%X Photovoltaic thermoelectric air-conditioning system (PT A/C) system could be a greater option compared to conventional A/C system as it is Freon-free and absence of moving parts. This study investigated the cooling and dehumidification performance of a PT A/C that is solely powered by solar energy under tropical climate conditions. The system is built with 9 pieces of thermoelectric to provide cooling for a test chamber of 3.6 m3 volume. The effect of input current on the system�s cooling and moisture removal rate were investigated and results showed that 5 A is the optimum current level, providing an average of 181 W cooling capacity and 0.14 ltr/hour of moisture removal rate at the given ambient conditions. During the operation, indoor temperature of the test chamber was 4 °C lower than the unconditioned chamber and 7.7 °C compared to the ambient temperature. Whereas the indoor relative humidity varies between 58~83 . Furthermore, for a 12 hours operation, the system consumes 1.45 kWh of energy, and delivered temperature between 23.8 to 27.8 ºC at 5 A. © 2020, The Korean Society of Mechanical Engineers and Springer-Verlag GmbH Germany, part of Springer Nature.
%K Humidity control; Solar energy; Tropics, Ambient conditions; Cooling Capacity; Current levels; Dehumidification performance; Indoor temperature; Moisture removal; Test chambers; Tropical climates, Air conditioning
%J Journal of Mechanical Science and Technology
%L scholars13190
%O cited By 3
%R 10.1007/s12206-020-0441-8
%N 5
%D 2020
%V 34
%I Korean Society of Mechanical Engineers
%A K.K. Looi
%A A.T. Baheta
%A K. Habib
%T Investigation of photovoltaic thermoelectric air-conditioning system for room application under tropical climate
%P 2199-2205