RU95549U1 - ELECTRIC FILTER - Google Patents

Abstract

 An electrostatic precipitator consisting of a cylindrical body with a sludge outlet pipe, a conical cover with an outlet pipe, a precipitation and axial corona electrodes in the form of a wire, characterized in that the precipitation electrode is made round, fixed perpendicular to the corona electrode at the bottom of the case to the inlet pipe and the body with two insulators in in the form of rings, the axial inlet pipe passes through the center of the precipitation electrode, forming a hopper with the inner wall of the housing, and at the outlet of the inlet pipe and During the precipitator outlet is fixed transversely-rod insulator, which is fixed corona electrode.

Description

The utility model relates to mechanical engineering, and more particularly to electrostatic precipitators - apparatus for purifying gases from suspended particles used in various industries and can be used in the purification of exhaust gases of internal combustion engines.

Known electrostatic precipitators, consisting of a housing, tubular precipitation electrodes, the active zone of which is equipped with corona electrodes of the BVK type. [Birger M.I., Waldberg A.Yu., Myagkov B.I. and other Handbook on dust collection. 2nd edition. M., Energy, 1983, p.206.].

The disadvantage of electrostatic precipitators is the low quality of gas purification due to secondary dust extraction.

Known electrostatic precipitator consisting of a housing, precipitation electrodes made of pipes, and corona electrodes consisting of alternating rectilinear sections L ₂ and sections made in the form of a cylindrical spring L ₁ , the total length of the corona elements L, the diameter of the spiral d and the distance between the turns spiral δ depend on the parameters of the cleaned dust and gas stream and are in the ranges: L ₁ = 0.1 ... 0.5 m; 1.2 = 0.1 ... 0.5 m; d = 0.1 ... 0.5 · D; δ = 10 ... 20 · d ₁ , where D is the inner diameter of the precipitation electrode, d ₁ is the diameter of the rectilinear portion of the corona electrode. [RF patent No. 2337746, IPC B01D 35/06, B03C 3/40, publ. 03/26/07., BI No., authors Kuritsin N.A., Sanaev Yu.I., Morozov Yu.M. "Electrofilter"].

The disadvantage of the electrostatic precipitator is the low quality of gas purification due to the secondary dust extraction.

This technical solution is selected by the authors as a prototype.

The technical result is to improve the quality of gas purification from fine particles and aerosols by preventing secondary dust extraction.

The technical result is achieved by the fact that in the electrostatic precipitator, which consists of a cylindrical body with a sludge outlet pipe, a cone-shaped cover with an outlet pipe, a precipitation and axial corona electrode in the form of a wire, the precipitation electrode is made round, fixed perpendicular to the corona electrode at the bottom of the case to the inlet pipe and case two insulators in the form of rings, the axial inlet pipe passes through the center of the precipitation electrode, forming a hopper with the inner wall of the housing, and at the exit de the inlet pipe and the inlet of the output pipe of the electrostatic precipitator is fixed transverse to the rod insulator to which the corona electrode is fixed.

Placing a precipitation electrode at the bottom of the electrostatic precipitator allows you to create an electric field, a vector which is directed at an acute angle to the corona electrode and is opposite to the direction of motion of the dust and gas stream. The movement of charged dispersed particles and aerosols is directed to the electric field vector, and therefore the charged dispersed particles and aerosols move opposite to the direction of the dust and gas stream, exit the dust and gas stream and settle on the precipitation electrode in the zone without intensive movement of the dust and gas stream, which helps prevent secondary dust extraction.

Placing the inlet pipe in the center of the precipitation electrode with a partial arrangement in the electrostatic precipitator housing removes the dust and gas stream into the zone of the corona electrode bypassing the precipitation zone of dispersed particles and aerosols, which prevents secondary dust extraction.

In Fig.1 shows an electric filter, a General view in section, in Fig.2 shows a section aa of Fig.1.

The electrostatic precipitator consists of a housing 1 with a sludge outlet pipe 2 and a conical cover 3 with an outlet pipe 4, a round-shaped precipitation electrode 5 fixed to the bottom of the housing through insulators 6, in the center of which an axial inlet pipe 7 and a corona wire electrode 8 located along the axis of the electrostatic precipitator are located and fixed through the rod insulators 9 to the inlet and outlet pipes.

The electrostatic precipitator works as follows.

A voltage of about 10 kV is applied to the electrostatic precipitator electrodes, as a result of which the crown on the wire electrode 8 is ignited and an avalanche-like emission of electrons occurs in the direction of the electric field, towards the precipitation electrode 5.

Through the inlet pipe serves in the housing 1 of the electrostatic precipitator dust and gas flow. Leaving the inlet pipe 7 of the electrostatic precipitator, the dust and gas stream enters the corona electrode 8, which is placed along the axis of the electrostatic precipitator, is made in the form of a wire and is fixed through the rod insulators 9 to the inlet and outlet pipes.

When applying high voltage to the corona electrode 8, a corona discharge occurs on it. When passing the cleaned gas with suspended dispersed particles and aerosols in the electrostatic precipitator housing, an avalanche of electrons emitted by the corona electrode in the direction of the precipitation electrode 5 acts on the dust and gas stream and the dispersed particles and aerosols contained in it acquire a negative charge and move to a positively charged electric field precipitating electrode and deposited on its surface.

The gas purified from dispersed particles and aerosols is discharged from the electrostatic precipitator body through the outlet pipe 4, which is installed in the conical cover 3 of the housing.

The precipitation electrode 5 is placed on the bottom of the electrostatic precipitator housing on two insulators 6 in the form of rings, one of which is located between the precipitation electrode and the electrostatic precipitator housing, and the other between the precipitation electrode and the inlet pipe 7.

Collected dust and aerosols are removed from the electrostatic precipitator through the outlet pipe of the sludge 2.

The proposed electrostatic precipitator can improve the quality of gas purification from dispersed particles and aerosols by 1.5-2 times.

Claims (1)

An electrostatic precipitator consisting of a cylindrical body with a sludge outlet pipe, a conical cover with an outlet pipe, a precipitation and axial corona electrodes in the form of a wire, characterized in that the precipitation electrode is made round, fixed perpendicular to the corona electrode at the bottom of the case to the inlet pipe and the body with two insulators in in the form of rings, the axial inlet pipe passes through the center of the precipitation electrode, forming a hopper with the inner wall of the housing, and at the outlet of the inlet pipe and During the precipitator outlet is fixed transversely-rod insulator, which is fixed corona electrode.