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Knowledge, Skills, and Experience: Proven experience in electromagnetic and thermal simulations of superconducting magnets, utilizing commercial software such as COMSOL Multiphysics or ANSYS. Proficiency in
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kinetics of radicals and molecules over broad ranges of pressure. Recent work has focused on, gas-phase molecular growth, disproportionation and thermally initiated roaming radical reactions. A core strength
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models for high-temperature structural materials, such as metals and ceramics, with applications in nuclear reactors, concentrating solar power, thermal energy storage, and other energy systems
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behavior, materials, neutronics, thermal-hydraulics, and structural mechanics. The candidate will assist in investigation of the performance of nuclear fission reactors and fuel cycle facilities and
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parameters of ICEs to enhance thermal efficiency, throughput, and minimize emissions. Enhancing and developing CFD submodels in commercial CFD codes like CONVERGE to improve simulation predictive capability
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interpreting chemically reacting systems at high temperatures or highly energized/non-thermal environments. A particular emphasis will be on the unimolecular and bimolecular kinetics of molecules relevant in