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Application deadline: All year round Research theme: Multiphase Flows, Experimental Fluid Dynamics, Bubbles, Droplets, Sustainable Energy UK only This 3.5-year project is funded by the Department
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Infrastructure? No Offer Description At Université Gustave Eiffel (Champs-sur-Marne, Paris region, France), we have an open call for a PhD position titled “Pore Network Modeling of Multiphase Flow in CO₂–Water
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. microscopic properties alter the macroscopic ones. To obtain insights into multiphase flow at the droplet scale, microfluidics is a powerful and well-established tool. While these measurements provide valuable
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. Desirable Demonstrated knowledge/experience in: multiphase flow porous media flow microfluidic fabrication and experiments 3D printing surface chemistry Demonstrated programming skills in: Matlab C++ Python
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you often find yourself fascinated by the multiscale complexity of real-world engineering problems? In this project you will develop advanced multiphase transport models for porous systems, bridging
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Description PhD position at IFP Energies nouvelles (IFPEN) in Chemical / Mechanical Engineering of multiphase fluids Scale-up of bioreactors through characterization of gas phase hydrodynamics and Euler-Euler
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multidisciplinary couplings accounting for multiphase phenomena, thermal kinetics, fluid-structure interaction and environmental interactions will be implemented to enable the creation of digital twins and surrogate
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and diffusion processes in the plasma resulting in the ionization of the initial gas - The decomposition of CH4, including detailed reaction sequence and chemical kinetics in a multiphase environment
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these developments have focused on conventional hydrocarbons under purely gaseous conditions. In contrast, SAF combustion in GTs occurs in a multiphase regime, where complex interactions between liquid fuel droplets
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multiphase flow challenges related to the flow characteristics during cyclic injection processes using microfluidic experiments and pore-scale modelling. You will gain access to the advanced microfluidic