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to electrochemisty and electromagnetics. Interface tracking/capturing methods such as immersed boundary method, level-set method, volume-of-fluid, phase filed method are options for model development.
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In the energy transition many technologies rely on the injection and extraction of energy carriers, like geothermal heat, CO2 and hydrogen. Repeated fluid pumping could lead to clogging of fluid
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positions (1, 2 or 3) has your preference, and why. A Master’s degree in physics, planetary science, astrochemistry, applied mathematics, fluid dynamics or a closely related field (depending on the chosen PhD
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dispersion. Yet conventional Computational Fluid Dynamics (CFD) workflows rely on watertight geometric models and volumetric meshes that are slow, complex, and costly to produce. Within the POINT-TWINS project
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. Our research is clustered in three focal areas: Fluids, Bio and Soft Matter (FBSM); Plasmas and Beams (PB); and Nano, Quantum and Photonics (NQP). Our shared ambition is to equip the next generation of
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of microorganisms in fluids. Living systems such as bacteria or algae exhibit remarkable capabilities: they swim, adapt, interact, and self-organize into dynamic patterns. Understanding and replicating these life
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geothermal heat, CO2 and hydrogen. Repeated fluid pumping could lead to clogging of fluid pathways. Are you ready to dive into the how, using cutting-edge imaging techniques? Then the Department of Earth
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PhD researchers working on related reactive fluids and energy topics. You will work in a multicultural environment where knowledge is shared openly, and you will be supported through mentorship and
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computational fluid dynamic simulations can currently resolve spatial and temporal scales of industrially-relevant turbulent flows within days/weeks. On the other hand, typical design cycles in industry still
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with high-performance computing (HPC), parallel computational fluid dynamic simulations can currently resolve spatial and temporal scales of industrially-relevant turbulent flows within days/weeks