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Univ. Paris-Saclay
Optimization of thermoelectric generator operation with dissipative coupling to heat baths
Christophe Goupil
LIED,Université Paris Diderot, France
Mercredi 24/04/2013, 11:00
SPEC Salle Itzykson, Bât.774, Orme des Merisiers

When a thermoelectric generator (TEG) is coupled to two heat baths with non-ideal heat exchangers, its performance crucially depends on the working conditions. From a thermodynamic viewpoint a TEG is a heat engine operating in a steady-state mode using the thermoelectric material’s conduction electrons as a working fluid. An analysis of performance optimization thus must focuses on the interplay between the constitutive laws of the device and those which govern its interaction with the environment. We start by giving an analytical form for the current-dependent thermal conductance of the TEG, which characterizes the coupling between the input and output of the device. This reflects the global displacement of the charge carriers in the system, which we associate to a convection process in opposition to conduction related to both phonon transport and heat transport by electrons under open circuit condition.

We thus define a thermoelectric analogue of the Prandtl number, which gives a quantitative measure of the performance of the TEG. Then, using a force-flux formalism we demonstrate that optimal performance may be reached if the conditions for both electrical and thermal impedance matching are met. We conclude our presentation with a discussion on the trade-off between efficiency and power.

Contact : Sebastien AUMAITRE

 

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