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Thermal and Energy Laboratory of Nantes

 

polytech4The Thermal and Energy Laboratory of Nantes (LTeN) is one of the 7 laboratories of Polytech Nantes, the engineering school of the University.

The LTeN is a joint research unit of the University of Nantes and the CNRS. The laboratory staff is approximately 75 people. Since its creation in 1967, the unit has had a strong thermal identity, recognized as such at national and international level, as well as by the industrial fabric.

Laboratory located in an engineering school, at the heart of the INSIS Institute of the CNRS, the scientific and technological obstacles that we seek to remove are of course raised by the applications. Our environment is favorable to the development of a dynamic based on the classic triptych of teaching-research-industry.

The laboratory is organized around two research axes:

      • Transfers in fluids and energy systems
      • Heat transfers in materials and at interfaces.
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Exergy analysis Liquid Piston LP Microfluidics Sensitivity analysis Characterization Experimental Vortex generator Conductivité thermique Inverse problem Coating Biofouling Compressed air energy storage CAES BITUME Composite thermoplastique Caractérisation Radiative transfer Composites Heat transfer Radiation And modeling Radiative properties Inverse method Atomization Building Thermal energy storage TES Heat exchanger Manufacturing process Micro-explosion Convection Microchannel Microgrid Optimisation Thermoplastic composites Flow maldistribution Continuous flow Conductive-radiative transfer Chemical reactor Heat transfer enhancement Curing 3ω method ENROBE Coalescence PIV Thermoplastic composite Thermal conductivity Carbopol Perforated baffle Phase change material Rheology Composite COLLAGE MATERIAU Flow distribution Cinétique Newton-Raphson Energy storage Heat transfer coefficient Parallel computing Carbon fiber Adhesion Finite element analysis Adhésion Chemical shrinkage Crystallization Emulsion Advection chaotique Convective heat transfer Carbon capture Latent heat Temperature stratification Environmental impact Chaotic advection Plasmon Thermomechanical Consolidation Antifreeze Overmoulding CFD Modelling Process intensification Aeolian transport 2D materials Aeolian sand transport Optimization Multifunctional heat exchanger Aneurysm Cristallisation Thermal management PEKK Mass transfer Discrete-scale approach Concentrating solar power CSP Parallel channels LIF Active mixer Carbon fibers Thermal energy storage Algorithme génétique Wall slip Micro-mixing