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