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Field
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-structure interactions using a combination of high-resolution numerical simulations (CFD) and advanced experimental measurements (Stereoscopic PIV). A dedicated test bench will enable full-scale global
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of these materials and structures. This approach enhances both predictive simulation and inverse design strategies, optimizing the composition and arrangement of materials in the 3D design space. Within
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management. Perform “coupled” characterization with hot air to assess the overall performance of the MDAL. Task 4: Integration into Two Energy Processes Experimental validation, numerical simulation, and
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-quality, quantum-grade CVD nanodiamonds containing G4V color centers with stable and highly emissive ZPLs, while also investigating the plasma environment, through both simulations and experiments
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improve the parameterization of rheology integrated into current large-scale sea ice models, particularly those used for real-time forecasting and/or in the context of coupled climate simulations
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modelling or numerical simulations. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR7342-MARBRA-012/Candidater.aspx Requirements Research FieldEngineeringEducation LevelPhD or equivalent
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E-mail projets-recherche@u-bordeaux-montaigne.fr Requirements Research FieldPhilosophyEducation LevelMaster Degree or equivalent Skills/Qualifications Educational requirements: To be eligible
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teams. Nearly 90 doctoral students, a dozen post-docs, 60 master's or engineering school interns complete the workforce. Attached to the CNRS Institute of Computer Science, its research themes cover a
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[2, 4, 5]; - Lack of common representation for process flowsheets (graph incidence matrix, custom-made dedicated language, SFILES 2.0 standard) - Various custom-made process simulation environments
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requirements (max 2 pages); • A full CV (max 2 pages); • A summary of the applicant’s Master thesis (max 1 page); • A transcript along with a scanned copy of your Master’s Degree certificate. If the degree has