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the general study programme Wireless communication; as per May 1, 2026, or as soon as possible thereafter. The candidate will be based in Copenhagen at the CMI Section (Communication Media and Information
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Environments within the general study programme Electrical and Electronic Engineering; as per March 1, 2026, or as soon as possible thereafter. The candidate will be based in Aalborg at the Automation and
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AI-driven creativity with clear environmental performance feedback early in the architectural design process. This phase is characterized by high uncertainty in data availability and design parameters
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-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic-resolution
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material technologies - this PhD position offers a unique opportunity. As part of MET2ADAPT, you will investigate some of the most challenging and high-impact questions surrounding the validation
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part of MET2ADAPT, you will investigate some of the most challenging and high-impact questions surrounding the validation, certification, and long-term performance of next-generation wind turbine
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functions associated with the failure mechanisms using high-fidelity Finite Element Analysis. Perform sensitivity and uncertainty analysis to uncover the most significant variables in the derived limit states
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sensitivity study to reliably assess the impacts of key sub-models (e.g., green fuel combustion mechanisms, radiative heat transfer, turbulence mixing models) and to evaluate the effects of key operation
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decision-making. A main challenge is finding ways to link AI-driven creativity with clear environmental performance feedback early in the design process. This phase is characterized by high uncertainty in
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sintering technology to ensure high density. The aim of the PhD work is to fabricate a solid-state Li metal battery with a performance at par with the state-of-the-art liquid electrolyte Li-ion battery