SU423509A1 - DEVICE ZONE CHARGING OF TWO-ZONE ELECTROFILTERS - Google Patents

Description

one

The invention relates to devices for ionizing dust particles of dusty gases by cleaning them in electrostatic precipitators and can be used in the metallurgical, chemical, mining, mineral processing and other types of industry.

A device for charging the double gap electrostatic precipitators containing corona electrodes with fixed discharge points and fixed perforated electrodes between them is known. However, this device does not provide a high degree of ionization, and its collecting electrodes are overgrown with dust.

The proposed device allows to increase the degree of charge of dust particles and reduce its deposition. This is achieved by the fact that the fixed discharge points of the corona-forming electrodes, installed on the opposite-side sides of the collecting electrodes, are located in staggered order relative to each other, and

, 1-3,

bzаI

where 5i is the total area of the collecting perforated electrodes; S2 is the total area of perforation holes;

/ g - the distance between the corona

and precipitation electrodes; d is the transverse dimension of the perforation holes; / - distance between fixed

bitwise points.

The drawing shows the arrangement of the charging zone of two-zone electrodes.

The device contains corona electrodes 1 with fixed discharge points 2 and precipitation perforated electrodes 3, the fixed discharge points of the corona electrodes located in area A are placed in a checkerboard relative to the fixed discharge points of the corona electrodes installed in area B, and the common the areas Si and S2 of the collecting perforated electrodes and the holes of the non-perforation, the distance h between the corona and collecting electrodes, the transverse dimension d of the holes of the perforations and the the station / between the fixed bit points are interconnected by the indicated ratios. The device works as follows. The dust-laden gas passes in areas A and B between the perforated precipitation electrodes 3 and discharge electrodes 1. In the interelectrode gaps during discharge from fixed discharge points 2

electric wind arises, directed from the corona electrode to the side of the precipitation electrode.

Charged dust carried by the flow to the drop electrode on the left of area A, slips through the holes in the collecting electrodes into area B, then moves in the same direction towards the corona electrode of the flow returning from the precipitators. Apologically ocynie the transfer of dust particles from area B to area A.

In this way, the maximum speed of dust particles at the surface of the precipitation electrode 3 is achieved by summing the velocity vectors coming from the opposite corona electrodes 1 to the surface of the precipitation electrode 3, and therefore the deposition of particles and the dust on the deposited electrode is reduced.

The movement of dust particles to the area of corona electrodes, where the maximum volume current density and maximum voltage of the electric field take place, as well as the intense turbulization of the flow contribute to the maximum dust charge.

4 and 3 about with n i

P p (l, m

The device of the charging zone of two electrostatic precipitators, containing its corrosive electrodes with fixed discharge points, installed on opposite sides of the collecting perforated electrodes, characterized in that, in order to increase the degree of charging of dust particles and reduce its deposition, the fixed points corona electrodes, installed on opposite sides of precipitating electrodes, are arranged in staggered order against each other, and the ratio of the total area of the precipitating electrodes to common area perforation

 2 5. The ratio of the distance between the corona and collecting electrodes to the transverse size of the perforation opening L. „

t is the ratio of the distance between the coroniruugs and the precipitation electrodes to the distance L1 between fixed discharge points

: 1-3.