RU74582U1 - ELECTRIC FILTER - Google Patents

Abstract

1. An electrostatic precipitator containing a housing, an electrode system placed in it in two tiers, consisting of a set of vertical precipitation and corona electrodes with a shaking mechanism, and hoppers in two tiers located between the tiers of the electrodes and under their lower tier, characterized in that the height of the lower the tier of the electrodes exceeds the height of the upper tier of the electrodes by no more than 30%, while the bunkers located under the lower tier of the electrodes are slotted and equipped with reflectors installed in the places where the dust and gas gather current 2. An electrostatic precipitator according to claim 1, characterized in that the bunkers located under the lower tier of the electrodes are mutually insulated along the dust and gas stream along the tiers.

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.

Known electrostatic precipitator containing a housing, placed in it in two tiers, an electrode system consisting of a set of vertical precipitation and corona electrodes with a shaking mechanism and hoppers located between the tiers of the electrodes and under their lower tier. (see certificate of authorship No. 1039571 WHO / 3/02, 1985).

The disadvantages of the known electric filter is that it has an active section of the lower tier less, due to the use of part of the gas trips to drain the dust of the upper tier. This reduces the efficiency of gas cleaning, because it is required to carry out the redistribution of gas flows along tiers with a change in the dynamics of flows, the reliability and efficiency of the electrostatic precipitator.

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

The problem is solved due to the fact that the electrostatic precipitator contains a housing, an electrode system placed in it in two tiers, consisting of a set of vertical precipitation and corona electrodes with a shaking mechanism and hoppers in two tiers located between the tiers of the electrodes and under their lower tier, while the height of the lower tier of the electrodes exceeds the height of the upper tier of the electrodes by no more than 30%, while the bunkers located under the lower tier of the electrodes are slotted and equipped with reflectors installed in yes dust and gas flow.

In the electrostatic precipitator, the bunkers located under the lower tier of the electrodes can be made mutually isolated along the dust and gas stream along the tiers.

The implementation of the lower tier of electrodes with a height exceeding the height of the upper tier by no more than 30% increases the efficiency of the electrostatic precipitator, because allows you to compensate for the active surface of the first tier due to the need for dust removal from the upper tier. This will allow for efficient distribution of the dust and gas stream over the tiers of the electrostatic precipitator, as a result of which complex redistribution of the dust and gas stream is not required.

The proposed difference in the height of the electrodes of the lower and upper tiers has proved to be the most simple and optimal for the redistribution of dust and gas flow over tiers, which increases the efficiency of the electrostatic precipitator and reduces its hydraulic resistance.

The drawing shows the described electrostatic precipitator.

The electrostatic precipitator contains a housing 1, an electrode system consisting of a set of vertical precipitation 2 and corona electrodes 3, which are arranged in alternating sequence with the same distance between the electrodes of the same name. In the electrostatic precipitator between the tiers of the electrodes there are 4 intermediate bins, and the lower tier is equipped with bunkers 5. The height of the lower tier of the electrodes exceeds the height of the upper tier, but by no more than 30%.

The electrostatic precipitator works as follows:

the dust and gas stream enters the inlet chambers of the electrostatic precipitator of each tier and through gas distribution devices distributed over the active section of the electrostatic precipitator, the dust and gas stream enters the electrode systems of the lower and upper tiers, consisting of a set of sedimentary 2 and corona 3 electrodes, where dust particles are deposited under the influence of an electric field of

gas flow at the electrodes. By the mechanism of shaking, the deposited dust enters the intermediate hopper 4, then into the hopper 5 through slotted channels 6 connecting the outlet openings of the hoppers 4 with the hoppers 5.

Dusty gas passes through several electric fields during its movement through the electrostatic precipitator, it is cleaned of dust and leaves the electrostatic precipitator in the exhaust gas duct, and the trapped dust is discharged from the lower bunkers.

Thus, the implementation of the electrodes of the lower tier in height by no more than 30% of the electrodes of the upper tier increases the efficiency of the electrostatic precipitator and the quality of cleaning due to the distribution of the dust and gas stream in the tiers of the electrostatic precipitator in such a way that the dust load on the electrodes of both tiers becomes the most optimal.

Claims (2)

1. An electrostatic precipitator containing a housing, an electrode system placed in it in two tiers, consisting of a set of vertical precipitation and corona electrodes with a shaking mechanism, and hoppers in two tiers located between the tiers of the electrodes and under their lower tier, characterized in that the height of the lower the tier of the electrodes exceeds the height of the upper tier of the electrodes by no more than 30%, while the bunkers located under the lower tier of the electrodes are slotted and equipped with reflectors installed in the places where the dust and gas gather current. 2. The electrostatic precipitator according to claim 1, characterized in that the bunkers located under the lower tier of the electrodes are mutually insulated along the dust and gas stream along the tiers.