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social prestige - asking how varying participants’ social attributes and attitudes towards each other shape their linguistic preferences, their imitation strategies, and their transmission and diffusion
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, support decision-makers, and advance debris-flow modelling for future research. In this PhD, you will carry out field measurements and run numerical simulations to better understand and predict debris-flow
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–water coupling. What you’ll do – Modeling Simulations You will design and run high resolution simulations that bring the lake to life in the model world. Starting with large eddy simulation hindcasts
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climate simulations. This work will quantify the contribution of extreme events to glacier runoff and mass loss, improve predictions of future glacier change under multiple climate pathways, and provide
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in the project by contributing expertise on Urban Airspace (UTM) operations, modelling and simulation. Next to your thesis work you will also work in the TUNED project, where you’ll cooperate in
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high profile both in the Netherlands and internationally and is strengthened by the many young researchers working on innovative projects with as doctoral candidates and post-docs. It has been
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studies fundamental and applied aspects of multiphase flows, combining advanced experiments and state-of-the-art numerical simulations. Research focuses on dense dispersions, turbulence interacting with
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, logistics, and digitalisation. The PhD candidate will develop digital factory models, simulations, and planning tools that support the design and operation of circular AM-enabled factories. Crucially
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types. Your algorithms will first be evaluated through simulation using real operational datasets, and later deployed and tested at two physical facilities: a kW scale testbed at TU Delft’s Green Village
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candidate to join our team and work on this exciting project. The PhD project will encompass theoretical and numerical modelling, necessary to simulate and optimise the effect of surface modifications