SU769206A1 - Recuperator - Google Patents

Description

The invention relates to the field of heat engineering and can find application in heat exchangers designed to use the heat of the exhaust gases.

Closest to the proposed recuperator is a recuperator containing a vertical casing with an arched vault, inside of which at least three cylindrical Yu baffles are installed coaxially, forming annular heat exchange channels connected by collectors for supplying and discharging a heated medium, and a central channel for supplying gas, In this case, the internal partition is mounted on the collector of the outlet of the heated medium [1].

A disadvantage of the known recuperator is its low profitability, since the heat of the outgoing gases is not fully used.

The aim of the invention is to increase efficiency.

This is achieved by the fact that at least one of the partitions closest to the enclosure is enclosed in corrugated shells connected by lower ends, and adjacent partitions are fixed on the arched arch and collector, respectively, for draining the heated medium. thirty

In FIG. 1 shows a recuperator in longitudinal section; in FIG. 2 is a view A of FIG. 1.

The recuperator contains a vertical cylindrical body 1 with an arched vault 2 and collectors 3, 4 for supplying and discharging a heated medium, respectively.

Inside the casing 1, cylindrical partitions 5 are installed coaxially, forming annular heat exchange channels 6 and a central channel 7 for supplying gas, and adjacent partitions 5 are mounted respectively on the arch 2 and collector 4. One of the partitions 5 closest to the casing 1 is enclosed in corrugated shells 8 installed in channels 6 and connected by lower ends. The partition 5, forming the Central channel 7, is mounted on the collector 4 for the removal of the heated medium.

The collectors 3 and 4 are respectively equipped with nozzles 9 and 10. In the collector 3 for supplying a heated medium there is a guide apparatus in the form of inclined blades 11. On the arch 2 there are formed windows 12 for exhaust gas discharge ..

The recuperator works as follows.

Hot flue gases enter the central channel 7 and then into the annular channels formed by the corrugated gulls 86969 and the septum 5 closest to the housing 1, while heating the walls of the latter. Cooled gases through the window 12 are discharged from the recuperator.

The medium intended for heating, for example air, is supplied by the pipe 9 to the collector 3, and then passes sequentially through the annular channels formed by the housing 1, the surface of the shells 8 and the partitions 5. After heating to the required temperature, the air is collected in the manifold 4 and is discharged through the pipe 10 to to the consumer.

The introduction of additional partitions in the form of corrugated shells into the heat exchanger housing allows to increase the number of heat exchange channels, reduce heat loss and increase the efficiency of the entire installation.

Claims (1)

Claim A recuperator comprising a vertical casing with an arched vault, inside of which at least three cylindrical partitions are installed coaxially, forming annular heat-exchange channels connected by collectors for supplying and removing water from the heated medium, and a central channel for supplying gas, while the internal partition is fixed to the exhaust manifold a heated medium, characterized in that, in order to increase efficiency, at least one of the partitions closest to the housing is enclosed in corrugated shells, connected s between them the bottom end and the adjacent walls are fixed respectively on the vault and Mr. aroch15 manifold to drain the heated medium.