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to develop quantitative analogues for (induced) seismicity. Injecting or extracting fluids into the shallow subsurface carries the risk of induced seismicity. An explicit multi-physics system to model fluid
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. Computational fluid dynamics is an essential enabler for science and for many outstanding societal challenges. Many key advanced and emerging technologies require unprecedented control of heat and mass transfer
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well as experimental slag characterization. Monitoring of hydration reactions by combining in-situ XRD, isothermal calorimetry, pore fluid extraction and analysis as well as in-situ measurement of pH, Ca2+ -activity and
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requirements MSc degree in Engineering Sciences or Applied Physics, preferably involving fluid flow and acoustics. Experience with numerical modelling and measurements. Fluent in spoken and written English (C1
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, i.e. Computational Fluid Dynamics (CFD) simulations. Some experimental work will be required to obtain data for validation purposes and testing, which is possible in our newly constructed lab facility