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implementation of a coupled Computational Fluid Dynamics (CFD) and fire dynamics model within the OpenFOAM framework. This model will simulate battery thermal runaway and subsequent fire propagation. The
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, recognizing our continued commitment to promoting equality for women in science and engineering. Our Faculty offers exceptional research facilities in fluid dynamics, structures, and their interactions
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hairy surfaces for flow control. The projects requires detailed measurements of the dynamic soft elastic interface and the fluid flow, as well as theoretical and numerical developments. The project
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) and using hairy surfaces for flow control. The projects requires detailed measurements of the dynamic soft elastic interface and the fluid flow, as well as theoretical and numerical developments
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for simulation and modeling of wave dynamics, and for uncertainty quantification of extreme events. The project will combine stochastic mathematical models of wave physics with advanced computational methods
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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
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with East China Normal University. The areas of expertise of possible mentors in the group are mainly Probability Theory, Partial Differential Equations, Fluid Dynamics, and Applied Mathematics. However
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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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profiles using energy modelling tools • Build thermo-fluid dynamic models of HVAC and district cooling networks • Propose improved system architectures and network efficiency strategies • Design and validate
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simulation realism and by enforcing quantitative validation against helioseismic constraints. The project combines surface-cooling-driven convection, compressible fluid dynamics, and magnetic fields in ultra