Abstract
In this study, evaporator optimization, via both experimental and simulation methods was conducted. To evaluate the evaporator performance, under the optimal system, the compressor operating time and the effects of oil on the refrigerator system were studied. If the temperature of the refrigerator chamber reaches the setting value, the compressor stops working and it leads to the temperature of the refrigerator chamber slowly increasing, due to the heat transfer to the ambient. When the refrigerator temperature is out of the setting range, the compressor works again, and the refrigerator repeats this process until the end of its life. These on/off period can be controlled through the compressor piston movement. To determine the optimal compressor operating conditions, experiments of monthly power consumption were conducted under various compressor working times and the lowest power consumption conditions was determined when the compressor worked continuously. Lubricating oil, the refrigerator system, using oil, also influenced the system performance. To evaluate the effect of oil, oil eliminated and oil systems were compared based on cooling capacity and power consumption. The cooling capacity of the oil eliminated system was 2.6% higher and the power consumption was 3.6% lower than that of the oil system. After determining the optimal operating conditions of the refrigerator system, visualization experiments and simulations were conducted to decide the optimal evaporator and the conventional evaporator size can be reduced by approximately 2.9%.
Highlights
Domestic refrigerators are one of the greatest power consumers of household appliances because they are in continuous operating [1,2]
The International Institute of Refrigeration (IIR) reported that about 1.5 billion domestic refrigerators and freezers are in service worldwide, comprising approximately 4% of global electricity consumption [3]
The efficiency of a refrigerator is defined with coefficient of performance (COP), which is the ratio of the cooling capacity and the power consumption of the compressor
Summary
Domestic refrigerators are one of the greatest power consumers of household appliances because they are in continuous operating [1,2]. The International Institute of Refrigeration (IIR) reported that about 1.5 billion domestic refrigerators and freezers are in service worldwide, comprising approximately 4% of global electricity consumption [3]. As these appliances account for such a significant portion of the world’s electricity consumption, improving efficiency can improve a significant portion of the total energy consumption [4,5,6,7,8,9,10]. The evaporator is one of the most important factors affecting the COP because the cooling capacity is determined by the enthalpy and mass flow rate between the inlet and outlet of the evaporator.
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