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detailed cost and emission analyses regarding production and processing of geologic hydrogen over a range of possible scales, depths, and compositions. Will regularly present research results at meetings and
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). The research project will develop a reliable framework to accelerate the development of novel high-power particle-production target material for advanced particle accelerator applications. A reverse modeling
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subduction processes. A key aspect of the research involves utilizing seismically constrained crustal rheology and structure to inform and validate our models. The incumbent will need excellent oral and
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chemical–biological pathway. The advertised positions will support these efforts through research on advanced carbon capture methods, process modelling and optimization, and biological CO₂ valorization in
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activities: · Understanding/simulating the diffusion paths and cavitation in thermoplastic liners. · Multi-physics simulation of the diffusion process in thermoplastic orthotropic composites
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subduction processes. A key aspect of the research involves utilizing seismically constrained crustal rheology and structure to inform and validate our models. The incumbent will need excellent oral and
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subduction processes. A key aspect of the research involves utilizing seismically constrained crustal rheology and structure to inform and validate our models. The incumbent will need excellent oral and
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computational models to map co-expression networks and predict systemic disease transitions. Characterise intestinal microbiome changes and their correlation with inflammatory diseases. Computational modelling
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computational models to map co-expression networks and predict systemic disease transitions. Characterise intestinal microbiome changes and their correlation with inflammatory diseases. Computational modelling
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modelling. The position is available from 1 November 2025 or as soon as possible thereafter in the research section Ruminant Nutrition . Position: The Department of Animal and Veterinary Sciences seeks a