165 high-performance-computing positions at Technical University of Denmark in Denmark
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publish in high-impact journals Contribute to supervision of MSc students and to maintaining the shared lab environment You must have a two-year master's degree (120 ECTS points) or a similar degree with an
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and qualifications Development of dry etching process steps for dry etching of high Pockels effect materials, such as thin-film lithium niobate, barium titanate, strontium barium niobate, and strontium
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the development of advanced computational multiphysics models of stress corrosion cracking and coupling these with process-microstructure models (being developed within MicroAM project). Main focus will be
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integration, power grids, energy markets, and energy analytics. You will have access to world-class experimental and digital infrastructures through the PowerLabDK platform (link ), including high-performance
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. This role requires close collaboration with DTU’s IT teams to ensure that all solutions are strategically aligned with existing data storage, security, and computational infrastructure. Key Responsibilities
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floating wind energy with a special focus on nonlinear hydrodynamic fluid-structure interaction and the interaction between the hydrodynamic and rotor-based motion response. Computational Fluid Dynamics will
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threats to human and environmental health. This position aims to develop advanced catalytic technologies, including thermal, microwave, and photocatalysis, to convert plastic waste into high-value chemicals
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the EU. You will design and lead the strategic framework for communications, media relations, and high-level institutional partnerships that position DTU and Denmark as a leading European hub for
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distillation (MD) to convert biowastewater into ultrapure water directly suitable for PEM electrolyzers. The process is designed to be powered by waste heat, enabling green hydrogen production while achieving
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performance and reduce structural loads. Perform load assessments in HAWC2 by integrating characterized wind fields into aeroelastic simulations. Collaborate with a multidisciplinary team of engineers and