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thermal-fluid-dynamics framework to understand the effect of processing parameters on thermos-capillary ‘keyhole’ evolution in multi-component metallic substrates. This will involve running simulations
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pioneering research in experimental and computational fluid mechanics, hydrology, and earth-surface dynamics. For over 80 years, our innovative and adaptable facilities have attracted trailblazers, problem
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https://jobrxiv.org/job/max-planck-institute-for-dynamics-and-self-organization… Requirements Additional Information Work Location(s) Number of offers available1Company/InstituteMax Planck Institute
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; Master’s Degree in Nanotechnology Engineering or equivalent qualification The ideal candidate will have a master's degree in Nanotechnology Engineering, with a solid background in micro-fluid dynamics
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natural silica-rich rocks The ETH Zurich Geothermal Energy & Geofluids (GEG.ethz.ch) Group in the Department of Earth and Planetary Sciences investigates subsurface reactive fluid and geothermal energy
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-liquid critical point. The dynamic nature of the degree of miscibility renders such fluid pairs to be applicable in several applications such as liquid-liquid mass transfer, flow pattern tuning to name a
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to inform and enhance reactive flow simulators, ultimately contributing to a better understanding of the impacts of dissolved CO2 on fluid flow dynamics and rock reactivity at larger scales within
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the performance of floating structures. Analyze hydrodynamic behavior of floating breakwaters under varied sea conditions. 2. CFD and Finite Element Modeling Perform Computational Fluid Dynamics (CFD) simulations
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simulations and computational fluid dynamics will be preferred. Excellent proposal writing and report writing skill Excellent journal paper publication record Self-motivated and able to work on your own and in
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] * Background of the recruitment and description of the project The aim of this laboratory is to deepen academic understanding and develop innovative technologies by focusing on thermal fluid dynamics in vacuum