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our pilot cases Development of building simulation models supporting energy and indoor climate optimization Analysis of building performance data for occupancy detection and predictive modelling
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thermal and/or thermochemical energy storage systems. Implementing and validating advanced thermodynamic models for performance prediction and optimization. Collaborating with experimentalists and industry
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strong commitment to the green transition, especially in advanced thermal systems such as Carnot batteries, thermal storage, and high-efficiency heating. As part of DTU, you will contribute to cutting-edge
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data, and package the best models for industry use. You will also contribute to a joint catalogue of energy-aware SQL optimizations together with Roskilde University and the Software Improvement Group
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positions are attached to four different collaborative projects with related but distinct goals, all making use of our expertise in squeezing-based entangled states of light: ClusterQ (ERC): A platform for
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group of Assoc. Prof. Marianne Glasius at the Department of Chemistry, Aarhus University, Denmark. Expected start date and duration of employment This is a 23 month position from 1 October 2025 or as soon
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POTENT project, we are working with Living Lab Networks including academic and industrial partners and ports to accelerate the green energy transition by investigating the use of ports as energy hubs
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soon as possible thereafter. The position is a fixed-term full-time position for two years. Extension might be a possibility. The Department of Biomedicine prioritises diversity and a good work
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The postdoctoral researcher will work on a variety of projects within topology optimisation for multiphysics problems. The postdoctoral researcher will join the ‘Multiphysics Simulation and Optimisation’ (MSO
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funded by grants from Novo Nordisk Foundation and Independent Research Fund Denmark (Principal investigator: Prof. Trine Munk-Olsen). Research tasks The postdoc will contribute to the TREAT2 project, which