RU2019124960A - CONDENSER WITH MULTIPLE CROSS-SECTION FLOW CHANNEL - Google Patents

Claims (90)

1. A heat exchange bundle for a refrigerant condenser containing: the first section of the condenser containing the first set of straight passages for the refrigerant, characterized by the first total cross-sectional area; a second condenser section containing a second set of straight refrigerant passages having a second total cross-sectional area; intake manifold; the first intermediate manifold; wherein, in said first set, each of the straight passages for refrigerant is connected at a first end to said intake manifold and is connected at a second end to said intermediate manifold; in said second set, each of the straight refrigerant passages is connected at a first end to said intermediate header; said second total cross-sectional area is less than said first total cross-sectional area. 2. A heat exchange bundle for a refrigerant condenser according to claim 1, further comprising: an exhaust manifold; wherein, in said second set, each of the straight refrigerant passages is connected at a second end to said outlet manifold. 3. The heat exchange bundle for the refrigerant condenser according to claim 1, additionally containing: a third condenser section containing a third set of straight refrigerant passages having a third total cross-sectional area; second intermediate manifold; moreover, in the specified second set, each of the straight passages for the refrigerant is connected at the second end with the specified second intermediate manifold; in said third set, each of the straight refrigerant passages is connected at a first end to said second intermediate header; said third total cross-sectional area is less than said second total cross-sectional area. 4. A heat exchange bundle for a refrigerant condenser according to claim 3, further comprising: an exhaust manifold; wherein, in said third set, each of the straight refrigerant passages is connected at a second end to said outlet manifold. 5. The heat exchange bundle for the refrigerant condenser according to claim 3, additionally containing: a fourth condenser section containing a fourth set of straight refrigerant passages having a fourth total cross-sectional area; third intermediate manifold; moreover, in the specified third set, each of the straight passages for the refrigerant is connected at the second end with the specified third intermediate manifold; in said fourth set, each of the straight refrigerant passages is connected at a first end to said third intermediate header; said fourth total cross-sectional area is less than said second total cross-sectional area. 6. A heat exchange bundle for a refrigerant condenser according to claim 5, further comprising: an exhaust manifold; wherein, in said fourth set, each of the straight refrigerant passages is connected at a second end to said outlet manifold. 7. Heat exchange bundle for a refrigerant condenser according to any one of paragraphs. 1-6, wherein said first condenser section and said second condenser section have the same number of refrigerant passages and the cross-sectional area of each refrigerant passage in said second condenser section is less than the cross-sectional area of each refrigerant passage in said first condenser section. 8. Heat exchange bundle for a refrigerant condenser according to any one of paragraphs. 1-6, wherein the cross-sectional area of each refrigerant passage in said second condenser section is less than the cross-sectional area of each refrigerant passage in said first condenser section, and the number of refrigerant passes in said first condenser section and said second condenser section are the same. 9. Heat exchange bundle for a refrigerant condenser according to any one of paragraphs. 1-6, wherein the cross-sectional area of each refrigerant passage in said second condenser section is less than the cross-sectional area of each refrigerant passage in said first condenser section, and said second condenser section has fewer refrigerant passages than said first condenser section ... 10. Evaporative refrigerant condenser containing: a housing forming an indirect heat exchange section located above the chamber section; a fan located on top of said housing and configured to draw in air surrounding said section of the chamber through openings at the bottom of said housing, through said section of the coil and discharging it through the top of said housing by means of said fan; a water distribution unit located in said housing and above said coil section and designed to selectively distribute water over said coil section; section for collecting water located at the bottom of the specified housing and designed to collect water distributed through the specified water distribution unit; a water pump for pumping water from said water collecting section to said water distribution unit; a heat exchange unit located in said indirect heat exchange section, and said heat exchange unit comprises a heat exchange bundle according to any one of claims. 1-9. 11. A method of increasing the efficiency of heat exchange of an evaporative condenser of a refrigerant containing a housing forming an indirect heat exchange section located above the chamber section; a fan located on top of said housing and configured to draw in air surrounding said section of the chamber through openings at the bottom of said housing, through said section of the coil and discharging it through the top of said housing by means of said fan; a water distribution unit located in said housing and above said coil section and designed to selectively distribute water over said coil section; section for collecting water located at the bottom of the specified housing and designed to collect water distributed through the specified water distribution unit; a water pump for pumping water from said water collecting section to said water distribution unit; a first coil assembly located in said indirect heat exchange section, said coil assembly comprising a plurality of coil heat exchange tubes tightly packed adjacent to each other; wherein each of the coil heat exchange tubes is connected at a first end to one intake manifold and is connected at a second end to an exhaust manifold, said method involves replacing said first coil assembly with a heat exchange bundle according to any one of claims. 