论文信息 - Optimization of film thickness for thermoelectric micro-Peltier cooler

Optimization of film thickness for thermoelectric micro-Peltier cooler

In this paper, the design of a thin film thermoelectric microcooler module is examined. The module consists of n-type bismuth telluride and p-type antimony telluride thermoelectric materials. The commercial software CFD-ACE+ is used to implement and analyse the model. A two-dimensional coupled electrical and thermal synthesis was performed. The influence of the thickness of the thermoelectric materials on the change in temperature has been investigated. The thickness of the thermoelements was varied between 0.5 and 20 μm. The device performance in terms of change in temperature with and without a load has been studied. The optimal thickness for the thermoelements was found to be 2μm. At 30mA, a temperature difference of 3K below ambient was obtained.

[1] Luciana W. da Silva,et al. Micro-thermoelectric cooler: interfacial effects on thermal and electrical transport , 2004 .

[2] D. Rowe,et al. Modelling of a microelectromechanical thermoelectric cooler , 1999 .

[3] D. Rowe,et al. Modelling heat exchangers for thermoelectric generators , 2001 .

[4] J. Fleurial,et al. Thermal management of power electronics using thermoelectric coolers , 1996, Fifteenth International Conference on Thermoelectrics. Proceedings ICT '96.

[5] E. Cretu,et al. Modelling of Integrated Peltier Elements , 2000 .

[6] Rafael Palacios,et al. Bidimensional Analysis of a Thermoelectric Module using Finite Element Techniques * , 2001 .