RU2683842C1 - Method for accommodation, centering and tension of the crowning electrode in electrostatic tubular air treatment plants - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to gas cleaning and dust removal installations used in industrial fields such as chemical, petrochemical, metallurgical, and serves to clean the air from fumes, dust and aerosols using electrostatic devices, in particular, of the tubular type and method of mounting, centering and tensioning the discharge electrode in the above devices. When implementing the method, the discharge electrode is placed and fixed vertically in the case of the air purification installation beyond its upper point. In this case, the corona electrode constitutes a single unit with a precipitation pipe, the free weight of which stretches and centers the corona electrode along the entire length of the precipitation pipe, and the electrode is fixed stationary on the insulator along the axis in the lower part of the precipitation pipe and freely passed through the axial opening of the insulator in the upper part of the precipitation pipe, which is located below the upper edge of the precipitation pipe at a distance of 1–3 times the diameter of this pipe.EFFECT: reliability of the device increases, the design is simplified, the period of the service interval increases.1 cl, 1 dwg

Description

The invention relates to gas-cleaning and dust-collecting installations used in such industries as chemical, petrochemical, metallurgical and serves to clean air from fumes, dust and aerosols using electrostatic devices, in particular, tubular type and the method of attachment, centering and tensioning of the corona electrode in the above devices.

An analogue of the claimed invention is an electrostatic precipitator containing a housing, a system of precipitation and corona electrodes, the tension of the corona electrodes is carried out with the help of weights, and fixation with the help of strips (source of information: working draft of the GPF electrostatic precipitator No. 1-22821, Semibratov experimental plant for gas purification equipment, 1973 )

The disadvantage of the analogue is the complexity of the design, the device consists of many nodes and parts that are mounted in place and do not provide sufficiently accurate fixation of the corona electrodes. In the identified technical solution, it is required to separately take care of the technology of suspension, tension, centering of the corona electrodes and separately the fastening of the precipitation pipes. In this case, the installation of precipitation pipes and corona electrodes is carried out separately, which greatly complicates the process of installation and maintenance.

Another close technical solution, selected as a prototype, is a tubular type electrostatic air purification unit, in which the method of fastening, centering and tensioning the corona electrode is used, which means that the corona electrode is placed and fixed vertically in the air purification unit body at the upper point its fastenings. In this case, the corona electrode constitutes a single unit with the precipitation tube, the free weight of which pulls and centers the corona electrode along the entire length of the precipitation tube, while the corona electrode is fixed on the insulator along the axis in the lower part of the precipitation pipe and freely passed through the axial hole of the insulator in the upper part precipitation pipe (source of information Patent on the invention No. 2611664).

The description of the prototype indicates that the corona electrode is freely passed through the axial hole of the insulator in the upper part of the precipitation pipe. Given the passage of polluted air “from top to bottom”, it is the upper part of the precipitation pipe that is the most polluted part on which most particles of dust, smoke and / or aerosols are deposited. This leads to rapid contamination of the upper insulator, which leads to an increase in the surface conductivity of the material of the insulator and, in turn, leads to surface breakdown of the upper insulator (breakdown from the corona electrode to the precipitation pipe). Surface breakdown leads to the termination of the process of electrostatic air purification as a result of the formation of a spark discharge, burnout of the corona electrode at the breakdown site or as a result of a protective shutdown of the high-voltage power supply unit. These objective disadvantages of the prototype entail the need for additional isolation of the corona electrode and an increase in its cross section at the interface with the upper insulator, the need for a fast-acting system for disconnecting the power supply, and also lead to short periods of time after which the upper insulator needs to be cleaned (or replaced).

The technical result of the claimed invention is to eliminate the above disadvantages: to increase the reliability of the device, simplifying its design and increasing the period of the service interval.

The technical result achieved by the claimed invention is presented in a method for placing, centering and tensioning the corona electrode in tubular type electrostatic air purification plants, namely, that the corona electrode is placed and fixed vertically in the air purification unit body at its upper point, while the corona electrode is a single a node with a precipitation tube, the free weight of which pulls and centers the corona electrode along the entire length of the precipitation tube, while oroniruyuschy electrode fixedly mounted on the insulator along the axis at the bottom of the spin tube and freely passed through the axial hole of the insulator at the top end of the spin tube which is disposed below the upper cutoff spin tube at a distance of 3/1 the diameter of the pipe

The invention is illustrated by the scheme:

FIG. 1 is a detailed diagram of the claimed method, where:

1. The stream of purified air

2. Corona electrode

3. Precipitation pipe.

4. The upper insulator, to which the precipitation pipe is fixed, the insulator is located below the top edge of the precipitation pipe by a distance of 1-3 diameters of the precipitation pipe, and the corona electrode is freely passed through the central axial hole.

5. The center hole in the upper insulator to center the corona electrode

6. The lower insulator, to which both the precipitation pipe (3) and the corona electrode (2) are fixed.

7. The attachment point of the corona electrode to the lower insulator.

The method of placement, centering and tension of the corona electrode in tubular-type electrostatic air purification plants consists in the fact that the entire assembly of the precipitation pipe, insulators and corona electrode is freely suspended in the air purification unit by the upper point of the corona electrode, while the flow of cleaned air must go "top down".

The corona electrode constitutes a single unit with a precipitation tube, the free weight of which pulls and centers the corona electrode along the entire length of the precipitation tube.

The corona electrode is fixedly mounted on the lower insulator, for example, by means of a node in the hole, axially in the lower part of the precipitation pipe and freely passed through the axial hole of the upper insulator, located 1-3 times its diameter below the upper edge of the precipitation pipe.

The cleaned air is supplied "from top to bottom" in the precipitation pipe (or several pipes depending on the amount of cleaned air), in the center of which a corona electrode is pulled in the form of a wire, cable or notched tape. A constant high voltage of 10,000 V and higher is applied to the precipitating tube and the corona electrode. Particles of impurities are charged from the corona electrode by a charge and are attracted to a precipitation tube having an opposite charge. The greatest amount of pollution is captured in the upper part of the precipitation pipe at a distance of 1-2 of its diameter. To protect against active pollution, the upper insulator is located below the top edge of the precipitation pipe at a distance of 1-3 of its diameter. The location of the insulator above the specified limit leads to its rapid pollution and shutdown of the air purification unit. The location of the insulator below these limits leads to a deterioration in the exact positioning of the corona electrode.

The tests carried out confirm the achievement of the indicated technical result, which consists in increasing the reliability of the device, simplifying its design and significantly increasing the period of the service interval.

Analysis of the totality of all the essential features of the proposed invention proves that the exclusion of at least one of them leads to the inability to fully ensure the achieved technical result.

The analysis of the prior art shows that there is no known method that has features identical to all the essential features of this technical solution, which indicates its unknownness and, therefore, novelty.

The above also proves the conformity of the claimed method to the criterion of inventive step.

When implementing the invention, the presence of the proposed object is really realized, which indicates industrial applicability.

Claims (1)

The method of placement, centering and tension of the corona electrode in tubular type electrostatic air purification plants, namely, that the corona electrode is placed and fixed vertically in the housing of the air purification unit at its upper point, while the corona electrode constitutes a single unit with a precipitation tube, free weight which pulls and centers the corona electrode along the entire length of the precipitation pipe, while the corona electrode is fixed motionless on the insulator along the axis at the bottom of the hour Ti precipitation pipe and freely passed through the axial hole of the insulator in the upper part of the precipitation pipe, which is located below the upper edge of the precipitation pipe at a distance of 1-3 diameters of this pipe.

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