RU2694661C1 - Electric strainer - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to the field of gas purification from suspended particles in various industries. Device comprises precipitating electrodes and corona-forming electrodes consisting of separate frames with corona-forming elements with possibility of vertical impact impact. Separate frame of corona-forming electrode consists of three horizontal and two or three vertical pipes. Vertical length exceeds length of horizontal pipes. Elements of corona-forming electrodes are attached to mid horizontal tube of separate frame by semi-yokes. Impact by vertically directed impact is performed through pipe formed during assembly along entire height of corona electrode by vertical pipes of separate frames.

EFFECT: higher efficiency of gas cleaning.

1 cl, 3 dwg

Description

The proposal relates to the electrical purification of gases from suspended particles in various industries, particularly in thermal power, chemical industry, building materials industry, metallurgy, etc.

Known electric precipitator (Filatov FP. Installation of EGA electrostatic precipitators - M., Energoatomizdat, 1988., p. 12, fig. 2 and p. 22-23, fig. 7), containing collecting electrodes and corona electrodes of the frame structure, consisting of separate frames with corona elements. A separate frame consists of two horizontal and several vertical pipes. The individual frames at the height of the corona electrode are joined by horizontal pipes. Shaking of the corona electrodes to remove any dust or ash from them is carried out by striking the anvil. The incus, together with the impact mechanism, is located in the space between the electric fields, and the shock to the corona electrode is made laterally in the horizontal direction.

The disadvantages of the known electrostatic precipitator reduce the cleaning efficiency of the electrostatic precipitator. These include: the formation of semi-active zones at the joints along the height of the individual frames of the discharge electrode and shaking from the side with horizontally directed blows, as well as the location of the percussion mechanism in the space between the electric fields. Lateral impact is not effective enough to shake the outermost coronal elements farthest from the impact point, and the arrangement of the percussion mechanism for corona electrodes in the inter-field space does not allow for increasing the active length of the electrostatic precipitator by reducing the distance between the electric fields and increasing the cleaning efficiency in the same dimensions of the electrostatic filter.

The known design of the electrostatic precipitator (Handbook of dust and ash collection / Under the general editorship of A.A. Rusanov. - 2nd ed. Rev. and dop.- M .: Energoatomizdat, 1983.-C. 204, Fig. 6.9, b) where the shaking is performed by striking the upper part of the frame of the corona electrodes. This design allows you to increase the active length of the electrostatic precipitator. However, for electrodes with a height of up to 18 m and a width of up to 5 m or more, one stroke is not enough for effective shaking.

To solve the problem of effective removal of dust or ash from corona-bearing electrodes of increased dimensions, it is proposed to use two levels of shaking (RU 2368426): by applying a vertical blow to the electrode from the top and a horizontal blow to the side. For horizontal impact it is necessary to increase the space between the fields, which reduces the active length of the electrostatic precipitator. Moreover, one vertically directed strike is not enough due to the loss of impact efficiency in the horizontal tubes of the electrode frames.

The technical objective of the proposed solution is to increase the efficiency of electrostatic precipitators.

The technical problem is solved due to the fact that an electrostatic precipitator containing collecting electrodes and corona electrodes consisting of separate frames with discharge elements and a vertically directed impact, a separate frame of the discharge electrode consists of three horizontal and two or three vertical pipes, and the length of the vertical exceeds the length horizontal pipes, while the elements of the discharge electrodes are attached to the middle horizontal pipe of a separate frame with the help of half-sleeves, and the effect of a vertically directed nothing is done on a pipe formed in the assembly of the entire height of the discharge electrode risers individual frames.

A separate frame consists of three horizontal, and two or three vertical pipes, and the length of the vertical exceeds the length of the horizontal pipes. This allows to reduce the number of joints of individual frames in height and, accordingly, reduce the number of semi-active zones. For example, for a known electrostatic precipitator (Filatov FP. Installation of EGA electrostatic precipitators - M., Energoatomizdat, 1988., p. 22-23, fig. 7) instead of three joints, only one will remain.

