RU2659050C1 - Nozzle for wet dust collecting apparatus - Google Patents

Abstract

FIELD: devices for the liquids spraying or atomizing.

SUBSTANCE: invention relates to devices for spraying liquids for wet cleaning of gas emissions. Nozzle for wet dust collecting apparatus comprises a cylindrical chamber for supplying gas, an axial sprinkler with throttling openings for supplying liquid and a swirler of gas-liquid flow, the sprinkler with throttling holes is plugged from the outlet end by a centrifugal element consisting of serially connected profiled disks, on the end part of which protrusions and indentations are made in the form of a spiral of Archimedes, the projections on one disc enter with a gap in the valleys on the other disk with the formation of a channel in the form of a spiral of Archimedes communicating with the cavity of the cylindrical chamber, and in the end part of the cylindrical chamber, at the inlet of gas and liquid flows, a disk with perforation for the gas inlet is located, which is rigidly connected to the cylindrical chamber by its external surface, and the internal surface is rigidly connected to the sprinkler, and two swirlers are successively installed in the cylindrical chamber, while the swirler located at the inlet of the gas flow is rigidly fixed to the sprinkler tube, and the swirler at the outlet is rigidly fastened to the inner surface of the cylindrical chamber, with two gaps between the swirlers for interaction with the gas and the liquid: axial play – for interaction with the liquid and tangential gap – for interaction with the gas, and a diffuser is attached to the end portion of the cylindrical chamber at the outlet of the gas and liquid flows to increase the spray of the gas-liquid flow.

EFFECT: increased efficiency of formation of a finely dispersed gas-liquid phase.

5 cl, 2 dwg

Description

The invention relates to a device for spraying liquids for wet cleaning of gas emissions and can be used in chemical, oil and other industries.

The closest in technical essence and the achieved effect is the nozzle according to the patent application of the Russian Federation No. 242482901, containing a hollow body with a nozzle and a central core, the body is made with a channel for supplying fluid and contains a coaxial sleeve rigidly connected to it with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, in the lower part of which a spray gun is rigidly attached, made in the form of a truncated cone, coaxial with the central hole of the core and attached with its upper bases By attaching to the base of the cylinder of the central core, and to the lower base of the truncated cone, by means of at least three spokes, a divider is attached, which is made in the form of an end round plate, the edges of which are bent towards the annular gap, and on the outer side surface of the truncated cone there are helical grooves , a divider, which is attached to the lower base of the truncated cone, by means of at least three spokes and made in the form of an end round plate, the edges of which are bent towards the annular gap, about esimmetrichno central opening of the central core formed orifice (prototype).

The disadvantage of the prototype is the relatively low efficiency of the formation of a finely dispersed gas-liquid phase.

EFFECT: increased efficiency of formation of a finely dispersed gas-liquid phase.

This is achieved by the fact that in the nozzle for wet dust collection apparatus containing a cylindrical chamber for supplying gas, an axial sprinkler with throttle openings for supplying liquid and a swirl of gas-liquid flow, an irrigator with throttle openings is muffled from the outlet end by a centrifugal element consisting of serially connected profiled disks, on the end part of which protrusions and depressions are made in the form of a Archimedes spiral, while the protrusions on one disk enter with a gap into the depressions on the other disc ke with the formation of a channel in the form of a spiral of Archimedes, communicating with the cavity of the cylindrical chamber, and in the end part of the cylindrical chamber, at the inlet of the gas and liquid flows, there is a disk with perforation for the gas inlet, which is rigidly connected to the cylindrical chamber by its outer surface and the inner surface rigidly connected to the sprinkler, and in the cylindrical chamber two swirlers are installed in series, while the swirl located at the inlet of the gas stream is rigidly bonded to the sprinkler tube, and swirl l at the exit is rigidly bonded to the inner surface of the cylindrical chamber, while between the swirlers two gaps are made for interaction with gas and liquid: an axial gap for interaction with the liquid and a tangential gap for interaction with gas, and to the end of the cylindrical chamber at the outlet of the flows gas and liquid, a diffuser is attached to increase the torch of the sprayed gas-liquid stream.

In FIG. 1 shows a general view of the nozzle; in FIG. 2 - axonometric projection of the swirl.

The nozzle for wet dust collection apparatus contains a cylindrical chamber 1 with an inlet pipe 2 for irrigated liquid with an axially irrigated axially spaced 3 therein with throttle holes 6 made in the wall of the tube 2, the diameter of which is less than the diameter of the axial sprinkler 3. The sprinkler 3 for the irrigated liquid is muffled with the outlet end by a centrifugal element 9, consisting of serially connected profiled disks 10 and 11, on the end part of which protrusions are made in the form of a spiral of Archimedes. In this case, the protrusions on one disk 10 enter with a gap into the depressions on the other disk 11, with the formation of a channel in the form of a spiral of Archimedes, communicating with the cavity of the cylindrical chamber 1.

In the end part of the cylindrical chamber 1, at the inlet of gas and liquid flows, there is a disk 4 with perforation 5 for gas (air) inlet, which is rigidly connected to the cylindrical chamber 1 by its outer surface and rigidly connected to the inlet tube 2 for supplying irrigated liquids.

