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Tips for Buying a Mini Chest Deep Low Laboratory Refrigerator
2021-11-11
Tips for buying a Mini Chest Deep Low Laboratory Refrigerator
Regarding the purchase of low-temperature refrigerators, some users hope to buy an energy-saving and affordable high-quality Mini Chest Deep Low Laboratory Refrigerator when purchasing a low-temperature refrigerator.
1. Use new energy-saving working fluids. The operating medium of the Mini Chest Deep Low Laboratory Refrigerator is different, the power consumption required to obtain the same cooling capacity is also different, which is directly related to the cooling effect of the low-temperature refrigerator. For example, R600A refrigerant, which is both environmentally friendly and energy-saving, has greatly improved the refrigeration effect compared to the previous one.
2. Use high-efficiency compressors. The compressor is the heart of the low-temperature refrigerator and the main energy-consuming component of the Mini Chest Deep Low Laboratory Refrigerator. The selection of a high-efficiency compressor is the simplest and most effective way to save energy in the low-temperature refrigerator.
3. To achieve a higher energy efficiency ratio. The energy efficiency ratio is the ratio of the actual cooling capacity to the actual input power when the Mini Chest Deep Low Laboratory Refrigerator is in cooling operation under additional working conditions and specified conditions. The higher the energy efficiency ratio of the low-temperature refrigerator, the more electricity can be saved when the cooling capacity is the same.
After the Mini Chest Deep Low Laboratory Refrigerator using the above energy-saving methods enters stable operation, its power consumption is mainly used to overcome the temperature rise in the low-temperature refrigerator to maintain the required low temperature. Therefore, energy-saving low-temperature refrigerators must have relatively complete cold air protection methods, such as appropriately thickening the thermal insulation foam layer, improving the foaming materials and processes, and improving the door seal structure to reduce the heat transfer from the outside.
Regarding the purchase of low-temperature refrigerators, some users hope to buy an energy-saving and affordable high-quality Mini Chest Deep Low Laboratory Refrigerator when purchasing a low-temperature refrigerator.
1. Use new energy-saving working fluids. The operating medium of the Mini Chest Deep Low Laboratory Refrigerator is different, the power consumption required to obtain the same cooling capacity is also different, which is directly related to the cooling effect of the low-temperature refrigerator. For example, R600A refrigerant, which is both environmentally friendly and energy-saving, has greatly improved the refrigeration effect compared to the previous one.
2. Use high-efficiency compressors. The compressor is the heart of the low-temperature refrigerator and the main energy-consuming component of the Mini Chest Deep Low Laboratory Refrigerator. The selection of a high-efficiency compressor is the simplest and most effective way to save energy in the low-temperature refrigerator.
3. To achieve a higher energy efficiency ratio. The energy efficiency ratio is the ratio of the actual cooling capacity to the actual input power when the Mini Chest Deep Low Laboratory Refrigerator is in cooling operation under additional working conditions and specified conditions. The higher the energy efficiency ratio of the low-temperature refrigerator, the more electricity can be saved when the cooling capacity is the same.
After the Mini Chest Deep Low Laboratory Refrigerator using the above energy-saving methods enters stable operation, its power consumption is mainly used to overcome the temperature rise in the low-temperature refrigerator to maintain the required low temperature. Therefore, energy-saving low-temperature refrigerators must have relatively complete cold air protection methods, such as appropriately thickening the thermal insulation foam layer, improving the foaming materials and processes, and improving the door seal structure to reduce the heat transfer from the outside.
