RU2653831C1 - Method of air cleaning in vibrating fluid bed and device for its implementation - Google Patents

Abstract

FIELD: technology of water and air purification.

SUBSTANCE: invention relates to wet dust collecting equipment. Device for cleaning air in a vibrating fluid bed containing a body, a nozzle for introducing a dusty gas and a branch pipe for discharging purified gas, reservoir with a liquid, a flushing nozzle and a slurry discharge pipe, a nozzle for introducing a dusty gas is made cylindrical, and in the upper layers of the liquid a vibrator is placed fixed to the body by means of an elastic perforated membrane, characterized in that on the inner surface of the body, with a clearance in relation to the cylindrical part of the nozzle for introducing dusty gas, an irrigation device in the form of a ring with nozzles arranged by its spray part towards the vibrator is fixed, each of the nozzles comprising a hollow cylindrical body with a throttle plate, 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 which is filled with a fine mesh, wherein the vertices of the conical surfaces of the shells are directed away from the throttle orifice, and in the lower part of the divider there is a cylindrical perforated segment fixed on 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: higher efficiency of dust separation.

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 polluted gases.

The closest technical solution to the claimed object is a method of purifying air in a liquid layer, which consists in the fact that the contaminated gas stream is fed through an inlet pipe located in the housing, and one of the sections of the pipe is placed with a gap above the mirror of the liquid in the tank and create shock of the gas stream on the surface of the liquid with the formation of a gas-liquid suspension, and then discharge the gas-liquid suspension into the separator of the liquid phase, release the gas stream from liquid droplets and take it through Khodnev pipe, and the resulting slurry is withdrawn through a pipe disposed at the bottom of the case, known from patent RF №2284847 (prototype).

The closest technical solution to the claimed object in terms of a device for implementing the method of purifying air in a liquid is a device known from RF patent No. 2284847 (prototype), comprising a housing with nozzles for dusty and purified gas, a reservoir with liquid, a flushing nozzle and a pipe for sludge discharge.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process.

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

This is achieved by the fact that in the method of purifying air in the liquid layer, which consists in the fact that the contaminated gas stream is supplied through an inlet pipe located in the housing, one of the pipe sections being positioned with a gap above the liquid mirror in the tank and creating a fluid pseudo-boil with the formation of a gas-liquid suspension, and then the gas-liquid suspension is discharged into the liquid phase separator, the gas stream is freed from the liquid droplets and taken through the outlet pipe, and the resulting slurry is taken off through the pipe, laid at the bottom of the casing, the contaminated gas stream is fed through a cylindrical pipe, exit with a gap above the liquid mirror, in the upper layers of which a vibrator is placed, and fix it to the casing by means of an elastic perforated membrane, and the formation of a gas-liquid suspension is further enhanced by creating a vibro-boiling layer in the upper fluid layers.

This is achieved by the fact that in the device for purifying air in a liquid layer containing a housing, a pipe for introducing dusty gas and a pipe for exiting purified gas, a tank with liquid, a flushing nozzle and a pipe for discharging sludge, the pipe for introducing dusty gas is cylindrical, and in the upper layers of the liquid there is a vibrator fixed to the casing by means of an elastic perforated membrane, on the inner surface of the casing, with a gap relative to the cylindrical part of the pipe for introducing dusty gas, irrigates an annular device in the form of a ring with nozzles located with its spraying part towards the vibrator, each nozzle containing a hollow cylindrical body with a throttle washer connected to a union nut to which a liquid molasses 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 washer, and bottom of cylindrical perforated deflector fixed segment secured to 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 shows a device for implementing air purification in a vibro-boiling layer of liquid, FIG. 2 is a diagram of a nozzle 6 for an irrigation device made in the form of a ring and located on the inner surface of the housing 1.

A device for purifying air in a vibro-boiling liquid layer comprises a housing 1, a nozzle 2 for introducing dusty gas and a nozzle 3 for exiting the purified gas, a liquid reservoir 4, a flushing nozzle 5 and a pipe for discharging sludge. The pipe 2 for introducing dusty gas is made with a cylindrical part 7, and in the upper layers of the liquid 4 there is a vibrator 8 fixed to the body 1 by means of an elastic perforated membrane 9. On the inner surface of the body 1, with a gap relative to the cylindrical part 7 of the pipe 2 for introducing dusty gas , fixed the irrigation device in the form of a ring with nozzles 6, located with its spraying part in the direction of the vibrator 8. In front of the outlet pipe 3 there is a separator 10.

The method of purification of air in a vibrating fluid layer is as follows.

The contaminated gas stream is fed through an inlet pipe 2 located in the housing 1, and the cylindrical part 7 of the pipe is positioned with a gap above the liquid mirror located in the tank 4. The gas stream is freed from liquid droplets in the separator 10 and removed through the outlet pipe 3, and the resulting sludge is removed through a pipe 6 located on the bottom of the housing 1. In the upper layers of the liquid, a vibrator 8 is placed and fixed to the housing 1 by means of an elastic perforated membrane 9, and the formation of a gas-liquid suspension is additional to enhance the creation vibrated in the upper layer of liquid, wherein the gas stream creates a shot vibrated against the surface of the liquid 4 to form a gas-liquid slurry, which leads to a more intensive mixing of gas and liquid flows. As a result of this interaction, droplets 300-400 microns in size are formed. To remove sludge, a device was used in the form of a flushing nozzle 5 and a pipe 6 for discharging sludge.

The nozzle 6 (Fig. 2) for the irrigation device, made in the form of a ring and located on the inner surface of the housing 1, contains a cylindrical hollow housing 11, consisting of a cylindrical part with an external thread for connection to the fitting (not shown) of a distribution pipe for supply fluid, and a union nut 16 fixed to the lower part of the housing 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, a flow swirl is arranged in the form of a spring 21.

The nozzle works as follows.

When the fluid is supplied to the nozzle body 11 under the influence 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 races yla liquid.

The use of a nozzle as a finely dispersed sprayer of the described design allows one 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 with a supply pressure of no more than 1 MPa.

The presence of gas inclusions in a liquid additionally perturbs its surface, which leads to wave formation and volumetric crushing of the liquid film. The loss of mechanical energy during external acceleration (on the external conical surface) is reduced compared with the same acceleration in a closed channel.

The proposed method can be applied for cleaning from a fine fraction of dust and humidification of air in ventilation installations and air conditioning installations.

Claims (1)

A device for purifying air in a vibro-boiling fluid layer, comprising a housing, a nozzle for introducing dusty gas and a nozzle for exiting purified gas, a reservoir with liquid, a flushing nozzle and a pipe for discharging sludge, a nozzle for introducing dusty gas is cylindrical, and is placed in the upper layers of the liquid a vibrator fixed to the housing by means of an elastic perforated membrane, characterized in that on the inner surface of the housing, with a gap relative to the cylindrical part of the nozzle for introducing dusty gas, is fixed but an irrigation device in the form of a ring with nozzles located with its spray part towards the vibrator, each nozzle containing 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 washers, and a cylindrical perforated segment fixed to the perforated conical shells is fixed in the lower part of the divider, while a flow swirl made in the form of a spring is placed in the cylindrical perforated segment mounted in the lower part of the divider on perforated conical shells.

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