Experimental investigations to characterize power quality of AC supplied thermoelectric refrigerators

Recently, thermoelectric refrigeration, using thermoelectric coolers, is gaining interest among the specialists as a green cooling technology since many advantages derive from the use of this kind of devices. Since the diffusion of thermoelectric refrigerators is likely to increase in the next future, it is important to characterize their operation when the supply is provided in alternating current (AC); in fact, in this case the refrigerators are equipped with power electronic converters supplied by the electric distribution system. In particular, power quality issues, like waveform distortion and the evaluation of electric powers, have to be considered. In this paper, the operation of a thermoelectric refrigerator connected to the low voltage AC distribution system is considered and the waveform distortion and the electric power quantities are evaluated based on experimental data.

[1]  Savvas A. Tassou,et al.  Food transport refrigeration – Approaches to reduce energy consumption and environmental impacts of road transport , 2009 .

[2]  Gao Min,et al.  Experimental evaluation of prototype thermoelectric domestic-refrigerators , 2006 .

[3]  E. T. El Shenawy,et al.  Optimal operation of thermoelectric cooler driven by solar thermoelectric generator , 2006 .

[4]  S. Chatterjee,et al.  Thermoelectric cold-chain chests for storing/transporting vaccines in remote regions , 2003 .

[5]  A. Testa,et al.  Power definitions for circuits with nonlinear and unbalanced loads — The IEEE standard 1459-2010 , 2012, 2012 IEEE Power and Energy Society General Meeting.

[6]  M. Ishii,et al.  Packaging and environmental stability of thermally controlled arrayed-waveguide grating multiplexer module with thermoelectric device , 1998 .

[7]  H. Sofrata,et al.  Heat rejection alternatives for thermoelectric refrigerators , 1996 .

[8]  Ali Faisal Murtaza,et al.  Capacitor charging method for I–V curve tracer and MPPT in photovoltaic systems , 2015 .

[9]  Giorgio Graditi,et al.  Power conditioning units in grid-connected photovoltaic systems: A comparison with different technologies and wide range of power ratings , 2014 .

[10]  Ruzhu Wang,et al.  Experimental investigation and analysis on a thermoelectric refrigerator driven by solar cells , 2003 .

[11]  Diana Enescu,et al.  A review on thermoelectric cooling parameters and performance , 2014 .

[12]  Saffa Riffat,et al.  Experimental investigation of a thermoelectric refrigeration system employing a phase change material integrated with thermal diode (thermosyphons) , 2001 .

[13]  R. Chein,et al.  Thermoelectric cooler application in electronic cooling , 2004 .

[14]  Hongxia Xi,et al.  Development and applications of solar-based thermoelectric technologies , 2007 .

[15]  T. Tritt Thermoelectric Materials: Principles, Structure, Properties, and Applications , 2002 .

[16]  Saffa Riffat,et al.  Thermoelectrics: a review of present and potential applications , 2003 .

[17]  F. Disalvo,et al.  Thermoelectric cooling and power generation , 1999, Science.

[18]  H. Goldsmid,et al.  Introduction to Thermoelectricity , 2016 .