SU1538005A1 - Heat-exchanger - Google Patents

Abstract

The invention allows to intensify heat exchange and can be used to divert large heat fluxes from heat loaded installations. The heat-receiving wall of the casing 1 is made wavy and is provided on the inside with a capillary-porous coating 2 also of a wavy shape. The capillary-porous coating 2 adjoins the coolant distribution manifold. In the heat exchange channel, transverse porous partitions 6 and a profiled plate 7 are installed with the formation of a cooling channel for another liquid. The perimeter partitions 6 are provided with turbulizers in the form of vibrating heat-conducting wires 8, the free ends of which rest on one side against the coating 2, and on the other on the profiled plate 7. On the side of the plate 7 an irrigator is installed, through which the coating 2 and the partitions 6 are fed water / air mixture. In the cooling path, transverse impermeable partitions 13 are installed, equipped with similar turbulators. The wave-like movement of the water-air mixture in the channel and the liquid in the cooling tract, as well as the turbulization of the flows with wires 8 and 14, contribute to the intensification of heat exchange during the operation of the heat exchanger. 2 il., 2 z.p. f-ly.

Description

fiber 8, the free ends of which abut on one side of the coating 2, and on the other - on the profiled plate 7. Irrigator 9 is installed in the window of the plate 7 on the side of the cooling duct. It communicates with the heat exchange channel. The sprinkler 9 is made in the form of an air nozzle 10 and a pipe 11 with permeable walls enclosed in an additional collector 12 with a longitudinal slit communicating with the nozzle 10. Transverse impermeable partitions 13 are installed in the cooling duct, also equipped with a tour 40

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The vapor-air mixture transmits through the profiled plate 7 another cooling liquid flowing through the cooling duct. Intensification of heat exchange from the side of this fluid is also provided by its wave-like movement along the cooling path due to partitions 13 and vibration of the wires 14.

The use of the proposed heat exchanger allows high heat flows away from the heat-receiving wall, thereby increasing the reliability and service life of the units

elasticizers in the form of elastic vibrating- 50 to reduce weight and overall characteristics

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the vapor-air mixture transmits through the profiled plate 7 another coolant flowing through the cooling path. Intensification of heat exchange from the side of this fluid is also provided by its wave-like movement along the cooling duct due to partitions 13 and vibration of the wires 14.

The use of the proposed heat exchanger allows high heat flows away from the heat-receiving wall, thereby increasing the reliability and service life of the units

14, the free ends of which abut against the profiled plate 7.

The heat exchanger operates as follows.

Powerful heat fluxes from the heat-loaded installation through the fins 3 and the heat-shielding layer 4 are transmitted

heat exchanger ticks and reduce capital and operating costs.

Claims (1)

Claims 1. A heat exchanger comprising a housing with a heat exchange channel provided on the inner surface of a heat-receiving device with a capillary-porous erase coating of 1-fold Editor N. Yatsola Compiled by M.Kosorotov Tehred L. Serdyukova Order 161 Circulation 538 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Phie. Z Proofreader V.Girn to Subscription