Performance of Split-type Air Conditioner under Varied Outdoor Air Temperature at Constant Relative Humidity
DOI:
https://doi.org/10.37934/arfmts.90.2.4254Keywords:
Cooling capacity, energy efficiency ratio, outdoor air temperature, power consumptionAbstract
Studies related to the effects of ambient temperature on the performance of an air conditioning unit have been carried out for decades. However, specific study concerning the effect of varied ambient temperature under constant relative humidity has not been reported yet. This paper discusses the operating conditions and performance of an air conditioner with R32 and nominal capacity of 2.6 kW. The test was carried out in a controlled psychrometric chamber under constant relative humidity of 50% and varied outdoor air temperature from 24 to 38°C. The increase of outdoor air temperature affects the operating conditions of the air conditioner. Generally, if the outdoor air temperature increases by 1°C the evaporating temperature increases by 0.27°C. Meanwhile, refrigerant suction temperature, discharge temperature, and condensing temperature increase by 0.08°C, 1.08°C, and 1.04°C, respectively. Under the same tests, the cooling capacity decreases by 1% and power consumption increases by 1.6%. In addition, the energy efficiency ratio of the air conditioner decreases by 2.1% per 1°C increase of outdoor air temperature.