RU2644853C1 - Centrifugal gas scrubber - Google Patents

Abstract

FIELD: separation; mixing.

SUBSTANCE: invention relates to wet dust collecting equipment. Centrifugal gas scrubber comprises a body, a pipe for inlet of dusty gas, a pipe for the outlet of purified gas, an irrigation device with atomisers and a slurry tank, wherein the irrigation device is made in the form of at least three water collectors, each of which is fixed with at least three atomisers for irrigating the walls of the body, each of which is made in the form of a hollow cylindrical chamber closed on one side, having a tangential longitudinal groove for discharging liquid, wherein the twist direction of the atomised liquid in each water collector is opposite to the twist direction for the previous one, each of the atomisers on the water collectors is made in the form of a hollow cylindrical body with a throttle orifice connected to a cap nut to which a liquid flow divider is attached, wherein the liquid flow divider consists of coaxially arranged perforated conical shells, the space between them is filled with a fine mesh, the vertices of the conical surfaces of the shells are directed away from the throttle orifice, and in the lower part of the divider is fixed a cylindrical perforated segment fixed on the perforated conical shells, where in the cylindrical perforated segment, fixed in the lower part of the divider on perforated conical shells, there is a flow swirler, made in the form of a spring.

EFFECT: technical result is an increase in the efficiency and reliability of the dust collection process.

1 cl, 2 dwg

Description

The invention relates to techniques for wet dust collection and can be used in chemical, textile, food, light and other industries for the purification of dusty gases.

The closest technical solution to the claimed object is a gas scrubber known from RF patent No. 2283688 (prototype), comprising a housing, a pipe for introducing dusty gas, a pipe for exiting purified gas, an irrigation device and a sludge collector.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the low degree of atomization of the liquid.

The technical result is an increase in the efficiency and reliability of the dust collection process.

This is achieved by the fact that in a centrifugal gas scrubber containing a housing, a nozzle for introducing dusty gas, a nozzle for exiting purified gas, an irrigation device with nozzles and a sludge collector, the irrigation device is made in the form of at least three water collectors, each of which has at least one at least three nozzles for irrigation of the walls of the housing, each of which is made in the form of a hollow, closed on one side, cylindrical chamber having a tangential longitudinal groove for fluid exit, and to the right the twist of the sprayed liquid in each water collector, the opposite of the twist in the previous one, each of the nozzles on the water collectors is made in the form of a hollow cylindrical body with a throttle washer connected to a union nut to which the liquid flow divider is attached, and the liquid flow divider consists of coaxially arranged perforated conical shells, the space between which is filled with a fine mesh, and the vertices of the conical surfaces of the shells are directed away from the throttle hydrochloric washer and the bottom of the deflector is fixed perforated cylindrical segment fixed on the perforated conical mantle, wherein a perforated cylindrical segment fixed on the bottom of the conical deflector on the perforated mantle is arranged swirl flow formed as a spring.

In FIG. 1 is a perspective view of a centrifugal scrubber; FIG. 2 is a diagram of the nozzle 6 or 7 on the water collectors 5.

The centrifugal gas scrubber contains a housing 1, a nozzle 2 for introducing dusty gas, a nozzle 3 for exiting the purified gas with a droplet eliminator 4, an irrigation device 5 and a sludge collector 8 with nozzles 9 for irrigation of the walls of the hopper 8. Before leaving the housing, a conic 10 is installed in front of the droplet eliminator 4. forms. The irrigation device is made in the form of at least three water collectors 5, on each of which at least three nozzles 6 and 7 are fixed to irrigate the walls of the housing 1 and its central part, and each of the nozzles 6 or 7 is made in the form of a hollow, closed with on the one hand, a cylindrical chamber having a tangential longitudinal groove for fluid exit, and the direction of rotation of the sprayed fluid in each water collector 5 is opposite to the previous one.

Centrifugal gas scrubber works as follows.

The dusty gas stream enters the housing 1 through the tangential inlet 2 of the dusty gas stream and encounters a swirling atomized liquid stream in its path, having a twist direction opposite to that of the gas stream, as well as passing. As a result of this interaction, an abundant gas-liquid suspension is formed, which passes through the chipper 10, then the droplet eliminator 4 and enters the pipe 3, and then is released into the atmosphere. Sludge is discharged through a sludge collector 8.

Each of the nozzles 6 or 7 on the water collectors 5 (Fig. 2) contains a cylindrical hollow body 11, consisting of a cylindrical part with an external thread for connecting to the fitting (not shown) of the distribution pipe for supplying fluid, and fixed in the lower part of the body, union nut 16 with a fluid flow divider 17. In the housing 11, coaxially to it, a cylindrical hole 12 is made, in the upper part of which a strainer 14 is installed, and in the lower part there is a throttle washer 13 with a nozzle 15. To the end surface of the union nut 6, axisymmetrically to the housing 11, a liquid flow divider 17 is attached, consisting of coaxially arranged perforated conical shells 18 and 19, the space between which is filled with a fine mesh, and the vertices of the conical surfaces of the shells 18 and 19 are directed away from the throttle washer 13, and in the lower part of the divider 17, a spherical (not shown) or cylindrical perforated segment 20 is fixed in such a way that the top of the outer conical shell 19 coincides with the center of the cylindrical surface of the perforated segment 20. In the cylindrical perforated segment 20 mounted in the lower part of the divider 17 on the perforated conical shells 18 and 19, placed a swirl flow made in the form of a spring 21.

The nozzle works as follows.

When the fluid is supplied to the nozzle body 11 under the action of a pressure drop of 0.4 ... 0.8 MPa, it rushes into the cylindrical hole 12 through the strainer 14, and then into the throttle washer 13 with the nozzle 15. From the nozzle 15, the fluid flow enters the divider 17, consisting of coaxially arranged perforated conical shells 18 and 19, in which the fluid flow is crushed to a finely dispersed phase, and a cylindrical perforated segment 20, mounted on perforated conical shells 18 and 19, allows you to increase the fineness of the phase dispersion Howls of liquid.

Using the nozzle as a finely dispersed sprayer of the described design makes it possible to obtain a stream of droplets of finely dispersed surfactant that is uniform in volume in the range of droplet diameters from 30 to 150 microns at a supply pressure of no more than 1 MPa.

Claims (1)

A centrifugal gas scrubber containing a housing, a nozzle for introducing dusty gas, a nozzle for escaping purified gas, an irrigation device with nozzles and a sludge collector, an irrigation device made in the form of at least three water collectors, each of which has at least three nozzles for irrigation of the walls cases, each of which is made in the form of a hollow, closed on one side, cylindrical chamber having a tangential longitudinal groove for fluid exit, and the direction of twist of the sprayed liquid the bones in each water collector are opposite the twist in the previous one, characterized in that each of the nozzles on the water collectors is made in the form of a hollow cylindrical body with a throttle washer connected to a union nut to which a liquid flow divider is attached, and the liquid flow divider consists of coaxially arranged perforated conical shells, the space between which is filled with a fine mesh, and the vertices of the conical surfaces of the shells are directed away from the throttle ayby, and the bottom of the deflector is fixed perforated cylindrical segment fixed on the perforated conical mantle, wherein a perforated cylindrical segment fixed on the bottom of the conical deflector on the perforated mantle is arranged swirl flow formed as a spring.

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