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, modelling, optimization and validation, and focus on: Develop thermally integrated storage and conversion systems, including Carnot batteries and/or high-temperature heat pumps based on power cycles. Design
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the transition to a sustainable energy future. SOECs, which operate at high temperature (typically in the range of 600 to 850 °C), offer the highest efficiency among different electrolysis technologies
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from high temperatures. CoaST Research in this field covers both organic and inorganic intumescent coatings and concerns replacement of problematic compounds, mapping of the underlying intumescence
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optimization of waste heat harvesting. Your role will be to simulate the heat transfer processes between façade panels and thermoelectric generators, focusing on maximizing waste energy recovery efficiency. You
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, heat transmission, fluid mechanics and applied thermodynamics. We work closely with industry to obtain research results that are applicable to industry and society. Within our research centres we carry
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research group as well as the Centre for Cold Studies. These affiliations ensure strong local research support and mentoring. Eligibility and requirements: PhD in History, Rhetoric, Digital Humanities
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multidisciplinary use of process technology, materials science, solid and fluid mechanics as well as thermodynamics and heat transfer in the analysis, modelling, and development of manufacturing processes. Technology
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circuits in thin-film lithium niobate (TFLN) [Zhu2021] and tantalate (TFLT) [Powell2024]. Using the ultrafast Pockels effect in TFLN/TFLT, you will build high-speed cavity-based components [Larocque2024
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size while printing. For AM 17-4 PH, we will use heat treatments (in-situ as well as ex-situ) to control the aging process, with the aim of developing a tailored microstructure with layered precipitation