RU159862U1 - DEVICE FOR COMBINED CLEANING OF GAS MEDIA - Google Patents

Abstract

A device for combined cleaning of gaseous media, including positively and negatively charged electrodes and an electric field created between them, as well as an inlet pipe for supplying a cleaned gas medium to the interelectrode space and a scraper for removing particles from a positively charged electrode, characterized in that as a positively charged the rotor is used, and the negatively charged electrode is made in the form of a concentric section with a screw, and the device further comprises a pipe-row Ku with nozzles for water-air gas purification disposed on top of the electrostatic purification zone, and water supply and discharge pipes.

Description

The utility model relates to means for cleaning gas environments and can be used to purify process air of various production processes, exhaust gases of vehicles, air in domestic premises, etc.

Known, for example, a straight-through separator of gas-liquid flow (patent RU 2163162, BO1D 45/04, published 02.20.2001), which contains a casing pipe with a nozzle and a separation pipe. The outlet pipe of the separated gas stream is brought out through the wall of the body pipe. The lower part of the body pipe is made in the form of a confuser, through the end of which the outlet of the direct separation pipe and the coaxial additional drain pipe are brought out.

The closest analogue is (patent RU 2343964, B01D 53/32, BO3C 3/00, published 10.08.2008). A device for cleaning gaseous media, including positive and negative electrodes connected to an electric energy source that creates an electric field in the interelectrode space, as well as means for supplying a cleaned gaseous medium to the interelectrode space, characterized in that the positive electrode is made in the form of a flat cylindrical body and installed with the possibility of moving in the opposite direction to the gas medium supply relative to the fixed negative electrode and creating electric field between the electrodes, wherein the device is provided with a device for automatic cleaning of the surface of the positive electrode formed in a fixedly mounted scraper, interacting with the outer surface of the positive electrode.

However, this device has a low cleaning efficiency, because only particles are released from the gaseous medium, and various toxic gas components remain.

The objective of the proposed utility model is to increase the cleaning efficiency due to additional purification of the gaseous medium with a water-air mixture.

The essence of the utility model is that a device for combined cleaning of gaseous media, including positively and negatively charged electrodes and an electric field created between them, as well as an inlet pipe for supplying a cleaned gas medium to the interelectrode space and a scraper for removing particles from a positively charged electrode, in this case, a rotor is used as a positively charged electrode, and a negatively charged electrode is made in the form of a concentric section with a screw and a device for additionally comprises a comb-tube with nozzles for water-air gas purification disposed on top of the electrostatic purification zone, and water supply and discharge pipes.

The installation of a concentric section with a screw increases the duration of chemical adsorption upon contact of the gas stream and the sprayed water. At the same time: the liquid (water) introduced into the gas (air) stream moves at high speed, crushed into small droplets (finely dispersed suspension) envelops the suspension particles (the liquid fraction and the suspension merge), as a result of which the enlarged suspensions are guaranteed to be captured by a washing dust collector.

The essence of the utility model is illustrated by drawings, where in FIG. 1 is a side view, FIG. 2 - section of the device.

The device comprises a rotating rotor 1 positively charged relative to the fixed body of the device 2. The body of the device 2, negatively charged, is made in the form of a concentric section 3 with a screw fixed to it (not indicated in the drawing). Inside the section 3 of the housing 2, electrostatic cleaning of the gas flow through the inlet pipe 4 is carried out. To separate the solid particles from the positively charged rotor 1, a fixed scraper 5 is used, which separates the settled particles from the rotor 1 that fall into a separate container 6. Into the pipe-comb 7 water is supplied through the nozzle 8 for secondary adsorption purification of the gas mixture, which is supplied under pressure through nozzles 9 on the comb pipe 7 to section 10. Mixed with a dispersed mixture of water and air, the gas passes to the outlet one pipe 11, through which it enters the tank for collecting water 12, where condensation and water drain through the pipe 13, as well as the removal of purified gas through the pipe 14. The device is grounded - 15 and has electrical insulation 16. Section 3 is equipped with a receiver of solid materials 17 .

The device operates as follows. The gas medium is supplied through the inlet pipe 4 to the electrostatic cleaning zone, which is the space between the surface of a positively charged rotor 1 rotating towards the supplied gas and the negatively charged surface of the housing 2, which separates the electrostatic cleaning zone from the adsorption cleaning zone. Particles of a contaminated gas medium falling into the zone of action of a strong electrostatic field are polarized and attracted to the outer surface of the positively charged rotor 1. The scraper 5, which is fixedly mounted on the housing 2, ensures constant removal of particles adhering to the rotor 1 and the cleaning of the rotor surface 1. Removed particles gravity falls into a sealed container 6, which is subject to periodic cleaning and partially to the receiver of solid materials 17. Passing through the area of electrostatic cleaning almost complete cr g, gas, through a special hole enters the adsorption purification zone 10, where it is mixed with a dispersed mixture of water and air supplied to the comb pipe 7 under pressure through the nozzle 8 and nozzle 9. Interacting with the dispersed medium, the gas medium is subjected to additional purification due to absorption of pollutants by a dispersion medium. Passing through the adsorption purification zone an almost complete circle in the opposite direction, the mixture of water and gas passes through the outlet pipe 11 into the water collecting tank 12. Condensing water enters the pipe for water drainage 13, and the purified gas is discharged through the pipe 14.

Claims (1)

A device for combined cleaning of gaseous media, including positively and negatively charged electrodes and an electric field created between them, as well as an inlet pipe for supplying a cleaned gas medium to the interelectrode space and a scraper for removing particles from a positively charged electrode, characterized in that as a positively charged the rotor is used, and the negatively charged electrode is made in the form of a concentric section with a screw, and the device further comprises a pipe-row Ku with nozzles for water-air gas purification disposed on top of the electrostatic purification zone, and water supply and discharge pipes.

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