In the cylindrical chamber 1, two swirlers 7 and 8 are sequentially installed, the swirl 7 located at the inlet of the gas flow rigidly fastened to the inlet pipe 2 with an axial sprinkler 3, and at the outlet the swirl 8 is rigidly fastened to the inner surface of the cylindrical chamber 1, while between swirls 7 and 8 made two gaps for interaction with gas and liquid: axial clearance 15 for interaction with liquid and tangential gap 16 for interaction with gas.

The axial sprinkler 3 is made with a Central hole equal to 0.2 of the diameter of the cylindrical chamber 1, and the tube 2 is connected to the disk 4 with perforation 5 for gas (air) inlet. Each of the swirls 7 and 8 is made in the form of an elliptical paraboloid, the guide blades of which are curved along the helical surface and form curved confuser channels 17 (Fig. 2).

A rod 12 is attached to the disk 11 of the centrifugal element 9, coaxially to the axial sprinkler 3, at the free end of which a gas-liquid flow divider 13 made in the form of a perforated circle is mounted by means of at least three spokes 18.

In the end part of the cylindrical chamber 1, at the outlet of gas and liquid flows, the rod 12 is fixed with its outer surface to the inner surface of the cylindrical chamber 1 by means of a disk 19 made in the form of an Archimedes spiral, the direction of the turns of which is opposite to the direction of the turns of the Archimedes spiral formed by the disks of the centrifugal element 9 A diffuser 14 is attached to the end part of the cylindrical chamber 1 at the outlet of the gas and liquid flows to increase the plume of the sprayed gas-liquid stream.

The nozzle for wet dust collecting devices works as follows.

A disk 4 with perforation 5 is provided for the inlet of gas (air) in the end part of the cylindrical chamber 1, and a tube 2 with an axial sprinkler 3 is provided for the inlet of the liquid.

The axial sprinkler 3 is made with a Central hole equal to 0.2 of the diameter of the cylindrical chamber 1.

Two swirlers 7 and 8, made in the form of an elliptical paraboloid, the guide blades of which are curved along a helical surface, increase the rate of formation of a turbulent gas-liquid flow. The organization of the rotational motion of a gas-liquid flow by passing it through parabolic swirls with a certain tangential velocity component is the main factor in stabilizing the gas-liquid flow by creating the required level of centrifugal forces, which ensures the efficiency of its spraying process.

Then the turbulized gas-liquid flow interacts with the liquid flow exiting the centrifugal element 9, and at the exit from the end part of the cylindrical chamber 1, interacting with the disk 19 made in the form of an Archimedes spiral, it is sent to the diffuser 14 to increase the torch of the sprayed gas-liquid flow, and during passage through the divider 13 increases its fineness.

The increase in the fineness efficiency is also due to an increase in the level of rotational velocities in the gap between the swirls 7 and 8, where the turbolized gas-liquid layer receives additional rotation, as well as the elimination of secondary vortices, thereby reducing the hydraulic resistance of the nozzle. The loss of gas pressure at a speed of 20 m / s is not more than 300 Pa.

A variant is possible when a cylindrical shell 20 with an atomizer made in the form of a perforated disk fixed to it perpendicular to its axis is axisymmetrically attached to the diffuser 14.

Claims (5)

1. A nozzle for wet dust collection apparatus, comprising a cylindrical chamber for supplying gas, an axial sprinkler with throttle openings for supplying liquid and a swirl of gas-liquid flow, characterized in that the sprinkler with throttle openings is muffled from the outlet end by a centrifugal element consisting of serially connected profiled disks, on the end part of which protrusions and depressions are made in the form of a spiral of Archimedes, while the protrusions on one disk enter with a gap into the depressions on the other disk with the formation of a channel in the form of a spiral of Archimedes communicating with the cavity of the cylindrical chamber, and in the end part of the cylindrical chamber, at the inlet of gas and liquid flows, there is a perforated disk for gas inlet, which is rigidly connected to the cylindrical chamber by its external surface and rigidly connected to the sprinkler, and two swirlers are installed in series in the cylindrical chamber, while the swirl located at the inlet of the gas stream is rigidly bonded to the sprinkler tube, and the swirl and the outlet is rigidly bonded to the inner surface of the cylindrical chamber, while between the swirlers there are two gaps for interacting with gas and liquid: an axial gap for interacting with the liquid and a tangential gap for interacting with gas, and to the end of the cylindrical chamber at the outlet of the gas flows and a liquid is attached to the diffuser to increase the spray pattern of the gas-liquid stream. 2. The nozzle according to claim 1, characterized in that a rod is attached to the disk of the centrifugal element, coaxial to the sprinkler, at the free end of which a gas-liquid flow divider is made in the form of a perforated circle. 3. The nozzle according to claim 1, characterized in that each of the swirlers is made in the form of an elliptical paraboloid, the guide vanes of which are curved along a helical surface and form curved confuser channels. 4. The nozzle according to claim 1, characterized in that in the end part of the cylindrical chamber, at the outlet of the gas and liquid flows, the rod is fixed with its outer surface to the inner surface of the cylindrical chamber by means of a disk made in the form of an Archimedes spiral, the direction of the turns of which is opposite to the direction of the turns Archimedes spiral formed by the disks of a centrifugal element. 5. The nozzle according to claim 1, characterized in that a cylindrical shell with an atomizer made in the form of a perforated disk fixed to it perpendicular to its axis is axisymmetrically attached to the diffuser.

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