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studies which corresponds to four years. Position description We are seeking a PhD student to join our research team specializing in the analysis and modeling of multiphase flows. The research focuses
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carbonated particles; - transformation of monophasic phases to multiphasic; - hydration execution as a cycle of dissolution, diffusion and precipitation. Secondly, the created numerical model will be
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diffusion processes in the plasma resulting in the ionization of the initial gas - The decomposition of CH4, including detailed reaction sequence and chemical kinetics in a multiphase environment and flow
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multiphase flow challenges related to the flow characteristics during cyclic injection processes using microfluidic experiments and pore-scale modelling. You will gain access to the advanced microfluidic
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Requirements Specific Requirements The candidate should have basic knowledge: (a) in fluid dynamics and thermodynamics (knowledge in multiphase flows will be a plus), (b) numerical modelling with Finite Volume
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degree or prior research experience in experimental and/or analytical multiphase thermofluids systems would be advantageous but not essential. English language requirements: Applicants must meet the
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on enzyme stability under process-relevant conditions (e.g. air–liquid and gas–liquid interfaces), redox enzyme applications, and integration into continuous and multiphase systems. The work will bridge
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. The expected outcome is to allow a physically based assessment of the dimension of the energy dissipation zones near dike breaches. Skills: - solid knowledge of fluid mechanics and multiphase flows - solid
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turbulent dynamics in multiphase environments such as the ocean surface. The project is part of the Collaborative Research Centre (CRC) “Energy transfers in atmosphere and ocean” funded by the German Research