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A vacancy is available for a PhD student in the field of alkaline water electrolysis within the group Sustainable Process Engineering at the Department of Chemical Engineering and Chemistry
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systematically vary the dimensions, shapes and amplitudes of the patterns. The numerical simulations will be based on existing finite-element, lattice Boltzmann and volume-of-fluid codes. You will become a member
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the shapes of the surfaces. Scattering elements send light rays in multiple directions and can be used to reduce glare in optical systems. However, current design methods that include scattering use a slow
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on state-of-the-art finite element methods. The developed model will be used to assess the validity of other simulators developed in SHAWave and to derive transfer-functions for the anelastic near surface
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computational techniques to enable simulations for metamaterial integration into (existing) components or systems, which imposes constraints on the finite size and shape of metamaterial domain, and requires
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of parametric design and other relevant software programs (e.g., finite elementmethod). Experience with computational design and digital fabrication is preferred. A research-oriented attitude. Proficiency in
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understanding of how various component affect overall network reliability. To this end, we will develop detailed agent-based probabilistic models to examine various vulnerability assessments, like the event
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problems that are harder to diagnose. For example, the structure of the flow in Earth’s liquid-metal outer core is decisive for the generation of the magnetic field that shields us from harmful radiation
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they need to autonomously navigate in a building? How can we keep the data up to date with respect to changes in structural (e.g., walls, columns) as well as dynamic elements (e.g., doors can be closed
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, P., Toschi, F., Trampert, J. (2020). On interevent time distributions of avalanche dynamics. Scientific reports, 10(1), 626. Kumar, P., Benzi, R., Trampert, J., & Toschi, F. (2020). A multi-component