RU70825U1 - ELECTRIC FILTER - Google Patents

Abstract

An electrostatic precipitator belongs to the field of electric cleaning of gases and dust (dispersed suspensions) and can be used mainly in the power industry, in the chemical, metallurgical and building materials industries. The objective of the invention is to increase the degree of purification of gases from dust and the reliability of its operation. The problem is solved due to the fact that the electrostatic precipitator, comprising a housing with a diffuser and a confuser respectively at the inlet and outlet, settling and corona electrodes with a suspension system located in the housing, gas distribution elements installed in the diffuser, a shaking mechanism, power supply and bunkers, is equipped with a zone a confuser with a gas distribution grid fixed in its upper part at a distance of 30-60% of the height of the electrodes and with latches located symmetrically relative to the vertical axis of the grid tissue, with the possibility of moving its lower part horizontally in the direction of gas flow, and the amplitude of the gas distribution lattice relative to the latches is from 50 to 100% of the lattice width, while the height of the gas distribution lattice is 40-70% of the height of the electrodes from the lower edge of the confuser , and its living section is at least 50%.

Description

The proposed electrostatic precipitator belongs to the field of electric dust cleaning of gases (dispersed suspensions) and can be used mainly in the power industry, in the chemical, metallurgical and building materials industries.

An electrostatic precipitator is known, which contains a housing with a diffuser and a confuser, respectively, at the inlet and outlet, precipitation and corona electrodes with a suspension system located in the housing, gas distribution elements installed in the diffuser, a shaking mechanism, power supply and bunkers (see the Dust Collector Ed. A. A. Rusanova, Moscow, "Energy", 1975, from 188-190).

The disadvantages of the known electric filter is that it does not have sufficient efficiency, since during operation the dust and gas stream during movement does not fall completely into the space between the corona and precipitation electrodes, where particles are charged and deposited, and some part of the stream flows uncleaned from the last hopper. In addition, the cause of the ejection of previously trapped dust is its ingress into the cleaned gas stream after regeneration of the electrodes of the last field of the electrostatic precipitator, since the active part of the electrostatic precipitator has ended, and the higher the electrode system, the higher the emissions. The above disadvantages reduce the degree of purification of gases from dust and the reliability of the electrostatic precipitator.

The objective of the utility model is to increase the degree of gas purification from dust and increase the reliability of the electrostatic precipitator.

The problem is solved due to the fact that the electrostatic precipitator, comprising a housing with a diffuser and a confuser, respectively, at the inlet and outlet, located in the housing sedimentation and corona electrodes with

suspension system, gas distribution elements installed in the diffuser, shaking mechanism, power supply and hoppers, equipped with a gas distribution grill installed in the confuser zone, fixed in its upper part at a height of 30-60% of the height of the electrodes with the possibility of moving its lower part horizontally in the direction of movement gas flow, and the latches, located symmetrically relative to the vertical axis of the lattice, and the amplitude of the gas distribution lattice relative to the latches was is from 50 to 100% of the lattice width, the height of the gas distribution grid constitutes 40-70% of the height of the electrodes from the lower edges of the converging tube and its open area is at least 50%.

The installation of an additional gas distribution grill immediately after the active zone of the electrostatic precipitator provides a reduction in the influence of inactive zones of the electrostatic precipitator of the hopper part with some redistribution of the gas flow emerging from the active part of the electrostatic precipitator, which reduces the influence of the last field regeneration on the residual dust content of gases and thereby increases the degree of gas purification from dust with increasing the reliability of the electrostatic precipitator.

In Fig.1 shows the described electrostatic precipitator, in Fig.2 node A of Fig.1.

The electrostatic precipitator contains a housing 1 with a diffuser 2 and a confuser 3 and hoppers 4. In the housing are precipitation electrodes 5, corona electrodes 6 with insulator boxes 7. The electrostatic precipitator contains a shaking mechanism 8 connected to a power source 9. Gas distribution elements 10 are installed in the diffuser 2 of the housing 1 and at the outlet of the electrostatic precipitator, a gas distribution grill 11 is installed in front of the confuser 11. The gas distribution grill 11 is fixed in the upper part at a height of 30-60% of the height of the electrodes with the possibility of movement its lower horizontal

direction of gas flow. The movement of the lower part of the lattice is limited by the latches 12. The amplitude of oscillations of the lattice 11 with respect to the latches is 50-100% of the width of the lattice. The living section of the installed lattice 11 is at least 50%, and its height is 40-70% of the height of the electrodes from the lower edge of the confuser.

The electrostatic precipitator works as follows. Dusty gas stream enters the electrostatic precipitator, passing a diffuser 2 with gas distribution elements 10 designed to ensure uniform distribution of dust and gas flow over the cross section of the electrostatic precipitator. In the active zone of the electrostatic precipitator, the dust and gas flow passes through the high voltage fields created by the high-voltage power sources between the precipitation 5 and the corona electrodes 6. Dust under the influence of an electric field moves to the precipitation electrodes 5 and settles on them, and the cleaned gas stream leaves the electrostatic precipitator. After the dust layer builds up on the electrodes, they are shaken. The trapped dust is removed from the electrodes by means of a regeneration system using a mass of hammers of a mechanism for shaking impacts periodically striking the electrodes. The regeneration device consists of a drive located outside the housing of the electrostatic precipitator connected to the shaft, on which shock elements of different weights for the corona 5 and precipitation electrodes 6, which are located on the shaft respectively of the shaken electrodes, are located. After shaking, the dust enters the hopper 4 of the electrostatic precipitator, from which it is removed.

Installing a gas distribution grill in the confuser zone allows you to redistribute the gas stream at the outlet of the electrostatic precipitator and thus significantly prevent dust entrainment after regeneration of the last field. The movement of the gas distribution grille with an amplitude of 50-100% of the width of the grill eliminates the sticking of dust on the grill, i.e. self-shaking occurs.

The proposed electrostatic precipitator due to the installation of a gas distribution grill in the confuser zone immediately after the electrostatic precipitator active zone provides redistribution of the gas flow, which reduces the influence of regeneration, i.e. the degree of gas purification from dust increases and the reliability of the electrostatic precipitator increases.

Claims (1)

An electrostatic precipitator comprising a housing with a diffuser and a confuser, respectively, inlet and outlet, settling and corona electrodes with a suspension system located in the housing, gas distribution elements installed in the diffuser, a shaking mechanism, power supply and hoppers, characterized in that it is equipped with a gas distribution grill installed in the confuser area fixed in its upper part at a distance of 30-60% of the height of the electrodes, and latches located symmetrically relative to the vertical axis of the grating, with the movement of its lower part horizontally in the direction of gas flow, and the amplitude of the gas distribution lattice relative to the latches is from 50 to 100% of the lattice width, while the height of the gas distribution lattice is 40-70% of the height of the electrodes from the lower edge of the confuser, and living section is at least 50%.