SU595589A2 - Gas flat flame burner - Google Patents

Description

one

The invention relates to burner devices and can be used in various thermal units of the metallurgical, machine-building, chemical, oil refining and other industries that require uniform intensive heating of significant thermally significant surfaces.

According to the main author. St. No. 431366 a well-known flat-flame gas burner, comprising a housing with a tangentially located oxidant inlet pipe, a screw-swirler adjacent to the inner walls of the housing, a gas pipe installed along the base of the housing, nozzles, and a refractory tunnel with a smoothly expanding embrasure.

The nozzle has a nozzle for supplying gas jets into a swirling air flow. The nozzles are oriented at an angle to the radius vectors of the nozzle in the direction of rotation of the oxidant flow.

The known burner has a number of disadvantages that do not allow for sufficient reliability of fuel combustion in an open flame in a wide range of operating characteristics. Especially sharply they appear in operation at elevated (2–3 mm of water and more) counterpressure in the furnace space in a cold furnace. During the start-up of the burners in a cold furnace at

Increased pressure in the furnace space sharply increases the recirculation of the inside of the burner of cold flue gases, thereby reducing the flow of oxidant to the root of the gas jets, and pulsations of the flame occur, often resulting in combustion failure.

The purpose of the invention is to improve the reliability of the burner and ensure combustion of low-calorie fuel in it.

This is achieved by installing stabilizing pipes between the nozzles of each row, protruding beyond the nozzle (in the direction of inclination of the nozzles and having an arc diameter of 0.1 to 1 times the diameter of the nozzle. Additional stabilizing pipes are installed between the rows of soils.

This increases the stability of diffusion combustion over a wider range of loads, excess air ratios and with pressure changes in the combustion space.

Pa figs. 1 shows the proposed burner, an oblique view; in fig. 2 - microfil gas nozzle with nozzles located between the nozzle end and the first row of nozzles; FIG. 3 shows a section A-A and a of FIG. 2; in fig. 4 — gas nozzle profile with stabilizing pipes installed between the nozzles of each row; in fig. 5 is a section BB in FIG. four.

 soda; laughs Orl 1, in which gas tube 2 is placed, screw-swirler 3, nozzles 4. A tangential nozzle 5 is attached to the case for supplying air, and the case itself is adjacent to the refractory tunnel 6. Nozzles 4 are equipped with stabilizing nozzles 7 and nozzles 8 located at angles to the corresponding radius vectors p. Nozzles 7 protrude beyond the nozzle 4 and are located between the nozzles 8. Between the rows of nozzles 8, additional stabilizing nozzles 9 should be located. Nozzles 8 and stabilizing nozzles 7 and 9 are oriented to the radius vectors p at angles (respectively), the value of which depends on the calorific value gas, its composition and ratio of fuel-oxidizer, and with the depletion of combustible gas (calorie reduction), these angles increase.

In the case of low gas pressures, it is advisable to have stabilizing onsets 7 and 9 of a larger size than the length of the nozzle.

The burner works as follows.

Air through the tangential nozzle 5 is fed into the burner housing 1 into a screw channel formed by the swirler screw 3 and the housing 1, in which it acquires rotational motion and moves further to the exit of the refractory tunnel 6. The gas is fed into the pipe 2, nozzles 4 and further nozzles 8 n

the stabilizing pipes 7 and 9 are brought into the air flow rotating around the nozzle 4. The gas jets are ignited in the immediate vicinity of the cut-off of the pipes 7 and 9, and the combustion proceeds in the diffusion mode. As it progresses, the burning region approaches the walls of the refractory tunnel 6 and reaches them near its cut. Further, the stream moves without interruption along the walls of the tunnel 6 and the masonry surface 10 smoothly mated with it.

Performing a burner with a gas nozzle having stabilizing pipes will increase the reliability of its operation and provide

effective low-calorie fuel.

Formula invented by

Claims (2)

1.Gasova flat flame burner according to ed. St. No. 431366, characterized by that, in order to increase reliability and ensure the combustion of low-calorie fuel, between the nozzles of each row there are stabilizing plugs protruding beyond the nozzle in the direction of inclination of the nozzles and having an outer diameter of 0.1 to 1 of the nozzle diameter. 2. Burner according to claim 1, characterized in that between the rows of nozzles are installed additional Wearable stabilizing pipes. ff -ffli41 . ; -L-F // Л 1 ./,.//////Л t Phi. 2 ss Ir IpUi.S