SU1712740A1 - Gas burner - Google Patents

Abstract

The invention relates to energy and can be used for burning fuel in furnaces and boilers. The gas burner contains a cylindrical vortex mixing chamber with a toroidal exit embrasure, in front of which a disk reflector is installed, a swirl with spiral gas channels. In order to improve the quality of fuel combustion, the spiral is made multiple, the ratio of the total cross-sectional area of the gas channels to the swirl to the cross-sectional area of the mixing chamber is 0.04 ... 0.1, the ratio of the diameter of the mixing chamber to its length is 0.5 ... 0 9, the ratio of the torus radius of the output embrasure to the radius of the vortex mixing chamber is 0.2 ... 0.9, and the ratio of the diameter of the mixing chamber to the outer diameter of the toroidal output embrasure is 0.25 ... 0.44. 1 il.

Description

The invention relates to energy and can be used for burning fuel in furnaces and boilers.

The purpose of the invention is to improve the quality of combustion of gaseous fuels. ,

The drawing shows the burner, a longitudinal section.;:

The gas burner includes a housing 1 inside which there is a cylindrical vortex and a mixing chamber 3c of a toroidal output embrasure 3 opposite to which a disk reflector 4 is installed, a swirler 5 with spiral gas channels 6, and the spiral is made multiple-pass. The ratio of the total cross-sectional area of the gas channels 6 swirl 5 to the area

the cross section of the mixing chamber 2 is 0.04 ... 0.1, the ratio of the diameter d of the mixing chamber 2 to its length I is 0.5 ... 0.9, the ratio of the radius of the torus to the output of the embrasure 3 to the radius of the vortex mixing chamber 2 equal to 0.2 ... 0.9, and the ratio of the diameter d of the mixing chamber 2 to the external diameter D of the toroidal output embrasure 3 is equal to 0.25 ... 0.44. The disk reflector 4 is fixed on the rod 7 by means of the stop 8. A branch pipe 9 serves to supply fuel to the mixing chamber 2.

Gas burner works as follows.

Fuel gas through the pipe 9 enters the gas channels 6 swirl 5, gets

rotational and at the same time translational motion in the direction of the embrasure 3. The swirling flow from the gas channels 6 enters the vortex mixing 2 and moves at a high speed to the exit, creating a vacuum along the axis of the burner. Air necessary for burning the fuel gas is drawn into the vacuum zone of the vortex mixing chamber 2, and flue gases from the opposite side of the housing 1. By adjusting the gap between the toroidal outlet embrasure 3 and the disk reflector 4, the required fuel-air ratio is achieved. The fuel-air mixture is uniformly singed around the perimeter of the vortex chamber 2 through the annular gap enters the toroidal embrasure 3, turns into a flat disk and is fed to the combustion.

Formula of the invention A gas burner containing a cylindrical vortex mixing chamber with a toroidal exit embrasure, opposite which a disk mirror, helper, swirl with spiral gas channels is installed, characterized in that, in order to improve the quality of combustion of gaseous fuel, the helix is made multiple, the ratio is total the cross sectional area of the gas channels swirl to the cross sectional area of the mixing chamber is 0.04 ... 0.1, the ratio of the diameter of the mixing chamber to

its length is 0.5 ... 0.9, the ratio of the radius of the torus of the output embrasure to the radius of the vortex mixing chamber is 0.2 ... 0.9, and the ratio of the diameter of the mixing chamber to the external diameter of the toroidal output

The embrasure is 0.25 ... 0.44.

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Claims (1)

Claim A gas burner containing a cylindrical vortex mixing chamber with a toroidal outlet embrasure, on the contrary of which a disk reflector, a swirl with spiral gas channels are installed, characterized in that, in order to improve the quality of the combustion of gaseous fuel, the spiral is made many 10 inlets, the ratio of the total cross-sectional area of gas swirl channels to the cross-sectional area of the mixing chamber is 0.04 ... 0.1, the ratio of the diameter of the mixing chamber to its 15 length is 0.5 ... 0.9, the ratio p of the torus radius embrasures output to the radius of the vortex mixing chamber is equal to 0.2 ... 0.9, and the ratio of the mixing chamber diameter to the outer diameter of the toroidal noy output embrasure is 0.25 ... 0.44.