RU2680550C1 - Electric filter corona-forming electrode - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrostatic precipitators for cleaning gases from dust. Electrode includes the housing made of a metal strip with elements located along its longitudinal sides with fixed corona discharge firing points and with the means for fastening at the ends of the strip. Elements are made in the form of serrate teeth or needles and are arranged in sections, each of which consists of eight serrated teeth of varying height or needles arranged symmetrically four on each longitudinal side of the strip and made by means of a cut. Serrate teeth or needles are curved so that the prominent directions of the teeth or needles are set in eight directions, and the sharp ends of the teeth or needles, which are the ignition points, were located on a single virtual circumscribed circle to create a single corona point with respect to the precipitation electrode. Distance from the ignition points to the inner surface of the precipitation electrode is not more than 100 mm.EFFECT: invention provides for an increase in the degree of gas purification.8 cl, 6 dwg

Description

The invention relates to electrostatic precipitators for cleaning gases from suspended dust particles.

Known corona electrode of an electrostatic precipitator with fixed corona points according to patent GB 1575404, in which each corona element has two bit tips, bent in opposite directions, which leads to an unstable distribution of electric current due to the presence of "dead zones".

The closest analogue of the invention is a corona electrode of an electrostatic precipitator, which contains a plate and triangular teeth on the side of the plate, which can be bent at different angles to form 6 discharge points to form one corona point (see CN 202700653).

A disadvantage of the known electrode is the complexity of manufacturing elements and the lack of corona points, which leads to the presence of "dead zones".

The technical result of the invention is to increase the efficiency of gas purification of electrostatic precipitators, simplifying the design, reducing the dustiness of the electrode itself, the possibility of using an electrode with precipitation electrodes of various shapes, given their geometry and the most remote "stagnant" zones. The electrode according to the invention almost completely closes the passage through the corona discharge, reducing the presence of "dead zones", and thereby increases the degree of purification of gas from electrostatic precipitators.

The reduction in the sticking of suspended dust particles occurs due to the small area of dust contact with the teeth and the polished surface, and installation simplification is ensured by the articulation of several electrodes.

The technical result is achieved by the fact that the corona electrode of the electrostatic precipitator for working with the precipitation electrode comprises a body of a metal strip with elements located along its longitudinal sides with fixed corona discharge points and means for fastening at the ends of the strip, the elements being made in the form of sawtooth teeth or needles and arranged in sections, each of which consists of eight sawtooth teeth or needles of different height, arranged symmetrically four in each longitudinal First side strips and made by cutting. In this case, the sawtooth teeth or needles are bent so that the prominent directions of the teeth or needles are set in eight directions, and the sharp ends of the teeth or needles, which are the ignition points, are located on a single virtual circumscribed circle to create one corona point with respect to the precipitation electrode, and the distance from the ignition points to the inner surface of the precipitation electrode is not more than 100 mm.

In the electrode, the strip is made of carbon or heat-resistant steel, or a titanium alloy, the bending angle of the teeth or needles is made from 25 ° to 55 ° to create a dense, stable electric field.

Means for attaching an electrode with an electrostatic precipitator and in a set with at least another electrode are made articulated with at least another electrode, made articulated.

In the manufacture of the electrode surface is polished to reduce dust buildup.

The distance between the beginning of the cut of adjacent teeth or needles is 1 to 4 mm.

The diameter of the circumscribed circle is from 25 to 60 mm, which contributes to the creation of a dense stable electric field.

In the electrode, the height of the 2 extreme teeth or needles of each section on each side is less than average so that when bending at different angles, the tips of the teeth or needles are evenly spaced around the circumference of the same diameter.

In FIG. 1 shows an electrode, a general view;

In FIG. 2 - section of the corona electrode with bent teeth indicating the value of the angle of the bend of the teeth, top view;

In FIG. 3 - corona and precipitation electrode;

In FIG. 4 - electrode section with sawtooth non-curved teeth (on an enlarged scale);

In FIG. 5 shows comparative data on the amount of applied voltage to the corona electrodes to create a corona discharge of flat needle corona electrodes in comparison with the closest analogue;

In FIG. Figure 6 shows comparative data on the degree of gas purification from dust when using flat-needle corona electrodes in comparison with the closest analogue.

The electrode comprises a housing 1 in the form of a strip of carbon or heat-resistant steel, or a titanium alloy. Elements 2 with fixed corona discharge points are located on the strip along its longitudinal sides, and at the ends of the strip, means 3 are made for attaching the electrode to the filter or using a hinge for that. Elements 2 are arranged in sections, each of which consists of eight sawtooth teeth or needles of different heights, arranged symmetrically four on each longitudinal side of strip 1 and made by cutting. In this case, the sawtooth teeth or needles are bent at an angle in the range from 25 ° to 55 ° so that the outstanding directions of the teeth or needles are set in eight directions, and the sharp ends of the teeth or needles, which are the ignition points, are located on a single virtual circle described for create one corona point with respect to the precipitation electrode. The height of the 2 extreme teeth or needles of each section on each side of the strip is less than average (see Fig. 4) so that when bending to different angles of the tip of the teeth or needles about a circle of one diameter evenly. The distance between the precipitation and the corona electrode is not more than 100 mm. An increase in the distance between the corona and precipitation electrode more than 100 mm leads to a decrease in the electric field by ≈15 ÷ 20%, which in turn will entail a decrease in the efficiency of gas purification. Reducing the distance by less than 100 mm is also not recommended due to the manifestation of the “reverse corona” effect caused by an increase in the dust layer on smaller diameter pipe electrodes with the same gas volume.

