The aim of this paper is to develop and manufacture a thermoelectric structure operating
in Peltier mode with non-standard materials, using a Finite Element Model. Thus, both the
reliability of the Finite Element Model and the correct development and design of the new
thermoelectric structure are ascertained, achieving a dual goal of our research group. This
work provides a very good correlation between simulated and experimental results, and
corroborates that the material’s performance has a ...
The aim of this paper is to develop and manufacture a thermoelectric structure operating
in Peltier mode with non-standard materials, using a Finite Element Model. Thus, both the
reliability of the Finite Element Model and the correct development and design of the new
thermoelectric structure are ascertained, achieving a dual goal of our research group. This
work provides a very good correlation between simulated and experimental results, and
corroborates that the material’s performance has a decisive influence on the thermoelectric
properties of the structure in the temperature range of study considered.
The aim of this paper is to develop and manufacture a thermoelectric structure operating in Peltier mode with non-standard materials, using a Finite Element Model. Thus, both the reliability of the Finite Element Model and the correct development and design of the new thermoelectric structure are ascertained, achieving a dual goal of our research group. This work provides a very good correlation between simulated and experimental results, and corroborates that the material's performance has a decisive influence on the thermoelectric properties of the structure in the temperature range of study considered.
Citació
Villasevil, F.X.; Lopez, A.; Fisac, M. Modelling and simulation of a thermoelectric structure with pellets of non-standard geometry and materials. "International journal of refrigeration / Revue internationale du froid", Agost 2013, vol. 36, núm. 5, p. 1570-1575.
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