SU1725769A3 - Infra-red radiation burner - Google Patents

Abstract

The invention relates to gas burners and improves the quality of the mixture formation and the combustion efficiency. An additional stream of injection air, which is profiled in the channels 20 of the nozzle 12, flows directly into the core of the gas stream. The main stream of injected air is profiled with a visor and through the pass-through windows it enters the peripheral regions of the gas stream going into the mixing chamber. 3 il.

Description

The invention relates to mechanical engineering, and more specifically to injection gas burners of infrared radiation used for heating.

The aim of the invention is to improve the quality of blending and the completeness of combustion of fuel.

FIG. 1 and 2 shows the proposed burner; in FIG. 3, view A in FIG. 2.

The burner contains a hollow body 1 with a distribution chamber 2 and a fastening element 3. In the chamber, successively along the course of the mixture, a porous insert 4 is installed, which can be made as separate ceramic tiles 5, and a gas distribution grid 6. An injection mixer is connected to the cavity 7, containing a cylindrical the mixing chamber 8, which by its output 9 communicates with the inlet 10 of the distribution chamber 2. At the inlet of the injection mixer, it is fixed by means of, for example, a screw 11 of nozzles 12 on radial pylons 13, communicated with a gas supply nozzle 14 and a gas nozzle 15. The pylons are contracted by means of holes 16. Pass-through windows 17 are made on the walls of the mixing chamber 8, and a conical visor 18 is gas-tightly fixed. Nozzles 12 are installed in housing 19 of mixing chamber 8 with the formation of profiled channels 20 for additional air injection and is made as a single part. The channels 20 have the form of a confuser formed by the adjacent partitions 21 of the pylons 13, while the axes of these channels are parallel to the axis of the gas nozzle 15.

The burner works as follows.

The gas through the nozzle 14 and the nozzle 15 flows into the mixing chamber 8, while injecting into the peripheral areas of the gas flow the main air flow through the passage openings 17. Due to the influence of the visor 18 on the main air flow, the latter is oriented relative to the flow in the mixing chamber 8 at an acute angle, which contributes to the intensification of the mixing of gas and oxidant. The additional air flow is also injected by the gas stream and due to the directionality of the channels 20 it goes directly into the core of the flow

which also improves the quality of the mixture due to better mixing and increasing the injection ratio without increasing the area (reducing the efficiency of mixture formation) through the windows 17. The air flow,

profiled in confused channel 20, parallel to the jet of gas flowing from the nozzle at its initial section.

In the mixing chamber 8, the mixture is stirred, which falls on

The inlet 10 of the distribution chamber 2, where the flow pressure is equalized.

The gas-air mixture enters the pores of the ceramic insert 4, where it is heated

Claims (1)

and, the exit from the latter, burns on the outer surface of the insert 4. Grid 6 contributes to reducing the influence of cold air flows on the combustion process. Invention Formula An infrared gas burner containing a distribution chamber with a porous insert and a gas distribution grid successively placed in its outlet section and an injection mixer installed at the entrance to it connected to the gas inlet fitting installed in a coaxial nozzle fixed in the inlet section on radial pylons, in this case, through-holes are made in the zone of the nozzle in the walls of the mixer, in order to improve the quality of the mixing fuel generation and completeness, the coaxial nozzle together with the nozzle, the pylons and the inlet fitting are adapted to move along the axis of the injection mixer, and on the outside of the latter in the area of its through ports gas-tight reinforced conical visor, moreover, the pylons are placed in the cavity of the injection mixer with the formation of confused channels with its wall.