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The PhD project aims to contribute to the development of a fluidized-bed heat exchanger model in which the fluid to be heated circulates inside bundles of tubes immersed in the fluidized particles. This is
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processes of matter transfer, heat and flows, physical chemistry such as kinetics and thermodynamics, physical chemistry and biology, taking into account the complex interactions and interdependencies between
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the area of experimental and modeling of combustion and heat transfer. The successful candidate will study oxy-combustion in a high-pressure combustor. This work combines experiments and modeling
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The PhD student will optimize a virtual mechanism for predicting heat release, consumption speed, and NOx formation in NH3/H2/Air flames. It involves designing first a virtual primary mechanism for
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; - Modeling of the process (coupling of heat and material transfers and chemical reactions); - Development of a process concept on an industrial scale. Preliminary work has given very encouraging results from a
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are mainly due to mixing, heat and mass transfer limitations since the repeated exposure to concentration changes lead to the drift from the expected biosynthesis route. The number of existing works coupling
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high stakes, addressing many topics (biological scaffolds for growing organoids, thermoelectrical materials to produce energy from heat recovery, spintronics for high-speed and high-density information
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possess geothermal resources of high value, mainly linked to the vertical transfer of magmas through Earth's crust. Besides some high-temperature geothermal systems, which are exploited to provide
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available to the PhD student for optical and radar simulations will be pre-processed (including radiometric and geometric image correction, urban models). The candidate will take part in occasional