About the choice of cold storage refrigerant

In the cold storage, no matter what kind of cold storage it is, whether it is a fresh-keeping cold storage, a medical cold storage, or a quick-frozen cold storage, refrigerant is a very important part and is indispensable. Today's Refrigeration Editor will give you a detailed introduction to the selection of refrigerants for cold storage.

1. Thermodynamics requirements

1. The boiling point should be low to obtain a lower evaporating temperature; at the same time, the refrigerant with low boiling point has a higher High vapor pressure.

2. The critical temperature should be high and the solidification temperature should be low. The critical temperature should be high and the freezing temperature should be low to ensure that the refrigerant works safely in a wide temperature range.

3. The refrigerant must have an appropriate working pressure. The evaporation pressure of the refrigerant is required to be close to or slightly higher than the atmospheric pressure to avoid vacuum in the low pressure part of the refrigeration system and increase the chance of air mixing into the system. The condensing pressure must not be too high. Low condensing pressure can reduce the strength and construction requirements of refrigeration equipment and pipelines, and reduce the construction investment of refrigeration systems and the possibility of refrigerant leakage. The pressure ratio and pressure difference between the condensing pressure and the evaporation pressure are required to be small.

4. The latent heat of vaporization of the refrigerant is larger. When the refrigeration system obtains the same cold output, the latent heat of vaporization can reduce the circulation of refrigerant. At the same time, it can also reduce the investment of refrigerators and equipment, reduce operating energy consumption, and improve refrigeration efficiency.

5. For large-scale refrigeration systems, the refrigeration capacity per unit volume of the refrigerant is required to be as large as possible. In this way, when the cooling capacity is constant, the circulation of the refrigerant can be reduced, and the size of the refrigerator and the diameter of the pipe can be reduced. However, for small refrigeration systems, the cooling capacity per unit volume is required to be small, so that the channel cross-section of the refrigerant can be appropriately increased and the flow resistance can be reduced.

6. The adiabatic index of the refrigerant should be small. This can reduce compression power consumption, lower exhaust temperature, improve operating performance and simplify system design.

7. For centrifugal refrigeration compressors, refrigerants with moderate molecular weights should be used. Because the relative molecular mass is large, the boost ratio of each stage can be increased, and when the pressure ratio of the system is constant, the number of compression stages can be reduced. In addition, when most substances vaporize at the boiling point, their molar increase is similar. Therefore, when the relative molecular mass of refrigerants with similar difficult boiling points is large, the latent heat of vaporization is small.

8. The thermal conductivity should be high. This can increase the heat transfer coefficient of the heat exchange equipment and reduce the heat exchange area of u200bu200bthe heat exchange equipment.

2. Physical and chemical requirements

1. The viscosity of the refrigerant should be small, and the viscosity of the refrigerant should be small , To reduce the flow resistance of the refrigerant in the system, and to reduce the pipe diameter of the refrigeration system is the consumption. The low viscosity can also increase the heat transfer performance of the refrigerant.

2. The purity of the refrigerant should be high. The selected refrigerant should be free of insoluble impurities. The refrigerant is required to have a certain degree of water absorption. When very little water penetrates into the refrigerant, it will be produced at low temperatures. Ice jam affects the normal operation of the refrigeration system.

3. The thermochemical stability of the refrigerant should be good, and it is not easy to decompose under high temperature. When the refrigerant is mixed with oil and water, it should not have obvious corrosive effect on the metal materials, and it will affect the sealing material of the refrigerator. The swelling effect should also be as small as possible.

4. The oil solubility of the refrigerant is completely soluble, slightly soluble and completely insoluble. When the refrigerant and the refrigerating machine oil are completely disintegrated, it can create good conditions for the lubrication of the mechanical parts. It is not easy to form an oil film on the heat exchange surface of the heat exchanger such as the condenser, and the heat transfer effect is excellent. However, the evaporation temperature of the refrigerant will increase, the refrigerating machine oil at low temperatures will decrease, the foam will increase when the refrigerant is boiling, the liquid level in the evaporator will be unstable, and the oil consumption of the refrigerator will increase during operation. The oil return of the system is not easy. When the refrigerant and the refrigerating machine oil are completely unclear, the effect on the evaporation temperature of the refrigeration system is small, but an oil film is easy to form on the heat exchange surface of the heat exchanger, which affects the heat exchange. The advantages and disadvantages of refrigerants that are slightly soluble in oil are between the above two.

5. The effect of the refrigerant on the coil insulation material is as small as possible. In semi-enclosed and fully enclosed refrigerators, the direct contact of the motor coil of the compressor with refrigerant and refrigerating oil not only requires refrigeration punishment. It has good electrical insulation, and at the same time it is required that the effect of the refrigerant on the coil insulation material is as small as possible.

Third, safety requirements

1. The refrigerant should not burn or explode within the working temperature range. When certain flammable and explosive refrigerants must be used, fire-proof and explosion-proof safety measures must be taken.

2. The refrigerant should be non-toxic or low-toxic, and relatively safe. The toxicity, flammability and explosiveness of the refrigerant are all indicators for evaluating the safety of the refrigerant. All countries have stipulated the minimum safety level. standard.

3. Choose refrigerants that are easy to detect leaks. Because some refrigerants are toxic and dangerous, it is required that the selected refrigerants should have the characteristics of easy leakage to ensure safe operation.

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