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of multiphysics simulation tools to establish the safety case for MSRs. We offer three postdoctoral studies: 1) development of multiphysics coupling schemes, 2) atomistic and thermodynamic modeling of salt
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, to test their potential for exploiting temperature gradients for producing electricity and predict their long-term performance under real operating conditions. The project also includes modeling of heat
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imaging, infrared thermography and image-based performance modelling. You will join the Solar Photovoltaics Systems Team at DTU Electro, an internationally recognized research environment focusing
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validation. You will be joining a strong team that works within the following domains: Dynamic turbine response modelling in the multi-body framework HAWC2 Aero-servo-hydro-elastic stability analysis
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atmospheric retrieval and modeling, investigating the effects of stellar activity on atmospheric measurements, and contributing to the preparation of future JWST proposals and publications from ongoing programs
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and validation. You will be joining a strong team that works within the following domains: Dynamic turbine response modelling in the multi-body framework HAWC2 Aero-servo-hydro-elastic stability
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advanced mesoscale fluid simulations such as CFD, Lattice Boltzmann Method (LBM), Pore Network Modelling (PNM), and Molecular Dynamics (MD) with microfluidic experiments. The research targets gas bubble and
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collection, satellite monitoring, fieldwork in Greenland, and advanced modeling techniques. The postdoctoral project will focus on Greenland and Antarctica, analyzing surface elevation change, ice loss