RU8629U1 - FILTER FOR CLEANING GAS FROM LIQUID AEROSOL PARTICLES - Google Patents

Abstract

A filter for cleaning gas from liquid aerosol particles, comprising a housing with inlet and outlet nozzles, a cone-shaped filter element made of porous material and a cone-shaped collector with a drain nozzle mounted under the top of the element, characterized in that the conical collector is made with hollow walls, the inner part of which is connected with each other with the formation of a conical cavity in which the top of the filter element is placed, and the cavity of the walls of the conical collector and their upper part is in communication with the hollow radial nozzles, with ejection holes, and the filter element is equipped with perforated tubes placed in the thickness of its wall parallel to forming a cone, the lower ends of which are placed in the lower part of the cavity of the conical collector.

Description

GAS CLEANING FILTER FROM KEYKH AEROSOL PARTICLES

The proposed utility model relates to purification equipment and is intended for the purification of gases from dispersed liquid aerosol particles during the purification of gaseous media, for example, in exchangers in the chemical, petrochemical, and other industries.

Known filter for gas purification "from liquid aerosol particles, containing a housing with inlet and outlet nozzles, a cone-shaped filter element and a fluid collector with a drain (see.a.s.SSSR M327933, M.cl.6 V01D 45/12 publ. 1986. )

A disadvantage of the known device is significant spraying due to the low efficiency of the self-regeneration process.

The closest known technical solution in its essence and the achieved result is a filter for gas purification from liquid aerosol particles, comprising a housing with inlet and outlet nozzles, a cone-shaped filter element made of porous material and a cone-shaped collector with a drain pipe mounted under the top of the element (see .SSSSR M590IIO, M.kl.6 V01D 46/02, publ. 1990)

In the known device, the trapped liquid flows down the wall of the filter element and is discharged from the housing through a conical collector. However, due to the fact that the liquid flows almost towards the gas stream, a significant part of the spray - toast is picked up by the cleaned stream and redispersed in it, causing re-contamination. Due to the fact that the liquid flows down the wall of the filter element only under the influence of its own weight, the rate of liquid removal from the pores of this element is insufficient, which creates favorable conditions for it to be picked up again by gas to the outlet pipe,

high.

The technical task of the proposed utility model is to increase the efficiency of gas purification.

The technical result is achieved as follows: & filter for cleaning gas from liquid aerosol particles, comprising a housing with inlet and outlet nozzles, a cone-shaped filter element made of porous material and a cone-shaped collector with a drain pipe mounted under the top of the element, the cone-shaped collector is made with hollow walls, inner part of which is interconnected with the formation of a conical cavity in which the top of the filter element is located, the cavity of the walls of the conical collector in their upper part The part is connected with hollow radial pipes, with ejection openings, and the filter element is equipped with perforated tubes placed in parallel with the cone in the thickness of its wall, the lower ends of which are placed in the lower part of the cavity of the conical collector.

Performing a conical collector with hollow walls, connecting the inner part of the walls with each other to form a conical cavity, placing the vertices of the filter element in this cavity, communicating the cavity of the walls of the conical collector in their upper part with hollow radial nozzles, supplying these nozzles with ejection holes, installing them in the filter element perforated tubes placed in the thickness of its wall parallel to the forming cone, the installation of the lower ends of the tubes in the lower part of the cavity of the conical collector allows t to ensure the suction of liquid from the pores of the filter element under the action of ejection and thereby reduce braegonos.

Figure 1 schematically shows the proposed filter for cleaning gas from liquid aerosol particles

In FIG. 3- node A

The filter comprises a housing I with inlet and outlet nozzles 2 and 3, a cone-shaped filter element 4 made of porous material and a cone-shaped collector 5 with a drain pipe 6 mounted under the top of the element. The collector 5 is made with hollow walls, the inner part of which is connected to form a conical cavity 7, in which the top of the filter element 4 is located. The cavity 8 of the walls of the conical collector 5 is in communication with the hollow radial pipes 9 with sectional openings 10. The filter element 4 is provided with perforated tubes II, placed in the thickness of its stitches, parallel to forming a cone. The lower ends of the tubes II are located in the lower part of the cavity 8 of the conical conduit 5

The filter works as follows:

The initial gas stream entering the cone through the pipe 2 is dissected by a cone-shaped collector 5. As the gas stream passes through the filtering element 4, inertial deposition of droplets in the pores of the wall of the filtering element and their coagulation takes place. Under the influence of the vacuum in the tubes II, which is formed as a result of ejection from the cavity 8 through the openings 10 of the tubes 9, the liquid located in the pores of the filter element is sucked off and drained to the bottom of the cavity 8, from where it is removed from the filter through the pipe 6. Part of the liquid that accumulates at the bottom of the conical cavity 7 is absorbed through the perforation into the tubes II and flows to the bottom of the cavity 8. The purified gas is sent to the consumer through the pipe 3.

Due to the fact that the ejection from the cavity 8 takes place in the upper part of the hollow walls of the collector 5, i.e., at a considerable distance from the lower part of the tubes П, liquid droplets flowing from the tubes II into the cavity 8 are not entrained in the gas stream flowing around the radial tubes 9.

gas due to the forced suction of liquid from the pores of the filter element, due to the installation of perforated tubes in the thickness of the wall of the filter element connected to the cavity of the cone-shaped cone under the discharge, which allows reducing spraying and its repeated dispersion in the stream of purified gas by the outlet pipe.

Claims (1)

A filter for cleaning gas from liquid aerosol particles, comprising a housing with inlet and outlet nozzles, a cone-shaped filter element made of porous material and a cone-shaped collector with a drain nozzle mounted under the top of the element, characterized in that the conical collector is made with hollow walls, the inner part of which is connected with each other with the formation of a conical cavity in which the top of the filter element is placed, and the cavity of the walls of the conical collector and their upper part communicates with hollow radial nozzles, with ejection holes, and the filter element is equipped with perforated tubes placed in the thickness of its wall parallel to forming a cone, the lower ends of which are placed in the lower part of the cavity of the conical collector.