UA19517U - Electric precipitator for removal of high-resistance dust from gases - Google Patents

Abstract

An electric precipitator contains, at least, one device for creating the electric field, which is the system of precipitating electrodes, which are the walls of channels for passage of flue gases, and the system of basic ionizer wires located in said channels and fixed in the corona-forming frame, and also the system of shaking facilities for removal of dust from corona and precipitating electrodes. The corona-forming frame is divided into two parts: area of charging containing ionizer wires, and area of electrostatic precipitation containing high-voltage electrostatic electrodes.

Description

Description of the invention

The useful model refers to the field of cleaning dusty gases using a sharply inhomogeneous 2 electrostatic effect, and can be used mainly in the energy, cement, metallurgical, chemical industries, at coal-fired power plants, etc.

The closest analogue of a useful model, chosen as a prototype, is an electric filter for cleaning flue gases, which houses at least one device for creating an electric field, which includes a system of deposition main electrodes, which are the walls of channels for the passage of flue gases and a system 70 crowning main electrodes, which are located in the mentioned channels, as well as a system of shaking devices for cleaning dust from crowning and deposition electrodes published in Bul. Mob on June 15, 2005|.

The efficiency of cleaning in this electric filter depends on the electrical conductivity of the dust. With a /5 electrical resistance of dust, equal to 107...109 Ohm.m, the electrostatic precipitator works reliably according to its purpose, i.e. as a dust collector. If the dust particles have a higher specific electrical resistance, a reverse corona is formed, which prevents the normal operation of the electrostatic precipitator, because there is a reverse movement of counterions, which recombine with ions from the corona electrode and dust particles, which lose their charge and are recharged, no longer drifting in the direction of the deposition electrode .

The basis of a useful model is the task of creating an electric filter that is effective in cleaning gas from high-resistance dust.

The task is solved by the fact that in an electric filter containing at least one device for creating an electric field, which is a system of deposition electrodes, which are the walls of channels for the passage of flue gases, a system of crowning main electrodes, which are located in the mentioned channels and fixed in the crowning frame , as well as a system of shaking devices for cleaning dust from coronating and deposition electrodes, according to a useful model, the coronation frame is divided into two parts: a charging zone containing coronating electrodes and an electrostatic deposition zone containing high-voltage electrostatic electrodes.

The useful model is explained by the following drawings: chn zo Fig. 1 - a general view of the version of the proposed electrofilter;

Fig. 2 - a plan of placement of electrodes in crowning frames. --

The electrostatic precipitator contains a system of deposition electrodes 1, which are the walls of channels for the passage of flue gases, as well as a crowning frame, which is divided into a charging zone 7, containing crowning electrodes 2 and an electrostatic deposition zone 8, containing high-voltage electrostatic electrodes Z. In addition, on (2)

The drawings show system 4 of shaking corona electrodes, gas distribution grids 5 and blocks 6 "-- shaking deposition electrodes.

The electrostatic precipitator works as follows: particles of high-resistance dust, suspended in a gas flow ionized by the electric field formed by the corona electrodes 2, move under the influence of the electrostatic field forces and settle on the deposition electrodes 1. On the surface of the layer of deposited dust, which has a high "20 resistance, reverse corona occurs. Due to this, the efficiency of the deposition on the electrodes 1 of those particles that were charged by the reverse corona is significantly reduced. But the field of the electrostatic precipitator consists of two zones, so the dust charged by the corona in the charging zone 7 moves in the direction of the deposition electrodes, and the dust charged by the reverse corona moves in the direction of the high-voltage electrostatic electrodes З and is caught in the electrostatic deposition zone 8. Due to this, significantly the efficiency of catching dust particles with high electrical resistance by the electrofilter increases. -

Gee!

Claims (1)

Formula of the invention 1 and . Electrofilter containing at least one device for creating an electric field, which is a system of deposition electrodes, which are the walls of the channels for the passage of flue gases, and a system of crowning main electrodes, which are located in the mentioned channels and fixed in the crowning frame , as well as a system of shaking devices for dust cleaning of crowning and deposition electrodes, which is distinguished by the fact that the crowning frame is divided into two parts: a charging zone containing coronating electrodes and a dv/electrostatic deposition zone containing high-voltage electrostatic electrodes. p. 60 b5