Fastening the elements of the corona electrodes to the middle horizontal pipe of a separate frame with the help of half-sleeves allows to arrange the elements on the same vertical line, which eliminates the violation of the geometry of the interelectrode space and preserves the increased breakdown voltage for the condition that the vertical pipes of a separate frame are more horizontal.

The implementation of the discharge electrode of the frame structure of the individual frames allows you to supply individual frames of industrial production to the assembly site, i.e. with minimal dimensional deviations. The assembly of the discharge electrode is carried out by connecting to the installation of individual frames, both in height and length of the electrode.

When docked in height, the vertical pipes of the individual frames constitute a single pipe for the entire height of the discharge electrode, on which the blow is made. At the same time, due to the decrease in the number of double horizontal pipes when joining individual frames in height, the energy loss of a vertically directed impact is reduced, and dust or ash from the corona electrodes of increased dimensions is effectively removed.

The possibility of carrying out the invention described by the above set of features, as well as the possibility of realizing the purpose of the proposed technical solution is confirmed by the description of the variants of the design of the device made in accordance with the invention, the essence of which is explained in FIG. 1, fig. 2 and FIG. 3

FIG. 1 shows a discharge electrode assembled from separate frames with three vertical and three horizontal tubes.

FIG. 2 shows a discharge electrode assembled from separate frames with three vertical and two horizontal tubes.

FIG. 3 shows a view “A”, FIG. 1 - fastening to the middle horizontal tube of the element of the discharge electrode.

The list of positions in figures 1, 2, 3 is as follows:

1. A separate frame of three horizontal and three vertical pipes.

2. A separate frame of three horizontal two vertical pipes.

3. Extreme horizontal tube.

4. Vertical tube.

5. Average horizontal tube.

6. Element of the discharge electrode.

7. Directional strike.

FIG. 1 "a" is the height of the individual frame, "b" is the length of the individual frame, and the length "a" exceeds the length "b".

To improve the efficiency of gas cleaning from dust or ash particles, the corona electrodes of the proposed electrostatic precipitator are made of separate frames “1” or “2”. In the course of the gas in the horizontal direction, each frame has a height greater than the length, which reduces the number of frame joints in height and, accordingly, the number of semi-active zones. With an increase in the height of the frame, the number of vertical pipes “4” may be three “1” or two “2”, and the number of horizontal pipes may be only three: two extreme horizontal pipes “3” and one middle horizontal pipe “5”. To the horizontal horizontal pipe "5" the elements of the corona electrodes "6" with one edge are attached with the help of half-sleeves. The other edge of the elements of the corona electrode to the extreme horizontal pipes "3" is attached using a stud with a nut or also half-clamps. The impact of a vertically directed blow "7" on the corona electrode is produced by a pipe formed during assembly along the entire height of the corona electrode by vertical pipes "4" of individual frames. Because the number of docks of individual frames decreases in height, and the loss of impact energy decreases, which allows using only vertical blows for corona electrodes of increased (more than 12 m) height or reduce impact parameters for smaller dimensions, increasing their durability.

The operation of the proposed electrostatic precipitator is as follows. The gas entering the purification passes in a horizontal direction between the vertically arranged precipitation and corona electrodes. Under the action of a corona discharge generated by a high-voltage power supply device of the electrostatic precipitator, dust is deposited on the collecting and corona electrodes. Electrode-deposited dust is periodically removed by shaking mechanisms and enters the silos.

Thus, the application of the proposed technical solution allows to increase the cleaning efficiency of the electrostatic precipitator by reducing the semi-active zones in the design of the corona electrode, increasing the active length of the electrostatic precipitator in the same dimensions and increasing the efficiency of removing dust or ash from the corona electrode from a vertically directed impact.

Claims (1)

The electrostatic precipitator containing collecting electrodes and corona electrodes consisting of separate frames with corona elements with the possibility of exposure to a vertically directed impact, characterized in that the separate frame of the discharge electrode consists of three horizontal and two or three vertical pipes, and the length of the vertical exceeds the length of horizontal pipes, at the same time, the elements of the discharge electrodes are attached to the middle horizontal pipe of a separate frame with the help of half-sleeves, and the effect of a vertically directed spur rum produced via conduit formed in the assembly of the entire height of the discharge electrode risers individual frames.

Images