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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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developed during this work will deepen our understanding of nonlinear wave phenomena in fluid mechanics and contribute to the broader theory of interfacial flows. This PhD project is in a competition for a
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industrial partner, this project aims to develop a novel modelling and analysis approach to address the mathematical and technical challenges of the fluid-structure interaction (FSI) mechanisms globally
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supercritical fluid technologies, would be appreciated. Host laboratory: The thesis will mainly be carried out at the Charles Gerhardt Institute in Montpellier (1919 route de Mende, 34000 Montpellier, France
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material properties affect dimensional accuracy and aerodynamic behaviour, ultimately improving the reliability of aerodynamic testing. The project combines additive manufacturing, data analytics and fluid
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substantially equivalent knowledge in some other way. Good oral and written proficiency in English is required. The candidate is expected to have good numerical programming skills and knowledge of fluid dynamics
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. From a fluid dynamics perspective, the newly formed solids can be regarded as particles suspended within the pore-scale flow. The primary objective of this project is to investigate the transport
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and hard biofouling – marine organisms that increase drag, weight and thermal resistance – potentially modifying the coupled electro-mechanical-fluid loading and causing fatigue and early failure
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to industry knowledge about the causes of and treatments of fertility problems. Project outline Follicular fluid: the forgotten fluid Follicular fluid surrounds a women’s egg (oocyte) and comprises lipids
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In the energy transition many technologies rely on the injection and extraction of energy carriers, like geothermal heat, CO2 and hydrogen. Repeated fluid pumping could lead to clogging of fluid