TH68193A - Freezer systems using non-aceotropic refrigerants And non-aceotropic refrigerants For the colder temperatures used in the system - Google Patents

Abstract

DC60 (04/09/56) is a non-aceotropic refrigerant used in a single refrigeration system with The structure of the heat exchanger in which heat transfer is performed between the heating agents. The cooling from the compressor, condenser, evaporator and from the evaporator to the compressor with the refrigerant in the process from the condenser to the evaporator is achieved through a combination of A refrigerant with a standard boiling point is close to normal temperature with a It is a non-aceotropic refrigerant used in a single freezer system with The structure of the heat exchanger in which heat transfer is performed between the heating agents. The cooling from the compressor, condenser, evaporator and from the evaporator to the compressor with the refrigerant in the process from the condenser to the evaporator is achieved through a combination of A refrigerant with a standard boiling point is close to normal temperature with a

Claims (1)

Disclaimer (all) which will not appear on the advertisement notice: 1. Refrigeration system using refrigerant mixtures. Non-Azio Tropic (non-azeotropic) where coolant mixtures Non-Azio Tropic (Non-azeotropic), such as refrigerants that It has a normal boiling point of approximately room temperature and a low boiling point refrigerant with a normal boiling point of -60 ํ or less. The cooling system is a single stage cooling system that consists of Air compressor (Compressor) condenser (Condenser) evaporator and Heat exchanger to perform heat exchange between refrigerants in A path from the evaporator to the air compressor with the refrigerant in the other direction from Condenser to evaporator The dew point of the refrigerant mixture at the pressure level in the condensation process. After the air is compressed, it is above room temperature and the refrigeration system is operating at a higher boiling point than the dew point at the internal pressure. The lower pressure area in the path from the condenser to the air compressor. 2 Non-aceotropic refrigerant mixtures. (non-azeotropic) used as a single stage refrigeration system consisting of an air compressor (Compressor) condenser (condenser), evaporator and heat exchanger to perform Exchange heat between refrigerants in a path from the evaporator to the compressor. Air with the refrigerant in the other direction from the condenser to the evaporator, where the non-aceotropic refrigerant mixtures (Non-azeotropic), such as refrigerants that It has a normal boiling point of approximately room temperature and a low boiling point refrigerant with a normal boiling point of -60 ํ or less. The dew point of the refrigerant mixture at the pressure level in the condensation process. After the air is compressed, it is above room temperature and the boiling point is above the dew point at the pressure level in the lower pressure area in the path from Condensers to air compressors 3. Non-azotropic refrigerant mixtures (non-azeotropic) for very low temperatures according to claim 2, where a high boiling point refrigerant gas with a normal boiling point at approximately room temperature It is at least one of the substances chosen from a group containing butane, isobutane, butane, R134a and ethyl acetylene and low boiling point refrigerant gas. Usually at -60 ํ or less. It is at least one of the substances chosen from among containing ethane, ethylene and R-14. 4. Non-aceotropic refrigerant mixtures. (non-azeotropic) for very low temperature according to claim 3, where high boiling point refrigerant gas with normal boiling point at approximately room temperature That is, butane or isobutane. Low boiling point refrigerant gas with a normal boiling point of -60 ํ or less. Is ethane or ethylene and its characteristics Can be improved by adding R-14 (Perfluoromethane) to the gas mixture. 5. Non-azotropic refrigerant mixtures. (non-azeotropic) for very low temperatures according to claim 4, where the high boiling point gas is butane and the low boiling point gas is ethane. The mixing ratio of the butane-ethane gas mixture ranges from 90/10 to 60/40, and the amount of R-14 (perfluoromethane) in the gas mixture. Is between above 0% to 9%. 6. Non-azotropic refrigerant mixtures. (non-azeotropic) for very low temperatures according to claim 4, where the high boiling point gas is butane and the low boiling point gas is ethylene. The mixing ratio of the butane-ethylene gas mixture ranges from 90/10 to 70/30, and the amount of R-14 (perfluoromethane) in the gas mixture exists. Between above 0% to 7.5%. 7. Non-aceotropic refrigerant mixtures. (non-azeotropic) for very low temperatures according to claim 4, where the high boiling point gas is isobutane and the low boiling point gas is ethane. The mixing ratio of the isobutane-ethane gas mixture ranges from 90/10 to 70/30, and the amount of R-14 (perfluoromethane) in the gas mixture. Is between above 0% to 15%. 8. Non-azotropic refrigerant mixtures. (non-azeotropic) for very low temperatures according to claim 4, where the high boiling point gas is isobutane and the low boiling point gas is ethylene. The mixing ratio of the isobutane-ethylene gas mixture ranges from 90/10 to 80/20 and the amount of R-14 (perfluoromethane) in the gas mixture. It is between above 0% and 10%.