SU1613183A1 - Air-atomizing burner - Google Patents

Abstract

The invention relates to a technique for spraying a liquid and can be used in various industries, including for controlling fine dust in underground mines, quarries, and beneficiation plants. The aim of the invention is to expand the scope. For this, the nozzle is installed at the outlet end of the pipe for supplying liquid with a spray nozzle, made with tangential channels and an axial nozzle, and the pipe for supplying liquid is installed with the possibility of axial movement relative to the glass. By changing the mutual arrangement of the spray nozzle and provided with annular projections of the housing and the glass, it is possible to change the parameters of the created gas-liquid torch. 1 il.

Description

The invention relates to a technique for squeezing a liquid and can be applied in various areas of industry, including to combat fine dust in underground mines, quarries, and beneficiation plants.

The purpose of the invention is to expand the scope.

The drawing shows the nozzle section.

The nozzle includes a housing 1 with an axis 2 installed along its axis for axial movement for supplying fluid and a cup 3 surrounding it, and an air nozzle 4 formed by annular conical projections 5 and 6 formed on the output ends of the inner surface of the housing

I and the outer surface of the beaker 3. The cavity of the nozzle 4 is connected through a pipe 7 with a source of compressed air. At the outlet end of the pipe 2, an atomizing nozzle 8 is installed, made with tangential channels 9 and an axial nozzle 10. The pipe 2 and the nozzle 8 are installed with the possibility of axial movement relative to the glass 3.

The nozzle works as follows.

Through pipe 2, the liquid is supplied to the packing 8, where the passage through the tangential channels 9 is twisted and sprayed through the nozzle 10 into the surrounding space. In this case, the spray can be of various shapes.

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depending on the position of the nozzle 8 in the glass 3.

Compressed air through the pipe 7 enters the cavity between the housing 1 and the cylindrical glass 3, and the stack through the profiled edges 5 and 6 of the nozzle 4 forms an annular jet, which, meeting the body of the sprayed liquid at a given distance, picks up it And to her, her kinetic energy, is partially mixed and further distributed in space in the form of a liquid-air torch. ,

The proposed design provides mixing of air with a liquid torch outside the nozzle, which increases the power of the air torch, its range, the residence time of liquid droplets in the air, etc. Due to the additional energy supplied to the water torch, compressed air inside the torch increases - ,. bulizatsiya water-air mixture, which, in turn, contributes to the collision of liquid droplets with dust particles. Water drops receive additional kinetic energy, sufficient to overcome the tension surface forces in a collision with a speck of dust. As a result, the likelihood of wetting and, consequently, precipitation of the fluff, increases,

The presence of an air envelope at the boundary of the air torch, provided for by the proposed design, causes the active suction of the surrounding dusty air by lowering the pressure.

inside the torch, which greatly increases the effectiveness of dust suppression.

The parameters of the plume created by pneumatic hydrofunctions — range, opening angle, rate of mixing of water and air, dispersion, residence time of a drop of liquid in air, etc. - determined by the relative position of the elements forming the annular nozzle 4.

Depending on the relative position of the infill attachment and the body and glass provided with annular projections, as well as the shape of the projections, the parameters of the created water-air plume vary, which allows the proposed design to be used in various engineering fields.

Claims (1)

Invention Formula A pneumatic nozzle comprising a housing with axially mounted axially displaceable liquid supply tube and a cup surrounding it and an air nozzle formed by annular conical protrusions at the outlet ends of the inner surface of the housing and the outer surface of the cup, characterized in that In order to expand the field of application, the nozzle is equipped with a spray nozzle mounted on the outlet end of the fluid supply pipe, made with tangential channels and a yusi nozzle, and the pipe for supplying fluid is mounted for axial movement relative to the glass.