RU2058827C1 - Electric separator - Google Patents

Abstract

FIELD: metallurgy; chemical industry; power engineering. SUBSTANCE: electric separator has earthed case, branch pipe for introducing dust-gas flux, branch pipe for removing cleaned air. Flux distributor has dissector, umbrella, and curved blades. Dissector has a sharp nose directed to meet gas flux. The dissector is fastened to electrically insulated rod. The dissector and the blades are connected to high-voltage dc supply. Ejector is made at the central part of the apparatus. The ejector has pumping pipe-line, dust-gas flux pipe input, and annular channel. At the top part pumping pipe-line changes to the pipe made of dielectric material, against which the dissector rests. Annular collector is mounted top part of the apparatus for washing wall of the case by water. Water drains into the container at bottom part of the case through the mesh. Balls made of dielectric material and gas flux circulate inside the apparatus. There is a collector for liquid for collecting water in exchaust pipe. Collector is made in form of a ring. EFFECT: improved quality of cleaning. 5 cl, 1 dwg

Description

 The invention relates to the purification of gases from dust and can be used in the metallurgical, chemical, energy industries.

 Known tubular electrostatic precipitator, comprising a housing with inlet and outlet ducts, precipitation electrodes consisting of profiled plates, and corona electrodes suspended inside the tubular channels.

 The disadvantage of this electrostatic precipitator is the poor shaking of the precipitation electrodes, which reduces the cleaning efficiency.

 Closest to the invention is an electric cyclone containing a grounded housing with nozzles for the input of the dust and gas stream and dust outlet, a central exhaust pipe and a unit made of swirl, divider and umbrella. One pole of a high-voltage direct current source is connected to a swirler containing curved blades.

 The disadvantage of this electrocyclone is the poor cleaning of the housing from wet dust particles, which reduces the cleaning efficiency.

 The purpose of the invention is to increase the degree of gas purification.

 The goal is achieved by the fact that an ejector is made in the center of the electrocyclone, pumping balls circulating inside the apparatus with gas, and the inner surface of the body wall is made by irrigated water.

 The drawing shows an electric cyclone.

 The electric cyclone consists of a grounded housing 1, a pipe 2 for introducing dust and gas flow, a pipe 3 for outputting purified air, a unit containing a divider 4, an umbrella 5 made of cylindrical and conical parts coaxially located in the housing 1, curved blades 6 installed tangentially to case. The divider 4 has a tip 7, directed towards the gas flow. The divider 4 is supported on an electrically insulated rod 8 passing through the insulator 9, supported by supporting insulators 10 located in the insulating box 11. In the center of the apparatus is an ejector consisting of a discharge pipe 12, a central pipe 2 for introducing dust and gas flow 2, an annular channel 13 located between the discharge pipe 12 and the housing 1. The pipe 12 is held by struts 14. At the top of the pipe 12 passes into the pipe 15 from the dielectric material, a divider 4 rests on it. In the upper part of the apparatus Oval ring collector 16 for irrigation with water the walls of the apparatus from the inside. At the bottom there is a lattice 17 of the shape of a truncated cone, for draining water into a tank 18 of cylindrical shape, forming a water seal. Together with the gas flow in the apparatus, a nozzle made in the form of balls 19 of dielectric material circulates. To collect water in the exhaust pipe 3 there is a collector 20 of liquid annular shape.

 Electrocyclone works as follows.

 The dust and gas stream enters the apparatus through the central pipe 2, enters the discharge pipe 12 and a swirl consisting of blades 6 connected together with the splitter 4 to a high-voltage power source. The flow is broken by the tip 7 of the divider and the blades 6 are twisted. During contact with the surface of the blades 6, dust particles receive an electric charge opposite to the polarity of the housing. On the housing 1, dust settles under the action of centrifugal and electric forces. Dust from the walls of the apparatus is partially washed off by water, partially knocked off by balls 19 circulating together with the gas stream. Water in the lower part of the electrocyclone leaves through the lattice 17 into the container 18. Dust will stick to the balls 19 moistened with water and wash off when the water film is touched. When leaving the gap between the umbrella 5 and the housing 1, the gas flow is divided into two parts. The first part of the stream goes under the umbrella 5 and further into the exhaust pipe 3, is removed from the apparatus. The second part of the stream, smaller than the first, moves with the balls along the conical part of the electrocyclone and is sucked through the annular channel 13 into the discharge pipe 12 of the ejector again for cleaning. The gas going to the outlet will carry droplets of water, which under the action of centrifugal forces will settle on the inner surface of the exhaust pipe 3. Drops will fall into the liquid collector 20, and from it will drain into the tank 18.

Claims (5)

 1. ELECTRIC CYCLON, comprising a grounded housing, a pipe for introducing dust and gas flow, a pipe for outputting cleaned air, a flow distributor consisting of an umbrella, curved blades and a divider connected to the pole of a high-voltage direct current source, a discharge pipe, characterized in that the discharge pipe is in the upper parts made of dielectric material and connected to the divider, and in the lower part is made in the form of an annular ejector.  2. The electric cyclone according to claim 1, characterized in that the electric cyclone is equipped with an irrigation ring collector located on the inner side of the housing wall.  3. The electrocyclone according to claim 1, characterized in that it is equipped with circulating balls of dielectric.  4. The electrocyclone according to claims 1 and 2, characterized in that in the lower part the electrocyclone is equipped with a lattice in the form of a truncated cone.  5. Electrocyclone according to claims 1 to 3, characterized in that the outlet pipe for purified air is provided with an annular liquid collector on the inner wall.

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