RU168628U1 - ELECTRODE CROWNING ELECTRODE ELEMENT - Google Patents

Abstract

The proposal relates to the field of purification of process gases and aspirated air from aerosol pollutants in various industries, mainly in the energy sector when burning solid coal or household waste, in the ferrous and non-ferrous metallurgy, building materials industry and other industries. The technical result is to increase the degree of purification gases. The specified technical result is achieved in that the element of the corona electrode of the electrostatic precipitator includes a tape. On the tape along its edges are needles in the same plane with the tape. Each needle is located symmetrically to the vertical axis. The step between the needles is equal to one to two distances between them, with each needle at the base being paired with a tape by an arc described by a radius of 3-6 mm. The element of the corona electrode can be made with a stiffener. 1 s.p. f-ly, 3 ill.

Description

The proposal relates to the field of purification of process gases and aspiration air from aerosol pollutants in various industries, mainly in the energy sector when burning solid coal or household waste, in the ferrous and non-ferrous metallurgy, building materials industry and other industries.

Closest to the proposed technical solution is the element of the corona electrode of the electrostatic precipitator, including a tape with needles located on its edges (see patent No. 2,448,779, class B03C 3/41 of 08/31/2010).

A disadvantage of the known technical solution is the presence of stress concentration zones at the bending point of the needles, the inability to provide their specified sharpness when making incisions, while the bent needles have a developed surface in a horizontal plane with respect to the thickness of the tape, which leads to insufficient gas cleaning when collecting dust for due to the sticking of dust on the surface of the needles, their overgrowing, which reduces the intensity of the corona discharge and reduces the efficiency of the degree of purification of gases.

The technical result consists in increasing the degree of gas purification in electrostatic precipitators with fixed discharge points.

The specified technical result is achieved by the fact that the element of the corona electrode of the electrostatic precipitator, including the tape with the needles located on its edges, made in the same plane as the tape of the corona element is symmetrical to the vertical axis with a step equal to 1 to 2 distances between the opposite ends of the needles located opposite each other, with each needle in the base, is connected with the tape by an arc described by a radius of 3-6 mm. In this case, the element of the corona electrode of the electrostatic precipitator can be made with a stiffener in a vertical plane.

When performing a step between the needles, less than one distance between them leads to a change in the density of the corona discharge, which is similar to the design of the element of the corona electrode without the presence of fixed discharge points and reduces the cleaning efficiency. With an increase in the distance between the needles of more than 2, it leads to a decrease in the current density of the corona discharge with a decrease in the efficiency of gas purification.

Each needle in the base is associated with a tape arc described by a radius of 3-6 mm, which provides mechanical strength of the needles in relation to the known solution and allows to increase the efficiency of gas purification during long-term operation of the electrostatic precipitator. Selected fillet radii are the most preferred, as shown by the experience of operating similar technical solutions. Performing a radius of less than 3 mm can lead to a concentration of stress at the base of the needle, and an increase in radius of more than 6 mm can lead to the inability to form a needle with a curvature in the range of 0.01-0.5 mm for the appearance of a corona discharge and the creation of an optimal cleaning mode for most process gases.

The implementation of the stiffener on the element of the corona electrode of the electrostatic precipitator increases its mechanical strength and leads to a clearer alignment of the electrodes, which provides the same tension in all interelectrode gaps of the electric field of the electrostatic precipitator and increases the efficiency of gas purification.

The indicated ranges of signs are significant and interconnected.

The essence of the proposal is illustrated by graphic materials.

In FIG. 1 shows an element of a corona electrode.

In FIG. 2 shows an element of a corona electrode with a stiffening rib.

In FIG. 3 shows the assembly “A”, FIG. one.

The positions in figures 1-3 are as follows:

- pos. 1 - tape corona element;

- pos. 2 - needles of the corona element;

- pos. 3 - stiffener of the corona element;

- R1 - rounding radius;

- N - step between the needles vertically;

- In - the distance between the needles.

The operation of the element of the corona electrode occurs when high voltage is applied to the electrodes from a power source. The needles of the corona element provide the appearance of a corona discharge, as a result of which the particles of trapped dust adsorb ions on their surface and, under the action of field forces, move to precipitation electrodes. The sharpness of the needles (the radius of curvature of the ends of the needles in the range of 0.01-0.5 mm) contributes to a reduced ignition voltage of the corona discharge and lower power consumption.

This proposal is applicable for use in electrostatic precipitator cleaning plants in various industries.

Claims (2)

1. The element of the corona electrode of the electrostatic precipitator, comprising a tape with needles located at its edges, characterized in that the needles are located in the same plane as the tape of the element symmetrically to the vertical axis with a step equal to one to two distances between the opposite ends of the needles located opposite each other, each needle at the base is paired with a tape by an arc described by a radius of 3-6 mm. 2. The element of the corona electrode of the electrostatic precipitator according to claim 1, characterized in that it is made with a stiffener in a vertical plane.

Images