SU1801595A1 - Electric filter - Google Patents

Description

The invention relates to the purification of process gases using electric forces and can be used in metallurgy, building materials industry, chemical and energy industries and other sectors of the national economy.

The aim of the invention is to increase the efficiency of trapping high resistance dust.

The drawing shows a horizontal section of an electrostatic precipitator (one channel of an electrostatic precipitator).

The electrostatic precipitator contains plate electrodes 1 and corona electrodes 2 with a diameter of 2 g _O 1 located in the charging zone with a distance between them di and corona electrodes 3 with a diameter of 2 g2 in the deposition zone with a distance between them d2.

The electrostatic precipitator works as follows.

The gas stream with the dust particles contained in it enters the charging zone, where due to the high density of the corona current, the particles are intensively charged.

The length of the charging zone is chosen such that the particles in the stream receive a charge close to the limit, but do not have time to noticeably settle on the precipitation electrode. The charge, equal to 90-95% of the limit, the particle receives in the electrostatic precipitator during 0.1-0.5 s. During this time, when the gas velocities usually used in electrostatic precipitators are from 0.5 to 2.0 m / s, particles of even relatively large sizes, having time to go along the electrostatic precipitator with a distance of no more than 1 m, are deposited with an efficiency of only about 20-30%

After passing through the charging zone, the stream enters the deposition zone. At high dust electrical resistance, the layer of particles deposited in this zone causes a decrease in the efficiency of subsequent deposition due to a voltage drop on it, and when a reverse corona appears, the deposition efficiency tends to zero. These phenomena are impossible if the magnitude of the corona current in the deposition zone is close to zero. In this regard, the location of the corona electrodes in the deposition zone is selected so that the current density of the corona is zero or close to it. _ς Non-cylinder corona electrodes can be used in the electrostatic precipitator

1801595 A1 of the chemical type, in particular, with fixed discharge points. In this case, the value 2g ₀ 1 and 2g _o2 in the claims means the equivalent diameter, i.e. the diameter of such a cylindrical electrode, which has the same current-voltage characteristic with the given non-cylindrical electrode.

The corona electrodes can be frame, tension or mast type, and the electrostatic precipitator is single or multi-field, horizontal or vertical.

Claims (2)

Formula of the invention An electrostatic precipitator containing plate-type precipitating electrodes and corona electrodes located between them with a variable distance, about τα and characterized in that, in order to increase the efficiency of collecting high-resistance dust, the distance between the corona electrodes in a row in the section starting from the gas equal to 0.1-0.15 length of the precipitator 5, determined according to the formula di = (0,9-1,3) {[0.08531η ( 2 g _about 1 + 0.0001623) + 0.744]}, while the remainder _{of the} parts - according to the formula ^w d2 (0.9 - 1) {[0,0115 In (2go2 + 0.0000643) + 0.111] (3h + 0.251}, where 2go1 - diameter corona electric s length at the site 0.1-0.15 precipitator (in the charging zone); 2go2 - diameter of the corona electrodes on the rest of the length of the electrostatic precipitator (in the deposition zone); h - 1/2 of the interelectrode distance, m. gas ~ gas