SU966412A1 - Immersible burner - Google Patents

Description

The invention relates to the energy sector and can be used in various: individual thermal units for heating and evaporating various liquids.

A known submerged burner containing a housing with a coaxially mounted combustion chamber having a nozzle for hot gases and forming a cooling jacket with the housing (IJ.

The disadvantage of this burner is its low reliability due to the high temperature of the walls and low corrosion resistance.

Also known is a submerged burner comprising a vertical body with a combustion chamber coaxially mounted, having a nozzle in the lower part for the exit of hot gas and forming a cooling broom with the body separated by a transverse partition from the air pod box connected to the fuel supply and air supplying chambers 2.

The disadvantage of this burner is low reliability due to low corrosion resistance due to the high temperature of the walls and the use of aggressive liquids.

The purpose of the invention is to increase reliability.

This goal is achieved by the fact that the burner is equipped with a shell-and-tube heat exchanger integrated in the transverse partition and communicated with its annular space with the upper portion of the cooling jacket.

FIG. 1 shows a burner longitudinal section; in fig. 2 is a longitudinal section of a shell-and-tube heat exchanger. :

The immersion burner contains a vertical enclosure 1 with a combustion chamber 2 coaxially mounted, having a nozzle 3 in the lower part to release hot gases 15 and forming a cooled jacket 4 separated by a transverse partition 5 from the air supply box 6 connected to the fuel and air supply devices 20 you, respectively, 7 and 8 chambers 2. The burner is equipped with a shell-and-tube heat exchanger 9, built into the transverse partition 5 and communicated with its annular space 10 with the top 25, section of the cooling jacket4. The air supply duct 6 is connected to the combustion chamber 2 by a pipe 11 to which the fuel supply device 7 is attached. The heat exchanger 9 is in communication with the air supply duct 6 of a hole.

30 hatea; a special tube 12. Between the cooling jacket 4 and the transverse partition 5 a perforated one is installed. sheet 13 The upper part of the cooling jacket of the shirt 4 is provided with a steam fitting rum 14.

Immersion burner works following Yim Way,

Through the outlet nozzle, the initial t acTBop is fed into the tube spaces of the heat exchanger 9 g, and through the fitting 14 to the upper portion of the cooling jacket 4 steam enters, and thus the condensate of up to a given level is worked out in the cooling jacket 4. ,

The combustion air blower crumb 6 through the pipe 11 enters the volume of the chamber 2 of the combustion. Through toplnav device 7 into the pipe 11 enters the fuel. Through pipe 11, air along with the fuel is tangentially introduced into the 2 combustion chambers.

The flue gases generated in the combustion chamber 2 when the fuel is burned out into the layer of heated or evaporated liquid through the exit nozzle 3, recessed into the layer of liquid. The condensate vaporized in the cooling jacket 4 through the perforated sheet 13 enters the annular space 10 of the heat exchanger 9, where the vapors condense and the condensate flows down into the jacket 4.

The breathing tube 12 above the jacket 4 maintains a pressure close to atmospheric, while the partial pressure of water vapor will depend on the load of the combustion chamber 2 and the amount of heat perceived by the stock solution in the heat exchanger 9. In the event of a decrease in the level of boiling water

condensate in the cooling jacket 4 through the fitting 14, steam is supplied to establish the level at the required mark. The outlet of the heat exchanger 9 communicates with the nozzle 3 and removed below the level of the heated liquid,

Thus, the introduction of a shell-and-tube heat exchanger integrated into the transverse partition into the submersible burner and communicated by its annular space with the upper portion of the cooling jacket makes it possible to increase the reliability of operation.

Claims (1)

1. Author's certificate of the USSR 304959, cl. B 01 D 1/14, 1969. 2, USSR Copyright Certificate №623057, cl. F 23 D 13/08, 1973.