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- Delft University of Technology (TU Delft)
- Delft University of Technology (TU Delft); yesterday published
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simulations and translating these designs into manufacturable layouts. Your work bridges circuit design, electromagnetic modeling, quasi-optical system analysis and hands-on validation. A key part of your role
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, while also developing custom Python-based simulation scripts. TU Delft will support your research with access to the DelftBlue supercomputer for large-scale and intensive modelling. In the second phase
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V2G solutions can support sustainable urban mobility and grid flexibility. Working at the intersection of transportation and energy systems, you will combine transport simulation models (e.g., SUMO
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. You can also tailor your employment conditions through our Terms of Employment Options Model. In this way, we encourage you to keep investing in your personal and professional development. For more
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seasonal surveys, develop hydrological models to simulate the system's hydrological and geomorphic behavior, and engage with stakeholders to identify opportunities for system improvement. Floodplain System
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industry partners to link real-world challenges to fundamental research questions. Very good, demonstrable experience with (1) computer modelling and real-time simulation such as RTDS and/or OPAL-RT or (2
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. You will develop numerical models for nanoscale heat dissipation to interpret the experimental data. The project will be supervised by Prof. Zijlstra (Molecular Plasmonics group) and co-supervised by
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transitions Information As a postdoctoral researcher, you will work in an interdisciplinary team to develop immersive co-design environments that connect citizen experience, simulation data, and fairness
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reservoirs in terms of geology. Using advanced geological modelling and numerical simulation techniques, this position will investigate the geological controls on hydrogen storage in depleted natural gas
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representation of real-world marine structures and their corrosion processes. By integrating comprehensive sensor measurements, experimental data on corrosion, and advanced predictive modelling (including physics