RU191002U1 - Injection gas burner - Google Patents

Abstract

The utility model relates to a power system and can be used to burn liquid and gaseous fuels in furnaces and combustion chambers of boilers. The technical problem solved by this utility model is to expand the arsenal of tools for creating an injection burner that allows to increase the efficiency of flow processes, namely to increase the speed the outlet of the gas-air mixture during the combustion of low-pressure gas, to ensure uniform combustion and heat distribution in the boiler from the burning gas with an increased service life The essence of the utility model consists in the fact that in an injection gas burner including a gas supply channel and a mixer, a gas supply channel is connected to an ejector, the latter is connected to a mixer, at the opposite end of which a nozzle is installed, while the nozzle is made with an internal hole in the form of a Laval nozzle, and at its free end there is a ceramic cover with through holes with a diameter of at least 2 mm over the entire surface.

Description

The utility model relates to a power system and can be used for burning liquid and gaseous fuels in furnaces and combustion chambers of boilers.

Known injector gas burner containing a gas supply channel, a mixer, made in the form of a Venturi tube and a diffuser with an outlet / RF patent №2160871 C1, F23С 3/00, 20.12.2000 /.

The disadvantage of this burner is that to ensure the operation of the burner requires increased energy of the gas jet, i.e. Increased gas pressure and the necessary amount of air suction for the formation of gas-air mixture, which makes it impossible for the burner to operate at low gas pressure.

The injector gas burner is known, which contains a gas supply channel, a mixer made in the form of a Venturi tube, and a diffuser, while the mixer is smoothly coupled to the diffuser, and the lateral surfaces of the diffuser are flat and flattened to form an outlet in the form of one slit or at least two mutually perpendicular slits / RF Patent No. 2293917, IPC F23D 14/00, F24H 1/22 /.

The disadvantage of this burner is fragility, since when burning gas, the thin edges of the slot, made of a thin sheet without sagging, heat up, burn and change shape, which reduces the stability and reliability of combustion.

The technical problem solved by this utility model is to expand the arsenal of tools for creating an injector burner, which makes it possible to increase the efficiency of flow processes, namely, to increase the gas / air mixture exit rate when a low pressure gas is burned, to ensure uniform combustion and heat distribution in the boiler from the burning gas at an elevated service life of the burner.

The essence of the utility model is that in an injection gas burner, including a gas supply channel and a mixer, a gas supply channel is connected to an ejector, the latter is connected to a mixer, the nozzle is installed at the opposite end, and the nozzle is made with an internal opening Laval nozzles, and at its free end there is a ceramic cover with through holes with a diameter of at least 2 mm over the entire surface.

FIG. 1 shows an injector gas burner;

figure 2 - view And figure 1.

The injector gas burner contains an ejector 1 connected to a gas supply channel, a mixer 2, nozzle 3 and a ceramic cover 4. Nozzle 3 is made with an internal hole in the form of a Laval nozzle, and a ceramic cover 4 with through holes with a diameter of at least 2 is installed on the free end. mm, over the entire surface (see Fig. 1, type A). The diameter of the hole is at least 2 mm - to avoid clogging.

The device works as follows. Gas is injected into the ejector channel 1, and ambient air is drawn into the ejector, which are mixed in the mixer 2 with an approximately 0.6 primary air excess factor. The mixture then passes through the Laval nozzle in the nozzle 3, flows into the holes of the ceramic cover 4, is ignited, for example, by a spark, and burns. The Laval nozzle of the nozzle helps to increase the velocity of the gas entering the combustion, and the ceramic cover promotes a uniform distribution of the gas-air mixture through the holes, and, as a consequence, a uniform distribution of heat during combustion. In addition, heating does not destroy the ceramic cover. All this stabilizes the burning process.

The technical result of the use of the utility model is to ensure the stability of the combustion process, reduce harmful emissions from

incomplete combustion of gas and increasing its calorific value, by increasing the rate of exit of the gas-air mixture during the combustion of low pressure gas, and the durability of the burner.

Claims (1)

Injector gas burner, including a gas supply channel and a mixer, characterized in that the gas supply channel is connected to the ejector, the latter is connected to the mixer, the nozzle is installed at the opposite end, the nozzle is made with an internal hole, and at its free end is installed ceramic cover with through holes with a diameter of at least 2 mm over the entire surface.

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