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, superwettability);•Microscale fluids (microfluidics, droplet dynamics, microscale flows);•Nanotechnology (nanomaterials, nanostructures, size effect).•Principal InvestigatorThe PI for laboratory of interfacial and
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the fields of Applied Mathematics/Fluid Mechanics/Computer Science/Robotics and Control, or other related fields. 3) Passion and commitment towards scientific research; Good communication skills and ability
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the fields of Applied Mathematics/Fluid Mechanics/Computer Science/Robotics and Control, or other related fields. 3) Passion and commitment towards scientific research; Good communication skills and ability
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, superwettability);•Microscale fluids (microfluidics, droplet dynamics, microscale flows);•Nanotechnology (nanomaterials, nanostructures, size effect).•Principal InvestigatorThe PI for laboratory of interfacial and
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; knowledge in numerical methods and simulation, particularly for partial differential equations, and basic knowledge in mathematical modeling with/and PDEs, with a focus on fluid or biomechanics, porous media
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methods (LBM). For fluid simulations, we utilize the high-performance LBM framework waLBerla, predominantly written in C++, but increasingly adapted for GPU computations through automatic code generation
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and simulation aspects across a wide range of fields - from biomechanics and geophysics to polymer-fluid coupling. Further areas of interest include numerical algorithms for high-dimensional problems
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investigate methods that eventually will automate crucial design steps. In addition, we are developing simulators (on various abstraction levels; using, e.g., Computational Fluid Dynamics) which enables us to