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calibrated against) often poorly extrapolate to different conditions or different properties. Uncertainties associated with such extrapolations are not easily quantifiable. Our goal is to use the extensive
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stimulating environment and to contribute to a deeper understanding of the foundations of optimization and their role in modern applications. The position is funded by WASP (Wallenberg AI, Autonomous Systems
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and a MW scale greenhouse hub operated by Division Q. This PhD position is well suited for candidates eager to work at the intersection of nonlinear systems, optimal control, and energy systems
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PostDoc/Senior Scientist - Process and Plant Design in the Field of Liquid Organic Hydrogen Carriers
of multiphase reactions Assessment of different process configurations and application scenarios, including techno-economic evaluation Investigation of process intensification opportunities through optimized
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samples. Optimize reconstruction algorithms for efficient large-scale 3D imaging, including high-performance and GPU-accelerated computing where appropriate. Design, optimize, and validate a refractive
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-state model will be approximated using machine-learning surrogates and will be used for a real-time optimization, such that the plant operates optimally despite disturbances. The candidate will be part of
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different EU countries. All 15 PhD projects are within the overall theme of Silicon carbide on insulator (SiCOI) devices and integration for applications in classic and quantum optical telecommunication, and
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research environment at the University of Stavanger (UiS), in collaboration with three other foreign universities. It builds on previous work of evaluating existing NDT techniques and nonlinear fatigue
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within the framework of project PROMisH - Potential of Rheologically-Optimized Magnetic Emulsions in Hemotherapy, with nº 16207, and the operation code at the Funds Platform COMPETE2030-FEDER-00736400 and
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Be part of change You will develop, investigate and optimize processes for the realization of fiber preforms using MCVD technology as well as gas-phase or solution-doping techniques for active