SU458690A1 - Radiation Heat Exchanger - Google Patents

Description

one

The invention relates to heat exchangers, namely, to radiation heat exchangers, and may find application in various sectors of the industry.

Radiation heat transfer devices containing cooled heat transfer elements are known.: Enty mirrors.

The purpose of the invention is to provide regulation of the heat exchange process during high-density radiative heat fluxes.

This is achieved by connecting two collectors with slotted nozzles to the mirror in the upper part for film flow of cooling and heat absorbing flows, respectively, on the outer and inner surfaces of the mirror. Under the collector of the heat-absorbing fluid, a plate with a tube is installed to remove the collected heat-absorbing fluid. The mirror is encased and forms with its bottom a hydraulic lock made of cooling and heat-absorbing liquids connected to a drain pipe, and the intra-mirror volume is in communication with the housing cavity and with the exhaust pipe.

The drawing shows schematically a radiation heat exchanger.

It contains a mirror 1, in the upper part of which there is a collector 2 with a slit nozzle 3 for film flow of coolant over the outer surface

mirrors and manifold 4 with a slit nozzle 5

for film expiration of heat absorbing

fluid on the inner surface of the mirror.

Under the collector 4 on trays 6 installed

plate 7 with tube 8 for collecting and removing heat-absorbing liquid.

The mirror is encased in a casing 9 and forms, with its bottom, a hydraulic lock 10 of cooling and heat-absorbing liquids connected to a drain pipe P.,

The intra-mirror cavity is connected by a tube 12 with the cavity of the casing 9 and the exhaust pipe 13. In the intra-mirror cavity there is a cooled object 14 with a holder 15.

The heat exchanger operates as follows.

A coolant is continuously supplied through the pipeline to the collector 2, which, by means of a film stack, flows along the outer surface of the mirror,

cools it. Liquid is collected at the bottom

parts of the casing 9 for hydrating

10 and retracted through tube 11.

The radiation heat exchanger can also operate in the modes of thermostatic control and heating of an object that is in the intra-mirror cavity. The cooled object on the holder 5 is placed in the internal cavity of the mirror 1. If there is no expiration of the heat-absorbing liquid, the transfer of heat from the object to the mirror surface is minimal. With the continuous expiration of the heat-absorbing liquid, the radiation heat removal from the object is maximum. In the first case, heat is removed from the mirror by coolant, and in the second, by both liquids, which are collected in the lower part of the casing 9 and removed through pipe I. on the signals of an electronic computer. To prevent droplets of heat-absorbing liquid from falling onto the object to be cooled, plate 7 serves, from where the liquid is removed through tube 8. With high-density heat fluxes, the absorbing liquid can partially evaporate. To eliminate the effect of vapors in the intra-mirror region on the mode of radiation heat exchange, they are removed through tube 12 and then through pipe 13. Subject of the invention 1. A radiation heat exchanger, preferably for cooling a heat-generating source containing a cooled concave mirror, characterized in that In order to control the heat exchange process, two collectors with slotted nozzles are connected to the mirror in the upper part for film outflow of cooling and heat-absorbing liquids, respectively, externally and the inner surfaces of the mirror. 2. Heat exchanger according to claim 1, characterized in that a plate with a tube is installed under the collector of the heat-absorbing fluid to remove the collected heat-absorbing fluid. 3. A heat exchanger according to claim 1, characterized in that the mirror is encased and forms with its bottom a hydraulic lock of cooling and heat-absorbing liquids connected to the drain pipe, and the intra-mirror volume communicates with the cavity of the casing and the exhaust pipe.

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