SU1575050A1 - Heat-exchanger - Google Patents

Abstract

The invention allows to improve the manufacturability and operational reliability of the heat exchanger. Channels 1 and 2 for heat exchanging media are separated by a perforated partition 3, in the holes of which thermosyphons 4 are installed, equipped with external transverse fins. In the baffles of the septum 3 there are also installed coaxial pipes with thermosiphons 10, covering them along the outer diameter of the fins with the formation of labyrinth seals. The ends of the thermosyphons 4 are arranged with a gap in relation to the walls 8 and 9. The gaps contain supporting elements that allow the installation of thermosyphons with 4 lower ends on the bottom wall 8 or suspension by upper ends to the wall 9. 2 Il.

Description

The invention relates to heat exchangers and can be used ebvano in heat recovery systems of waste and process gases.

The purpose of the invention is to increase the operational reliability and manufacturability of the design.

Figure 1 shows the described heat exchanger; figure 2 - the location of the nozzles relative to the thermos -. backgrounds.

The heat exchanger contains a housing with channels 1 and 2 for heat exchange 10 with a partition 3, in the openings there are thermosyphons 4 fitted with an external transverse fins 5. Evaporative sections 6 of thermosyphons 4 are located in channel 1 of section 7 - in channel 2 of the cold medium.

media, separated by perforators

Hot medium and condensation

Do. The ends of the thermosyphons 4 are located in II channels 1 and 2 with a gap with the walls and body 9, In the holes of the neperopofl-jj ki 3 there are additional nozzles 10 coaxial to the thermosyphons, covering the latter on the outer diameter of the fins 5 with the formation of Labyrinth seals, In the gaps between the ends of the thermosyphons 4 and walls 8 and 9 of the housing are supporting elements that provide the ability to install thermosyphons 4 lower ends on the wall 8 of the housing or hanging the upper ends to: rtenka 9. Pipes 10 can be

Connected to the partition 3, for example, by welding.

The heat exchanger operates as follows.

, / The hot medium flowing through channel 1 heats the evaporation sections 6 of the thermosyphons 4. The heat transmitted by the thermosyphons 4 is removed from the condensation sections 7 by the cold medium washing them. At the same time, labyrinth seals formed by nozzles 10 and fins 5 of thermosyphons 4 minimize the leakage through the partition 3. The reduction of media leakage is also ensured by ·· regulation of the pressure of the media in channels 1 and 2. The partition 3 with nozzles 1.0 in this design acts as a gas separation and distance thermosyphon 4 element, which allows you to make the partition 3 of a thin sheet and to reduce due to this the heat exchanger metal.

The use of the invention allows, in addition, to increase the manufacturability and operational reliability of the design.

Claims (1)

Claim A heat exchanger comprising a housing with channels for heat-exchanging media separated by a perforated horizontal partition, in the openings of which there are thermosiphons equipped with an external transverse finning, the ends of thermosiphons located in the said channels with a gap with the walls of the housing, characterized in that, in order to increase operational reliability and technological design, in the holes of the partition additionally installed coaxial with thermosiphon pipes, covering the latter on the outer side ametru fin, and in the gaps between the casing and the ends support elements arranged thermosyphons.