data, hydrological–hydrodynamic models, urban digital twins, and advanced AI methodologies
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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