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at the intersection of numerical linear algebra and advanced HPC. The candidate will join an international environment, with opportunities to collaborate with experts from the USA, and KAUST and publish in top-tier
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to improve reactor design and synthesis performance. Key Responsibilities: Develop comprehensive computational models for fluid dynamics, mixing, and reaction kinetics in the CSTR. Implement advanced numerical
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for fluid dynamics, mixing, and reaction kinetics in the CSTR. Implement advanced numerical schemes and perform high-resolution CFD simulations of two-phase flow. Optimize impeller geometry and reactor design
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computing (HPC). This position offers an exciting opportunity to work on cutting-edge research projects at the intersection of numerical linear algebra and advanced HPC. The candidate will join an
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supporting air quality research, policy development and evaluation of air pollution interventions. This role uses numerical models of atmospheric chemistry and transport (GEOS-Chem, and others) to increase
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provision of user-tailored climate services including products related to climate modeling. The successful candidate will have experience in two or more of the following areas: numerical climate modeling
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trials based on experimental design. Contribute to the numerical modeling of beneficiation circuits (e.g., using USIMPAC or similar software). Analyze, interpret, and report the outcomes of simulations and
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numerous applications, including electric vehicles and the integration of renewable energy sources. In light of the circular economy and the principles of responsible consumption and production, utilizing
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of air pollution interventions. This role uses numerical models of atmospheric chemistry and transport (GEOS-Chem, and others) to increase understanding of how Morocco and Africa air pollution will respond