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Non-equilibrium thermodynamics

3MAI3 Non-equilibrium thermodynamics Materials and Chemistry S9
Lessons : 14 h TD : 12 h TP : 0 h Project : 0 h Total : 26 h
Co-ordinator : Julien Cardin
Prerequisite
General thermodynamics.
Statistical thermodynamics.
General physics.
Course Objectives
Summary presentation of global and national energy balances, prospective balance sheets, and the place of renewable energies. Presentation of environmental and climatic issues. Energy management in industry (thermal energy, mechanics, cogeneration) improvement of energy efficiency, heat exchanger networks. This course aims to give students the basics of applied thermodynamics and out of linear equilibrium necessary to understand the mechanisms of production and transport of energy and matter.
Syllabus
General and basic thermodynamics.
Thermodynamic cycles
Exergy analysis
Thermoelectricity applied to energy conversion (solar, thermoelectricity ...)
Thermodynamics and transport
Non-equilibrium thermodynamics.
Practical work (TD or TP)
Energy conversion systems.
Energy efficiency of domestic and industrial systems.
Thermodynamics of transport phenomena.
Acquired skills
At the end of the course, students will be able to design and optimize energy conversion systems in a static and out of equilibrium approach. From a fundamental point of view, they will be able to consider the optimization of conversion materials (photovoltaic, thermoelectric, heat pump, etc.) on the basis of the optimization of the working fluid (perfect gas, real gas, electron gas, photon gas).
Bibliography
Engineering thermodynamics P. Chattopadhyay
Thermodynamics and introduction de thermostatistic, H. Callen, Wiley
Introduction to Modern Thermodynamics, D. Kondepudi, Wiley
Thermodynamique et énergétique vol. 1 & 2, Presses polytechniques et universitaires romandes

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