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• Implement and use a specific measurement protocol to characterize algal and mixed communities (fauna/flora) • Contribute to hydrodynamic tests conducted in test tanks with the University of Massachusetts
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. The objectives are : - Develop anisotropic internals for RPBs - Experimentally study the performance of the RPB with these internals, in particular the material transfer coefficient. - To model the hydrodynamic
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. Responsibilities include expanding the capabilities of current ocean model applications, with emphasis on hydrodynamics, coastal flooding, biogeochemical simulations, and the dispersion of coastal pollutants and
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molecular dynamics simulations with LAMMPS, and data curation. Scientific context: Our current understanding of polymer viscoelasticity is founded on single-chain models [2]. Such models draw on the fact
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simulation model for autonomous shipping in restricted waterways. This position offers unique opportunities for collaboration within the Marine Technology Division at Chalmers University of Technology
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We are looking for a highly motivated and skilled Postdoctoral researcher with cross-disciplinary expertise to help develop a digital twin ship simulation model for autonomous shipping in restricted
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in population dynamics and hydrodynamics). Ultimately, the goal is to build a one-dimensional vertical mechanistic model (1DV) to represent or identify the ecological niche of representative species
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simulations, particularly using the Energy Exascale Earth System Model (E3SM). Background in coastal and compound flooding simulations, including subsurface–surface and hydrodynamic interactions. Demonstrated
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of star formation histories and age-metallicity distributions of selected stellar samples in the Milky Way disk and halo Mechanisms of stellar migration in the Milky Way disk Chemical evolution modelling
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and under load. Multi-scale modelling based on continuum mechanics and hydrodynamics informed by experiments and molecular modelling. High-throughput data analysis and image processing using Python