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Dispersion – Inverse Model (EURAD-IM). The PhD project will be conducted in the atmospheric modeling group of the Institute of Climate and Energy Systems (ICE-3) at Forschungszentrum Jülich and the
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, integrated, and cooperative research and innovation model focused on improving quality of life through knowledge creation and transfer, as well as attracting and retaining research talent at all career stages
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of various hydrogen generation technologies: water electrolysis (different types, alkaline, PEM, SOEC, AEM), methane pyrolysis (plasma) and system integration. Our focus in on the system integration, taking
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to build a microscopic-to-global understanding of ice formation, plume processes and ocean–surface transport. Their combined efforts will generate new laboratory data, physical models and spectroscopic tools
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of oyster reefs in the North Sea. In 2027 the real size structures will be placed on the seabed by offshore vessels. Before this, you will calculate their stability and conduct physical model tests
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Offer Description Understand how large offshore wind farms reshape atmospheric and ocean processes, and help advance sustainable offshore energy through observations, high-resolution modelling and coupled
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meteorological data at the national scale - Analysis and numerical modeling of environmental changes at the national scale using various water quality parameters and stable isotopes. We welcome applications from
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data. Develop models and techniques to quantify water supply and irrigation efficiency in agricultural landscapes. Collaborate with multidisciplinary teams to integrate remote sensing data with ground
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-quality publication record and international visibility in relevant academic communities Creating a strong competence base in modelling and assessing plausible pathways through which innovative climate
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Integrating Hydrodynamic and Surrogate Models for Real-Time Coastal Water Quality Prediction Award Summary 100% fees covered, and a minimum tax-free annual living allowance of £20,780 (2025/26 UKRI