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Field
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hypothesis of the proposed research is by use of intelligent and integrated control of the input power electronics, fluid handling, and thermal control in a holistic approach, current efficiency and lifespan
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based on fluid mechanics, non-equilibrium thermodynamics and statistical mechanics. Further information about PoreLab can be found here: https://porelab.no/ The position reports to Professor Alex Hansen
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simulation/theory of 2D materials and devices, within electronics, photonics and mass transport. Biophysics and Fluids with a focus on fluid and soft-matter dynamics on small length scales, often with life
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Physics , Experimental Ultrafast Physics , Field Theory , Fluid Physics , Fundamental Quantum Science , GR-Cosmology (gr-qc) , Gravitational Physics , Gravitational Theory , Gravitational Wave Sources
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, building energy and installation, solid mechanics, fluid mechanics, materials technology, manufacturing engineering, engineering design and thermal energy systems. Technology for people DTU develops
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will involve a novel comprehensive approach, including analyses of cellular fate such as reduction/oxidation in diverse biological fluids, tumour cells and tissues, the transport into and within cells
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of the complex non-Newtonian fluids present in this system. This Project addresses a significant scientific knowledge gap in the understanding of the rheology and thermal behaviour bulk plastic melt-flows
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analytical models, then informing a refined acoustic model taking both into account with data-driven approaches. This research is inherently multidisciplinary, lying at the interface of fluid and solid
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responses and recovery patterns • Endocannabinoid measurements in blood, hair, and cerebrospinal fluid • Interactions between the endocannabinoid system, cortisol, and opioids • Sex differences in
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fluid dynamics (CFD) simulations, Finite Element Analysis, manage and execute the procurement of the build, run the aerothermal testing and process and communicate the results. The skills, qualifications