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: Numerical and experimental study of liquid-gas multiphase flows with particles Where to apply Website https://appsrecerca.urv.cat/cgi-bin/programes/application/inici.cgi?conv=2025PM… Requirements Research
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experimental fluid mechanics, turbulence, multiphase flows and advanced instrumentation Specific Requirements Thesis work mainly at LEGI, 5 days/week with hours that may be modified depending on measurement
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flow, fluid dynamics, and sustainable energy systems. The research focuses on developing new methods to study and model multiphase flows as key phenomena in energy and industrial processes. The work
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problem Knowledge of multiphase flows Experience with machine learning techniques Funding This studentship covers UK home tuition fees and provides a tax-free stipend of £24,000 per year for 4 years. Please
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We invite applications for a fully funded PhD position in the field of numerical modelling of iron electrodeposition, i.e., multiphase flows involving phase change, using fully resolved CFD methods
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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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product quality, reducing waste, and enabling sustainable, low-carbon manufacturing of high-value materials. Academically, the work will contribute to the growing field of multiphase flow modelling. Contact
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field of multiphase flow modelling. Contact Dr Nadimi (sadegh.nadimi-shahraki@ncl.ac.uk) for more information. Number Of Awards 1 Start Date 1st October 2026 Award Duration 4 Years Application Closing
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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
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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 and flow