RU1834711C - Two-zones electric filter for gases purification - Google Patents

Abstract

Usage: purification of gases from solid and liquid particles using an electric field corona discharge and in low-dusting technological processes. SUMMARY OF THE INVENTION: An electrostatic precipitator comprises a gas distribution grid arranged in series, a charging and settling chamber. The bottom of the chamber is made in the form of grounded parallel plates, between which a corona electrode is located. At the inlet of the charging chamber, a hub is installed between the grounded plates in the form of flat louvers forming channels for the passage of the gas to be cleaned. The channels are inclined to the corona electrode and are located symmetrically with respect to the plane of symmetry of the electrostatic precipitator passing through the corona electrode parallel to the grounded plates. The outputs of the channels of the hub are located on a cylindrical surface, the axis of which is located behind the hub. The precipitation chamber is made in the form of flat electrostatic electrodes. 1 tablet, 2 ill. (L C

Description

The invention relates to the field of gas purification from solid and liquid particles using an electric corona discharge field and can be used for cleaning aerosols generated during welding, as well as for gas purification in small-sized dusty technological processes.

The purpose of the invention is to efficiently charge by increasing the fraction of particles entering the high-tension zone and reducing the shielding of this zone.

In a double-zone electrostatic precipitator for gas purification, containing, as known.

a gas distribution grid arranged in series along the gas, a charging chamber in the form of grounded parallel plates, between which at least one high-voltage corona electrode is located, and a cooling chamber in the form of flat parallel electrostatic electrodes, the technical problem is solved by that the electrostatic precipitator is equipped with a concentrator installed between grounded plates at the inlet of the charging chamber, made in the form of two groups of flat

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louvers forming channels for the passage of the gas to be cleaned, inclined to the corona electrode and symmetrical with respect to a plane passing through the corona electrode parallel to the grounded plates, with the outputs of the concentrator channels being arranged on a cylindrical surface with an axis lying behind the concentrator.

The presence of a concentrator of this design provides an increase in the concentration of particles in the region adjacent to the corona electrode. This region is characterized by increased interelectrode gap. A longer stay of particles in the field of high field strength leads to an increase in the degree of charge of the particles. In addition, the collision of jets of air leaving the channels of the concentrator provides mixing of the gas to be cleaned, which reduces the degree of particle deposition in the charge chamber. At the same time, the probability of entrainment of particles deposited in the charge chamber is reduced, which, in turn, reduces the overall degree of undercharging of particles. Placing the outlet sections of the concentrator channels on a cylindrical surface helps to maintain the symmetry of the flow relative to the plane of symmetry passing through the corona electrode.

Figure 1 is a longitudinal section of an electrostatic precipitator; Fig. 2 is a plan view of a charging chamber.

. A double-hole electrostatic precipitator for cleaning gases from solid and liquid particles includes a housing 1 with inlet 2 and outlet 3 nozzles, a gas distribution grid 4 installed in it sequentially one after another, a charge chamber 5 in the form of grounded plates 6 parallel to each other, forming a channel for gas to be purified, and the sweat of at least one high-voltage corona electrode 7, a precipitation chamber 8 in the form of parallel flat electrostatic electrodes 9 and a suction fan 10.

The electrostatic precipitator is equipped with a concentrator 11 mounted between the grounded plates 6 of the charging chamber 5 from the side of the gas distribution grill 4 and made in the form of flat louvers 12 with the formation of two groups of channels 13 and 13, mirror symmetric with respect to the plane 14 passing through the corona electrode 7 parallel to the grounded plates 6 of the charging chamber 5, and in each group the channels 13 and 13 are parallel to each other, and the channels closest to the grounded plates of the charging chamber 5 are directed to the longitudinal axis of the first along the way cleaning gas of the corona electrode 7. The edges of the shutters 12 closest to the corona electrode 7 are arranged along a cylindrical surface 15 convex towards the gas distribution grid 4. The corona electrode 7 and one of the plates of the precipitation

the cameras are connected to high constant voltage sources (not shown in the drawings).

The electrostatic precipitator works as follows

way. The gas to be cleaned, which is sucked in by the fan 10 through a similar pipe, passes through the gas distribution grid 4, where large particles are collected and the flow is aligned over the cross-section of the electrostatic precipitator, enters the charge chamber 5. The concentrator 11 located at the inlet of the charge chamber 5 is divided by channels louvre the stream of gas to be cleaned into separate jets and directs them to

the plane of symmetry of the electrostatic precipitator (plane 14) passing through the corona electrode parallel to the grounded plates 6.

These jets concentrate the stream of gas to be purified in region A, covering the plane of symmetry of the electrostatic precipitator. This region is characterized by an increased electric field strength; therefore, the removed particles acquire

a larger charge, which leads to their better deposition in the precipitation chamber 8 and an increase in the degree of gas purification. Particles deposited in the chamber 8 are held on its plates or are pressed into a bunker below them (not shown in the drawings).

A longer path to the precipitation electrode (grounded plate 6) from the area of the corona electrode 7 and increased mixing of the gas to be cleaned in the charge chamber 5 reduce the deposition of particles in the charge chamber 5, which helps to stabilize the electric mode (the improved charge of the particles is stabilized) and increases the service life charge chamber and

electrostatic precipitator as a whole.

In addition, the concentrator 11 acts as a turbulator, creating additional mixing of the gas to be purified and reducing the degree of particle deposition in the charge chamber.

Thus, increasing the degree of sedimentation of the particles of the gas to be cleaned (by increasing the degree of charge of the particles) and increasing the life of the electrostatic precipitator (by reducing the degree of pollution of the charge chamber) increase the efficiency of the electrostatic precipitator.

The results of the dual-zone electrostatic precipitator are shown in the table.

From its data it follows that the efficiency of gas cleaning is improved when using the proposed device in comparison with the prototype.

Formula of the invention

A dual-zone gas purification electrostatic precipitator, comprising a gas distribution grid arranged in series along the gas, a charging chamber in the form of grounded parallel plates, between which at least one high-voltage corona electric

trod. and a precipitation chamber in the form of flat parallel electrostatic electrodes, characterized in that the electrostatic precipitator is equipped with a concentrator installed between the grounded plates at the inlet of the charging chamber, made in the form of two groups of flat louvers forming channels for the passage of the gas to be cleaned, inclined to the corona electrode and symmetrical with respect to the plane passing through the corona electrode and parallel to the grounded plates, and the outputs of the concentrator channels are located on a cylindrical surface spine with an axis lying outside the hub.

.Results of cleaning a dual-zone electrostatic precipitator when cleaning welding

aerosol

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