1-9. 12. A method for increasing the heat transfer efficiency of an evaporative refrigerant condenser, comprising reducing the total cross-sectional area of the second condenser section relative to the first condenser section sufficiently to set the inner surface heat transfer coefficient to be greater than the outer surface heat transfer coefficient. 13. The method of claim 12, comprising reducing the total cross-sectional area of subsequent condenser sections sufficiently to maintain an inner surface heat transfer coefficient greater than an outer surface heat transfer coefficient. 14. Heat exchange bundle according to any one of paragraphs. 1-9, wherein said straight refrigerant passages are selected from the group consisting of oval pipes, round pipes, elliptical pipes and microchannel plates. 15. Heat exchange bundle for a refrigerant condenser, containing: the first section of the condenser containing the first and second sets of straight passages for refrigerant, characterized by a first total cross-sectional area and connected at one end by a set of U-shaped elbows of the first section of the condenser; a second condenser section containing a third and fourth sets of straight refrigerant paths characterized by a second total cross-sectional area and connected at one end by a set of U-shaped legs of the second condenser section; intake manifold; the first intermediate manifold; wherein, in said first and second sets, each of the straight refrigerant passages is connected at a first end to said intake manifold and is connected at a second end to said intermediate manifold; in said third and fourth sets, each of the straight refrigerant passages is connected at a first end to said intermediate manifold and is connected at a second end to an exhaust manifold; said second total cross-sectional area is less than said first total cross-sectional area. 16. Heat exchange bundle for a refrigerant condenser, containing: a first condenser section containing a first set of refrigerant passages having a first total cross-sectional area; a second condenser section containing a second set of refrigerant passages having a second total cross-sectional area; intake manifold; the first intermediate manifold; wherein, in said first set, each of the refrigerant passages is connected at a first end to said intake manifold and is connected at a second end to said intermediate manifold; in said second set, each of the straight passages is connected at a first end to said intermediate manifold; said second total cross-sectional area is less than said first total cross-sectional area. 17. A heat exchange bundle for a refrigerant condenser according to claim 16, further comprising: an exhaust manifold; wherein, in said second set, each of the refrigerant passages is connected at a second end to said outlet manifold. 18. A heat exchange bundle for a refrigerant condenser according to claim 16, further comprising: a third condenser section containing a third set of refrigerant passages having a third total cross-sectional area; second intermediate manifold; wherein, in said second set, each of the refrigerant passages is connected at a second end to said second intermediate manifold; in said third set, each of the refrigerant passages is connected at a first end to said second intermediate header; said third total cross-sectional area is less than said second total cross-sectional area. 19. A heat exchange bundle for a refrigerant condenser according to claim 18, further comprising: an exhaust manifold; wherein, in said third set, each of the refrigerant passages is connected at a second end to said outlet manifold. 20. A heat exchange bundle for a refrigerant condenser according to claim 18, further comprising: a fourth condenser section containing a fourth set of refrigerant passages having a fourth total cross-sectional area; third intermediate manifold; wherein, in said third set, each of the refrigerant passages is connected at a second end to said third intermediate manifold; in said fourth set, each of the refrigerant passages is connected at a first end to said third intermediate header; said fourth total cross-sectional area is less than said third total cross-sectional area. 21. A heat exchange bundle for a refrigerant condenser according to claim 20, further comprising: an exhaust manifold; wherein, in said fourth set, each of the refrigerant passages is connected at a second end to said outlet manifold. 22. Heat exchange bundle for a refrigerant condenser according to any one of paragraphs. 16-21, wherein said first condenser section and said second condenser section have the same number of refrigerant passages and the cross-sectional area of each refrigerant passage in said second condenser section is less than the cross-sectional area of each refrigerant passage in said first condenser section. 23. A heat exchange bundle for a refrigerant condenser according to any one of paragraphs. 16-21, wherein the cross-sectional area of each refrigerant passage in said second condenser section is less than the cross-sectional area of each refrigerant passage in said first condenser section, and the number of refrigerant passes in said first condenser section and said second condenser section are the same. 24. Heat exchange bundle for a refrigerant condenser according to any one of paragraphs. 16-21, wherein the cross-sectional area of each refrigerant passage in said second condenser section is less than the cross-sectional area of each refrigerant passage in said first condenser section, and said second condenser section has fewer refrigerant passages than said first condenser section ...