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Research Objectives: (1) To evaluate design methodologies and geometry optimization through simulations for enhancing HX applications in sCO2 power systems. (2) To investigate different alloys for its
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support our team with FEM simulation and Python programming, allowing you to broaden your research experience besides your studies. Furthermore, you will collaborate with a highly experienced research team
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, using e.g. DFT or the finite element method (FEM) calculate the quantum dynamics of an emitter coupled to phonons with an open-quantum-system approach and using state-of-the-art numerical techniques
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conduct world-class applied research. We change and make a difference. Do you want to become one of us? Work description The PhD positions are part of the research portfolio within Mechanical Engineering
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/simulation/optimization) Build prototypes and research software (clean, reproducible, well-documented) Work with simulation pipelines (e.g., FEM/CFD/physics engines) and industrial data Collaborate with
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Fellowships Training in joining dissimilar materials using the Friction Stir Welding process and experience in numerical simulations using Finite Elements; to hold a PhD degree obtained in the 3 years
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obtained in experiments, Be part of change Theoretical calculations of the effect of centrifugal forces on the clamping Simulate clamping conditions using the Finite Element Method (FEM) with Ansys
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. Duties are routine and structured. Follows protocols with little to no deviation. Solves repetitive problems. Typical Functions: Assist researchers/engineers with routine and repetitive tests, experiments
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in a systematic way. Different engineering disciplines form their respective bodies of knowledge including key methods implemented by a mathematical apparatus (e.g. the one used to describe electrical
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physics conundrums. Key Duties & Responsibilities Use of CAD design software and waveguide FEM solver Working with and testing anti-resonant, capillary and solid-state fibers Building and troubleshooting