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impeller performance, analyze hydrodynamic characteristics, and identify key synthesis parameters influencing material quality. The resulting models will act as a predictive tool for process optimization and
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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 written and verbal
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Max Planck Institute for Astrophysics, Garching | Garching an der Alz, Bayern | Germany | 3 days ago
working with Dr. Natalia Lahén on Computational Galaxy Evolution. The ERC-funded project ILMATAR focuses on the formation of globular clusters and the first galaxies in high-resolution hydrodynamical
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that integrate hydrodynamic simulations, chemical kinetics, and thermal transport models to improve reactor design and synthesis performance. Key Responsibilities: Develop comprehensive computational models
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on the design and analysis of a cable system for floating offshore wind arrays, coupling hydrodynamic force model, VIV prediction and cable analysis software. The post will include: Design processes of offshore
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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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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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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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nutrient stress. Scaling up laboratory findings from controlled photobioreactors to outdoor semiindustrial raceways while ensuring productivity stability. Modeling hydrodynamics and energy-efficient mixing