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characterisation and solution composition modelling will contribute to the efforts of our cross disciplinary team, for whom the aim is to understand solid-fluid (water and gas) interactions of natural materials and
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heat transfer, fluid mechanics, reactive flows, as well as solid mechanics plays a central role. In particular, improved understanding of turbulent, reactive, and multiphase flows together with material
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tools on real data will allow a better understanding of gas dust and dusty-wind CND interaction, the use of resolved dust structures to constrain the BLR geometry and eventually improved modeling of BLRs
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problems and working together, to meet the projects’ goals. We expect a strong background in fluid-mineral interaction, i.e. experience with X-ray diffraction of natural materials and geochemical speciation
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Alfred-Wegener-Institut Helmholtz-Zentrum für Polar- und Meeresforschung | Bremerhaven, Bremen | Germany | 3 months ago
geophysical survey aimed at characterizing the geometry, the englacial thermal structure (including multi-frequency ground penetrating radar surveys, active and passive seismics), and surface velocity (with