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-circulation/ ) Research program: The objectives of the proposed study are to (i) design and run Flow‑MRI experiments on a range of non‑Newtonian fluids in steady and periodic flow (ii) develop and optimise MRI
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deployment enabling validation and demonstration of real-world applications. For more details, please view https://www.ntu.edu.sg/erian We are seeking a Research Fellow to lead the development and
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surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between hair’s
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hairy surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between
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such uncertainties will help scientists and engineers to accurately predict when, where and how likely it is that extreme waves might occur. The candidate will conduct research and develop computational tools
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About the job: As a part of the 14CHRONO team, the research fellow will lead a programme of research and development into novel thermally-driven evolved gas analysis (EGA) molecular separation
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Fortran/C/C++ and high-performance computing Good knowledge in fluid mechanics, heat and mass transfer as well as surface phenomena. With good record in publishing research papers. Preferably with expertise
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to candidates with knowledge of fluid mechanics and (ideally) computational fluid dynamics; experience in MATLAB or equivalent software will be considered an asset Academic degrees obtained in foreign countries
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such uncertainties will help scientists and engineers to accurately predict when, where and how likely it is that extreme waves might occur. The candidate will conduct research and develop computational tools
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dynamics and wall interaction phenomena Implement AI/ML models and multiscale coupling procedures to bridge the lattice Boltzmann codes with a two-fluid Eulerian macroscopic code Co-development of codes