RU2506129C1 - Electrodynamic filter - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to electrical removal of suspended particles from gases in various industries, particularly, in heat engineering, chemical industry, production of construction materials, metallurgy, etc. Electrodynamic filter consists of precipitation and ioniser wire and high-voltage source. Ioniser wire is arrange inside precipitation electrode made of insulating material and equipped with grounded current conducting winding made at precipitation electrode opposite ioniser wire.

EFFECT: higher efficiency in trapping low- and high-resistance dust, decreased overall dimensions.

1 dwg

Description

The invention relates to the electrical cleaning of gases from suspended particles in various industries, in particular in the power industry, chemical industry, building materials industry, metallurgy, etc.

Known electrostatic precipitator type EGA (gas purification equipment. Electrofilters. Catalog. TSINTIHIMNEFTEMASH, M. 1986, p. 4). The disadvantage of these electrostatic precipitators is that they are equipped with precipitation electrodes of a special profile, which does not have sufficient efficiency, especially when capturing low-resistance and high-resistance dusts. Therefore, to achieve the required dust emissions, it is necessary to increase the dimensions of the electrostatic precipitator.

Closest to the proposed invention in technical essence, the technical problem to be solved is a device for eliminating reverse ionization JP 55134655 A / 20/10/1980, B03C 3/51.

This device allows you to increase the efficiency of electrostatic precipitators only when capturing high resistance dust and is not suitable for most electrostatic precipitators. In addition, this device is difficult to manufacture, because its implementation requires an additional power source and the use of an additional electrode system, the alignment of which requires great accuracy, and with different thicknesses of the dust layer along the length of the electrostatic precipitator satisfactory alignment is generally problematic.

The technical task of the invention and the technical result achieved by its implementation is the possibility of increasing the efficiency of the electrostatic precipitator when capturing low and high resistance dusts, and reducing its size.

The difference of the proposed electrodynamic filter is that the precipitation electrodes are made of an insulating material equipped with a grounded conductive winding located on the precipitation electrode from the side opposite to the corona electrode.

The possibility of carrying out the invention, characterized by the above set of features, as well as the possibility of realizing the purpose of the invention can be confirmed by the description of a possible design of an electrodynamic filter made in accordance with the invention, the essence of which is illustrated by graphic material.

Figure 1 shows a diagram of an electrodynamic filter.

The list of positions in figure 1 is as follows.

1 - high voltage source;

2 - corona element;

3 - precipitation electrode;

4 - conductive winding

5 - grounding.

The electric filter is electrically powered from a high-voltage source (1) and is supplied to a corona electrode (2). The corona electrode is placed inside the precipitation electrode (3) made of an insulating material and provided with a conductive winding (4) located outside the precipitation electrode connected to ground (5).

The functioning of the proposed electrodynamic filter is as follows. Dusty gas enters the inlet of the electrodynamic filter. Under the influence of electrostatic and electromagnetic fields, particles charged in the gas are captured in the corona field by depositing them on an insulating surface. In this case, due to the simultaneous effect on the moving charged particles of electrostatic and electromagnetic fields, there is an increase in the efficiency of dust collection. As a result, it becomes possible to operate the electrostatic precipitator with increased speed and with a greater degree of gas purification. This allows you to reduce the size of the electrostatic precipitator.

In addition, in an electrodynamic filter, the corona current is spent almost exclusively on charging particles and almost does not enter the precipitation electrode, because he is an insulator. This allows you to drastically reduce the consumption of electrical energy in the proposed filter in comparison with the analogue and prototype, in which most of the electric current is supplied to a grounded metal electrode.

The gas purified from the particles contained in it enters the outlet of the electrostatic precipitator.

This invention can be implemented, for example, by using non-conductive pipes of glass, polyethylene and other insulating materials as precipitation electrodes.

The specified sign is significant and forms a stable substantial combination, to obtain the desired technical result.

The present invention, characterized by the above set of features, is not only possible to achieve the above technical result and does not exclude other options for its manufacture. So the precipitation electrode can be made, for example, of glass or a polymeric material. The present invention is industrially applicable, since its manufacture does not require special equipment and new technologies.

Claims (1)

An electrodynamic filter for collecting solid and (or) liquid particles from gases, consisting of precipitation and corona electrodes and a high voltage source, characterized in that the corona electrode is placed inside the precipitation electrode made of an insulating material and equipped with a grounded conductive coil located on the precipitation electrode on the reverse side of the corona electrode.

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