论文信息 - Multi-objective Performance Optimization of Thermo-Electric Coolers Using Dimensional Structural Parameters

Multi-objective Performance Optimization of Thermo-Electric Coolers Using Dimensional Structural Parameters

Thermo-Electric Coolers (TEC) have promising features as it is better than traditional cooling devices based on thermodynamic cycle in many ways like being noiseless, compact and environment friendly as it is free of CFC responsible for ozone layer depletion. However, TEC have poor performance in terms of Coefficient of Performance (COP) and peak value of rate at which heat is extracted from space to be cooled. Hence, it is obviously of interest to designers, that the above mentioned limitation shall be compensated by optimizing structural parameters such as area and length of thermoelectric elements such that these device operate at near optimal conditions. In present work, this problem is systematically decomposed in two segments, namely single objective optimization and multi-objective optimization. In the end, some useful insights are reported for designers about structural parameters of TEC.

Kalyanmoy Deb | S. Sharma | P. K. S. Nain | J. M. Giri

[1] R. Venkatasubramanian,et al. Thin-film thermoelectric devices with high room-temperature figures of merit , 2001, Nature.

[2] Kalyanmoy Deb,et al. Simulated Binary Crossover for Continuous Search Space , 1995, Complex Syst..

[3] D. Rowe. CRC Handbook of Thermoelectrics , 1995 .

[4] Kalyanmoy Deb,et al. Multi-objective optimization using evolutionary algorithms , 2001, Wiley-Interscience series in systems and optimization.

[5] Kalyanmoy Deb,et al. A fast and elitist multiobjective genetic algorithm: NSGA-II , 2002, IEEE Trans. Evol. Comput..

[6] Peter Rodgers,et al. Nanomaterials: silicon goes thermoelectric. , 2008, Nature nanotechnology.

[7] Ali Shakouri,et al. A comparison of thin film microrefrigerators based on Si/SiGe superlattice and bulk SiGe , 2008, Microelectron. J..

[8] M. P. Walsh,et al. Quantum Dot Superlattice Thermoelectric Materials and Devices , 2002, Science.