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Project Description Computational Fluid Dynamics (CFD) is a key element of modern engineering R&D and of digital engineering processes in Industry4.0. In a CFD code, the fundamental equations of fluid flow
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research team to contribute to the development of instruments to improve indoor air quality. The successful applicant will have a doctorate in computational fluid dynamics, aerosol science, aerobiology
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research team to contribute to the development of instruments to improve indoor air quality. The successful applicant will have a doctorate in computational fluid dynamics, aerosol science, aerobiology
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, industry, and government. The research program is made up of six integrated Centre Projects: Weather System Dynamics; Climate Variability and Weather Systems; Weather Systems in a Warmer World; Weather
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, industry and government. The research program is made up of six integrated Centre Projects: Weather System Dynamics; Climate Variability and Weather Systems; Weather Systems in a Warmer World; Weather
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gases, condensed matter physics, or computational fluid dynamics. Expertise in numerical methods for quantum many-body and computational fluid dynamics, such as finite temperature c-field techniques
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research team to contribute to the development of instruments to improve indoor air quality. The successful applicant will have a doctorate in computational fluid dynamics, aerosol science, aerobiology
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and Environmental Sciences with close collaborations with the School of Maths and Statistics. UNSW has notable strengths in Oceanography, Marine Science, Geophysical Fluid Dynamics, Data Science, and
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developing and applying modern plasma/HED simulation codes based on particle-in-cell and/or molecular dynamics and/or fluid dynamics methods. Expertise in using modern high performance computation facilities
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. Ability to teach a wide range of courses/units that span Mechanical Engineering discipline (Solid/fluid mechanics, Engineering Dynamics), and/or Materials and Manufacturing Engineering. Relevant teaching