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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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, Chemical Engineering, Computational Fluid Dynamics, or Applied Physics. Strong expertise in numerical modeling of multiphase or reactive flows (CFD experience required). Proficiency with at least one CFD
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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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research and innovation at the heart of its educational project as a driving force of a business model. In its research approach, the UM6P promotes transdisciplinary thinking, an entrepreneurial spirit, and
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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