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co-develop a next-generation ocean component for integration into the universal climate model OASIS. We are looking for a candidate with a PhD (or equivalent) in Physical Oceanography, Atmospheric
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co-develop a next-generation ocean component for integration into the universal climate model OASIS. We are looking for a candidate with a PhD (or equivalent) in Physical Oceanography, Atmospheric
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impactful observation-based analyses informing forecasting ocean and climate models. Meeting these challenges, within the European HORIZON EUROPE projects GEORGE (https://george-project.eu/ ) and TRICUSO
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Research Infrastructure (ACCESS-NRI), and is focused on coupling the Ice-sheet and Sea-level System Model (ISSM) with the ACCESS-AM3 atmosphere model. The long-term goal is to integrate this coupling
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models developed rapidly, and you will support work to ensure that the methods can be run, evaluated and improved by partners in African universities and weather services. A significant part of your work
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database of sea level anomaly with extreme weather conditions: Utilize the developed numerical model to build a database of sea level anomaly with different weather conditions, which can be used to develop a
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level anomaly with extreme weather conditions: Utilize the developed numerical model to build a database of sea level anomaly with different weather conditions, which can be used to develop a data-driven
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depletion, atmosphere circulation, extreme precipitation, ITCZ shift, tropical drying, etc Analyse and interpret research findings and results Work together with modellers and teams in Edinburgh and CICERO
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breakwaters under varied sea conditions. 2. CFD and Finite Element Modeling Perform Computational Fluid Dynamics (CFD) simulations to optimize the design and performance of floating breakwaters. Develop finite
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Stockholm University’s Baltic Sea Centre (BSC) conducts research on the Baltic Sea environment and supports research and education related to the Baltic Sea carried out at various departments within