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at the Institute of Physics of Rennes. We are a highly collaborative and international team with more than 20 researchers working in the areas of ultrafast spectroscopy, crystallography and energy conversion. Our
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-nancy.cnrs.fr/ PhD Thesis M/F : Intensification of ammonia synthesis for energy storage Decarbonising energy production requires a massive increase in the share of renewable energies, particularly in electricity
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hydrogen from renewable energy). Thus, during this thesis work, we propose, from a rational and pragmatic approach, the optimization and comparison of 2 selective activation modes: resistive heating and
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. Characterization of cell performance and material properties. Among the many storage solutions currently being studied to enhance the dispatchability of renewable energies and promote a better match between
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of simultaneously producing pure green H2 and value-added chemicals from renewable lignocellulosic biomass including lignocellulosic from wood/forestry and residues from agriculture, with low energy input
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the SVOM collaboration gathering more than 100 scientists. The applicant will be a member of the IRAP science group « Galaxies, Haute Energie & Cosmologie » whose research interests focus on studying
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the IHM (Hydrogen-Matter Interaction) team and will collaborate closely with the MC (Modeling Calculation) group. The energy transition towards renewable energies has become a priority. However, their
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change, the production of energy from sustainable and renewable resources is a major challenge of the coming decades. A significant amount of energy is received by the planet via solar radiation, which
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. Context: Gas turbine (GT) technology for power generation is and will be needed in the medium/long future to compensate for the intermittent output of renewable energy sources. GTs have been operated
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brings together an European group of electro-intensive research infrastructures. This project aims to reduce their carbon (and environmental) footprint through optimized management of energy flows