TH47955B - Evaporators and coolers - Google Patents

Abstract

DC60 (27/06/44) This evaporator 12 has been built in such a way that the bulk assembly of the The heat exchanger tubes 15 for cold water flow are arranged inside the container 14 for the intake of the cooling medium. When the area of the section The total cross section of the heat exchanger tube 15 at different regions in the cold water flow direction was compared. The path is smaller than the total area in the source area. Of the flow channel, so even if the temperature difference Between the cold water and the cooling medium is less. Chilled water flow rate in the side pipe Destination is faster than in the source pipe Therefore, the heat flux will be increased and The heat transfer rate is further improved, even in the D pipe group. This evaporator 12 has been built in such a way that the bulk assembly of The heat exchanger tubes 15 for cold water flow are arranged inside the container 14 for the intake of the cooling medium. When the area of the section The total cross section of the heat exchanger tubes 15 at different regions in the cold water flow direction was compared. Will be smaller than the total area in the source area Of the flow channel, so even though the temperature is different Between the chilled water and the cooling medium is less, the velocity of cold water in the end pipe. The path is faster on the source pipe, so the heat flux will be increased and the heat transfer rate will be improved. Even in pipe group D

Claims (7)

1. Evaporator, which includes Containers where the cooling medium is also applied, and a number of heat exchanger tubes arranged in containers in Characteristics in bulk for Forming a flow channel Where the cooled fluid flows in order for the cooling medium to evaporate using heat exchange between The cooling medium and the fluid which cools where the total cross-sectional area of the heat exchanger tubes in The destination part of the channel The flow is smaller than the sectional area. The total cross section of the heat exchanger tubes in the source section of the flow channel 2. Evaporator according to claim 1, where the tube exchanging This amount of heat is going to be the diameter of the line. General center Where the flow channel is composed of the end-side and the upstream sections and the number of heat-exchanger tubes belonging to The source side is greater than the number of pipes. And change the heat which Belongs to the destination part 3. Evaporator according to claim 1, where the tube exchanging The heat is arranged along the level. And the position of the exchange pipe Change the heat that is the northernmost in the source side to be high. More than position Of the northernmost heat exchanger tube in The destination. 4. Evaporator which includes Containers where the cooling medium is also applied, and a number of heat exchanger tubes arranged in containers in Characteristics in groups for Forming a flow channel Where the coolant fluid flows in order to allow the cooling medium It is evaporated by means of heat exchange between the media. Cooling and fluid, which cools where the heat exchanger tubes on the end-side of the channel The flow has been spaced. Distant from each other by the first gap and the heat exchanger tubes in the upstream portion of the flow channel were spaced from each other by a large second gap. Than the first gap 5. Evaporator according to claim 4 where the tube exchanging This amount of heat is going to be the diameter of the line. General center 6. Evaporator according to claim 1, where the tube exchanging The heat is arranged along the level. And the position of the exchange pipe Change the heat that is the northernmost in the source side to be high. More than position Of the northernmost heat exchanger tube in The destination. 7. Refrigeration including Evaporator according to one of the claims 1 or 4 A gas compressor which compresses the vapor cooling medium. Condenser, which allows the cooling medium to be compressed in A condensation condition Tightly and liquefy, and the refrigerant evaporation valve reduces the pressure of the refrigerating medium. Cools during the process The flow of the cooling medium at As liquid to the evaporator