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, potentially reducing NOx emissions. Developing porous burners requires understanding complex physics such as heat conduction, radiative transfer, flame stabilization, and surface chemistry, which are difficult
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predicting pollutant dispersion in complex environments like industrial sites remains difficult due to fluctuating wind conditions and obstacles. This PhD project offers a unique opportunity to develop
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, fluid mechanics, reactive flows, as well as solid mechanics plays a central role. In particular, improved understanding of turbulent, reactive, and multiphase flows together with material sciences and
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-principles, network-based framework for plant water and carbon transport under climate extremes. The successful candidate will work at the interface of plant physiology, fluid mechanics, network theory
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Familiarity with CFD applications working on industrial related projects using high performance computing clusters would also be advantageous Strong foundation in Fluid Dynamics Strong prior experience in CFD
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or adhesion applications (maximum 3 points). 5. Proven experience in laboratory experimental techniques related to rheologically complex materials or structured fluids (maximum 2 points). Additional comments In
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and revise operations procedures. Fluid Systems Maintenance (30%) Perform maintenance, troubleshooting, and repair of fluid system facilities. Able to perform more complex and diversified technical
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acoustic discretion of surface vessels and submarines. They will also collaborate with the IEMN to design the prototype and the experimental protocol to be tested in heavy fluid Where to apply Website https
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Review Fluids (2025) 10, 053604. Keywords: numerical simulations, mechanics, complex fluids, foam, porous/granular media Where to apply E-mail olivier.pitois@univ-eiffel.fr Requirements Research
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of A/Prof Patrick Burr, please visit https://www.patrickburr.com/group At UNSW, you will join a vibrant materials research community within the School of Mechanical and Manufacturing Engineering and the