RU92358U1 - Inertial Vacuum Dust Collector - Google Patents

Abstract

1. Inertial-vacuum dust separator comprising a housing, a dusty air inlet nozzle, a dust collector located in the lower part of the housing, and a cleaned air outlet pipe, characterized in that the housing is stepped, and the upper housing stage is made in the form of two coaxial concentric pipes with the formation between them of the output air channel associated with the output pipe of purified air, and the output air channel has an upper diffuser section and a lower confuser section, which is included in the lower stage of the casing, which is equipped with a cone-shaped fairing with a precipitation grid at the base, located coaxially with the casing and forming a nozzle tapering towards the precipitation lattice of the cone-shaped fairing with the outer surface of the confluent grating. ! 2. The inertial vacuum dust separator according to claim 1, characterized in that openings for the passage of injected gas are made on the side wall of the cone-shaped fairing.

Description

The invention relates to gas purification and dust collection and can be used in various industries for fine cleaning of gases from fine dust.

A device is known for fine purification of gas from dispersed particles by a dry method, comprising a cylindrical body in which a wire frame is mounted, on which a filter sleeve is mounted, which is held onto the body by means of a rubber band or ring spring. Dusty gas is introduced upstream into the bag filter, and self-regulation of the filter sleeve is ensured by circulating the dusty stream inside the bag (USSR copyright certificate No. 1243777, IPC B01D 46/02).

The disadvantages of such devices include

- the need for filter regeneration;

- an increase in the aerodynamic drag of the cleaning device as the filter cloth becomes dirty;

- the possibility of breakthrough tissue and, as a consequence, the deterioration of the cleaning efficiency;

- the inability to clean hot gases.

Also known is a dust separator that implements an inertial method of gas purification based on a sharp change in the direction of the gas flow, which is achieved by installing partitions in the dust separator body or by shifting the inlet and outlet nozzles in height (USSR author's certificate No. 929166, IPC B01D 45/08).

However, this dust separator has a low dust separation ability.

The objective of the invention is to increase the efficiency of dust collection.

The problem is solved due to the fact that in the known dust separator comprising a housing, a dusty air inlet pipe, a dust collector located in the lower part of the body, and an upper outlet of purified air, according to the claimed technical solution, the body is made stepwise, and the upper stage of the body is made in the form of two coaxial concentrically installed pipes, with the formation between them of the outlet air channel associated with the outlet pipe of purified air, and the outlet air channel has an upper diffuser and the lower confuser section included in the lower stage of the casing, which is equipped with a cone-shaped fairing with a precipitation grid in the base, located coaxially with the casing and forming a nozzle tapering towards the precipitation grid with the outer wall of the confluent section of the output air channel.

On the side surface of the fairing are made holes for the passage of injected gas.

The invention is illustrated in the drawing, which shows an inertial vacuum dust collector.

The inertial vacuum dust collector contains a stepped housing 1, an inlet gas duct (not shown in the drawing) with a dusty air inlet pipe 2, a dust collector 3 with a dust exhaust pipe 4 and an outlet pipe for purified air 5. The upper stage of the housing 1 is made in the form of two concentric coaxially installed pipes 6 and 7, with the formation between them of the output air channel 8, connected with the output pipe for purified air 5. The output air channel 8 is equipped with two successive sections: confuser 9 and diffuser 10, with it difuzorny portion 10 located in the rotary chamber 11 formed by the tapered fairing 12 mounted coaxially in the lower housing stage 1, and the walls of the latter. The lateral surface of the cone-shaped fairing 12 is made with holes 13 for the passage of injected gas, and its base is made with a precipitation grill 14 for the dispersed particles of the cleaned gas to pass into the dust collector 3. The lateral surface of the cone-shaped fairing 12 and the outer surface of the diffuser section 10 form tapering in the direction of the precipitation lattice 14 cone-shaped fairing 12 nozzle 15.

Inertial vacuum dust collector operates as follows.

The dust and gas stream through the nozzle of the inlet of dusty air 2 enters the narrowing nozzle 15, at the outlet of which, due to its narrowing, the flow rate increases, which ensures the preservation of the laminar structure of the gas stream. Next, the accelerated flow of dusty air enters the rotary chamber 11 and, moving along the surface of the fairing, turns around arrow C, losing its speed. Due to the pressure difference at the exit of the nozzle 15 and in the rotary chamber 11 (about 30-40 mm water column), dust particles are sucked into the rotary chamber 11, and from there through the precipitation grid to the dust collector 3. Through holes 13 on the side surface conical fairing 12 is the suction of air from the dust collector 3. The pressure in the dust collector 3 is less than or equal to the pressure in the rotary chamber 11 and the deposition of dust particles occurs due to gravitational forces.

Driving draft, providing the movement of the medium in the dust collector, creates a smoke exhaust (not shown).

The purified air through the diffuser section 10 enters the outlet air channel 8 and from it to the outlet pipe for purified air 5.

A prototype inertial vacuum dust collector has been successfully tested at Vikhr LLC, Omsk.

The inventive design allows efficiently and at the lowest cost to solve environmental problems of environmental protection. The cleaning efficiency of suspended particles of any fraction is 99.6%. This provides a significant reduction in aerodynamic drag, erosion safety of the equipment in use, the ability to operate in a wide temperature range, high reliability of the equipment.

Claims (2)

1. Inertial-vacuum dust separator comprising a housing, a dusty air inlet nozzle, a dust collector located in the lower part of the housing, and a cleaned air outlet pipe, characterized in that the housing is stepped, and the upper housing stage is made in the form of two coaxial concentric pipes with the formation between them of the output air channel associated with the output pipe of purified air, and the output air channel has an upper diffuser section and a lower confuser section, which is included in the lower stage of the casing, which is equipped with a cone-shaped fairing with a precipitation grid at the base, located coaxially with the casing and forming a nozzle tapering towards the precipitation lattice of the cone-shaped fairing with the outer surface of the confluent grating. 2. The inertial vacuum dust separator according to claim 1, characterized in that openings for the passage of injected gas are made on the side wall of the cone-shaped fairing.