RU142115U1 - CORONING ELECTRODE - Google Patents

Abstract

A corona electrode containing a tape with needles made of tape bent perpendicularly to the plane of the tape, cut along the edge of the tape at an acute angle to the end line of the tape of triangular elements, characterized in that the tape is made from one of the sides of the corner profile.

Description

The invention relates to electrical cleaning of gases and can be used in various industries, energy, metallurgy, meteorology (active effects on the atmosphere), etc.

A corona electrode is known, comprising a tape body with a profiled central part and flat edge sections cut evenly from one point along two oblique lines directed from this point in different directions at an acute angle to the end lines with the formation of triangular tips bent to the sides of the plane of the edge sections. The tip formed by the inclined lines remains in the plane of the element body and has an angle between the inclined lines larger than the angle of the bent tips formed by the inclined line and the end line of the edge section. See RF patent for invention No. 2229939. Known corona electrode provides stable ignition of the corona and acceptable current-voltage characteristics of the corona discharge generation system. However, the well-known source is designed for specific circuits of electrostatic precipitators, in which the grounded electrodes are located on both sides of the corona electrode. The use of the known design of the corona electrode for cleaning systems where the precipitation electrode is made in the form of a lattice structure, mesh, porous structure, etc., where the direction of movement of the gas stream being cleaned coincides with the direction of the ion wind, reduces the efficiency of the cleaning system due to the high aerodynamic drag of the corona structure electrode. In addition, in the known construction, the triangular tips are bent in different directions from the plane of the edge sections, which is also convenient only for use in known designs of electrostatic precipitators, in which the grounded electrodes are located on both sides of the corona electrode.

The closest technical solution to the proposed is the corona electrode, a description of which is presented in the patent of the Russian Federation No. 2448779. The corona electrode according to the aforementioned patent contains a tape with needles cut with a pitch of 0.1 to 150 mm along the edges of the tape with needles in the range from 3 to 30 mm and a radius of curvature of the ends of the needles in the range from 0.01 to 0.5 mm. The profile of the central part of the described electrode fits into a circle with a diameter of 2-30 mm. Two rows of sharp needles are made in this electrode, the distance between which is fixed and completely covered by the electrode design, which prevents the free passage of the cleaned air towards the precipitation electrode and reduces the efficiency of ion wind generation. In addition, the known electrode does not allow for an arbitrary uniform pitch between the rows of needles in the corona discharge system, because the distance between two adjacent rows is determined by the electrode design, which reduces the efficiency of corona discharge generation and, as a result, reduces the efficiency of ion wind generation.

The aim of the proposed invention is to increase the efficiency of generation of ionic wind.

To achieve the stated goal in the known corona electrode containing a tape with needles made of bent perpendicular to the plane of the tape cut along the edge of the tape at an acute angle to the end line of the tape of triangular elements, the tape is made of one of the shelves of the corner profile.

In the proposed design of the corona electrode, the required rigidity of the electrode design is ensured by one of the flanges of the angular profile, the plane of which is parallel to the plane formed by the line of a number of corona needles and the normal from them to the precipitation electrode, i.e. in the direction of ionic wind generation. Such a design allows minimizing the resistance to the movement of the stream being cleaned from the corona electrode to the precipitation electrode, which makes it possible to increase the efficiency of ion wind generation.

Figure 1 shows a schematic representation of the proposed design of the corona electrode.

The corona electrode includes a corner profile. On one of its shelves, for example, shelf 1, along its edge 2, cuts are made at an acute angle α to its end line 2 with a certain step Δ 3. In the opposite direction from the direction of the second shelf 4 of the angular profile, the triangular needles 5 formed by cuts 3 are bent perpendicular to the plane of the shelf 1, in the direction of the intended direction of installation of the precipitation electrode 6. The cutting step Δ is determined by the design of the corona discharge generation system and is at least half the size of the gap of the discharge gap. The value of the angle of incision α is selected depending on the material of the angle profile from the condition of ensuring the radius of curvature of not more than 0.5 mm. The notch length is also determined by the design of the corona discharge generation system and ranges from 4 to 35 mm. The proposed design of the corona electrode is attached using a shelf 4 to the frame of the corona electrode assembly, orienting the needles 5 perpendicular to the plane of the precipitation electrode 6.

When a high voltage is applied to the corona electrode between its needles 5 and the surface of the precipitation electrode 6, a corona discharge is ignited, which generates an ionic wind. The direction of the ionic wind — from the needles 5 of the corona electrode to the precipitation electrode 6 in Fig. 1, is designated W. In addition to various factors, the corona discharge burning efficiency is determined by the accuracy of the gap between all needles 5 and the plane of the precipitation electrode 6 δ. The high accuracy of the gap between all the needles 5 and the plane of the precipitation electrode 6 δ can be guaranteed by the high rigidity of the corona electrode in the plane perpendicular to the plane of the precipitation electrode 6. The corner profile shelf 1, which determines the stiffness of the corona electrode in this plane, is installed in the plane in the proposed design of the corona electrode movement of the ionic wind W and only with its end surface resists the movement of the ionic wind flow. Thus, the proposed design of the corona electrode, thanks to new essential features in combination with the known ones, allows minimizing the resistance to movement of the ionic wind and achieving the objective of the proposed invention. Improve the efficiency of ion wind generation.

Claims (1)

A corona electrode containing a tape with needles made of tape bent perpendicularly to the plane of the tape, cut along the edge of the tape at an acute angle to the end line of the tape of triangular elements, characterized in that the tape is made from one of the sides of the corner profile.

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