An example embodiment of the invention.

The cutting of the elements 2 on the strip is performed on a laser cutting machine, providing the necessary cutting accuracy and a smooth edge. After polishing the surface of the elements 2 on a surface grinder Grit GIL, with a grinding belt Trizact 237A6 (P2000, Ra = 0.25 ÷ 0.2 μm), pairwise bend the elements 2 at the required angle on the stamp.

Additional polishing of the surface of the corona electrode is carried out to reduce the size of the grain surface of the metal, which becomes smaller than the dust particles in the gas to be cleaned. Adsorption films formed on the polished surface and on the surfaces of particles of metal dust prevent them from sticking to each other by reducing the surface roughness, removing static charge, and reducing the "stickiness" of the material.

The bending angle of the elements in the range from 25 to 55 ° is carried out to form a single circumscribed circle, that is, to form one corona point with respect to the precipitation electrode, as a result of which the high efficiency of the corona electrode paired with a precipitation electrode of various shapes is ensured, given their geometry and the most remote "stagnant" zones.

The distance between the beginning of the cut of adjacent elements is from 1 to 4 mm to ensure the regulation of the corona current due to a change in the distance between the ends of the elements. The gas to be cleaned at the inlet of the electrostatic precipitator chamber contains a greater amount of suspended particles (more polluted), therefore, the elements located at the gas inlet are subjected to a higher dust load, which leads to an uneven distribution of the electromagnetic field along the length of the electrode. In this regard, an element is proposed with a cut of adjacent elements of 4 mm to reduce the corona current, which leads to a reduction in the adherence of dust particles to the initial gas path, which ensures uniform deposition of suspended dust particles along the length of the settling and corona electrodes.

With an increase in the cutting distance between elements 2 more than 4 mm, there is also a decrease in the degree of gas purification, due to a decrease in the average current density due to a decrease in the number of elements 2.

In addition, the height of the elements of the corona electrode can vary in the range of 25-28 mm. A further decrease in the height of the elements is impractical due to an excessive decrease in the corona current. The height of the elements 25 and 28 mm is due to the existing interelectrode distance in the electrostatic precipitators, since a further increase in the height of the elements leads to an unacceptable decrease in breakdown voltage in the electrostatic precipitator.

Thus, in the corona electrode, the corona current can be regulated in the following ways: by using corona elements 2 with different distances between the elements and with different heights. This allows a fairly wide regulation of the corona current in the electrostatic precipitator.

This type of corona electrode provides for its tension to ensure alignment of the corona electrode with respect to the precipitation electrode. The width of the carrier strip 1 is 10-30 mm with a thickness of 1 mm and depends on the magnitude of the interelectrode gap of the electrostatic precipitator. For large values of the interelectrode gap, the maximum bandwidth is adopted.

The electrodes are pivotally connected to each other and at the points of suspension, which makes it possible to produce a set of corona electrodes of the required length. The swivel joint provides sufficient rigidity of the design of the element of the corona electrode, guaranteeing a long service life when working in intense aerodynamic conditions of operation of the electrostatic precipitator. A set of electrodes is possible in an amount determined by the requirement of the Customer. The main advantage of the swivel is the ability to mount the electrodes through any technological holes of the filter, in contrast to the electrode according to the patent CN 202700653.

The invention improves the degree of gas purification by an electrostatic precipitator at a reduced voltage, due to the higher corona current obtained when bending elements 2 of different heights, which ensures a complete overlap of the flow cross section of the active part of the electrostatic precipitator by corona discharge without the formation of "dead zones", thereby increasing the degree of purification the efficiency of the electrostatic precipitator. The cleanliness of the surface treatment and the design of the electrode by reducing the area of contact of dust with its polished surface ensures the absence of adhesion of suspended dust particles.

Claims (8)

1. The corona electrode of the electrostatic precipitator to work with the precipitation electrode, comprising a housing of a metal strip with elements located along its longitudinal sides with fixed corona discharge points and means for fastening at the ends of the strip, the elements being made in the form of sawtooth teeth or needles and arranged in the form sections, each of which consists of eight sawtooth teeth or needles of different height, arranged symmetrically in four on each longitudinal side of the strip and made in the middle by cutting, while the sawtooth teeth or needles are bent so that the prominent directions of the teeth or needles are set in eight directions, and the sharp ends of the teeth or needles, which are the ignition points, are located on a single virtual circumscribed circle to create one corona with respect to precipitation electrode, and the distance from the ignition points to the inner surface of the precipitation electrode is not more than 100 mm 2. The electrode according to claim 1, in which the strip is made of carbon or heat-resistant steel, or a titanium alloy. 3. The electrode according to claim 1, in which the angle of bending of the teeth or needles is performed from 25 ° to 55 ° to create a dense, stable electric field 4. The electrode according to claim 1, in which the means for attaching the electrode with an electrostatic precipitator and in a set of at least another electrode is hinged. 5. The electrode according to claim 1, in which the surface of the electrode during manufacture is polished to reduce dust buildup. 6. The electrode according to claim 1, in which the distance between the beginning of the cut of adjacent teeth or needles is from 1 to 4 mm. 7. The electrode according to claim 1, in which the diameter of the described circle is from 25 to 60 mm, which contributes to the creation of a dense stable electric field 8. The electrode according to claim 1, in which the height of the 2 extreme teeth or needles of each section on each side is less than average so that when bending at different angles, the tips of the teeth or needles are evenly spaced around the circumference of the same diameter.

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