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massive collaborative effort among four research laboratories (CETHIL, Lafset, LMFA and LUSAC) to fully develop a versatile reversible sCO2 Brayton cycle targeted to harvest industrial waste heat. In
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of manufactured parts, particularly in terms of geometrical accuracy, microstructural control, and mechanical performance. This PhD project aims to develop a Multiphysics model and simulation to gain in-depth
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) analysis on gold surfaces. The student will develop a data analysis method (e.g. statistical methods) to identify the main parameters driving metabolite-surface interactions in the presence of different
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) combine their expertise to fully develop, that is including sub-systems design and optimization, a versatile reversible sCO2 Brayton cycle targeted to harvest industrial waste heat. In this project, LMFA
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trial-and-error approach often appear to be limited, and it has become necessary to develop adapted methods that enable efficient design. System and Control theory and Signal Processing are natural
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fully operational and used routinely in the laboratory. The first objective of the PhD will be to further develop this instrumentation by contributing (with the support of the team’s technical staff