RU1751900C - Electric filter - Google Patents

Abstract

FIELD: electric cleaning of gases. SUBSTANCE: electric filter has housing with gas delivering and gas outlet branch pipes system of electrodes arranged in electrostatic cleaning chamber, ionization chamber, coagulation chamber, high-voltage source, gas delivering duct, and entrapped dust collector with pan. Ionization chamber is divided by partition into two zones. Ionizing electrodes connected, respectively, with positive and negative poles of high voltage source are arranged in these zones. Coagulation chamber has blades installed on opposite walls of chamber. Gas delivering branch pipe is connected through fan with gas delivering pipe line connected to dust-laden gas source. EFFECT: enlarged operating capabilities. 2 cl, 2 dwg

Description

 The invention relates to the field of electric gas purification and can be used for dust removal of exhaust gases in ventilation and air conditioning systems of industrial plants, for example, the purification of gases released during welding operations.

 The closest in technical essence and the achieved effect is an electrostatic precipitator containing a housing with gas inlet and gas outlet pipes, a system of electrodes placed in an electrostatic cleaning chamber, an ionization chamber with positive and negative polarity electrodes, a high voltage source, a gas supply box, a dust collecting bin and regeneration system.

 The disadvantage of the dual-zone electrostatic precipitator is the low cleaning efficiency, due to the fact that the dust particles are charged only with a positive potential, which does not allow coagulation of the particles electrically and precipitate them due to gravitational forces. In addition, the low potential of the supply voltage of the electric precipitator does not allow to create a sufficiently high level of field strength in it and to achieve a high degree of purification.

 The purpose of the invention is to increase the degree of purification, reliability in operation, performance.

 Figure 1-2 shows the proposed electrostatic precipitator.

 The electrostatic precipitator contains a housing 1 with a gas inlet 2 and a gas outlet 3 nozzles, a system of electrodes 4 located in the electrostatic cleaning chamber 5, an ionization chamber 6, a coagulation chamber 7, a high voltage source 8, a gas supply duct 9, a dust collecting bin 10 with a tray 11, regeneration system (not shown in the drawing). The coagulation chamber 7 communicates on the one hand with the ionization chamber 6, and on the other hand with the electrostatic cleaning chamber 5. The ionization chamber 6 is divided by a partition 12 into zones 13, 14, in which positively 15 and negative 16 ionizing electrodes are connected, respectively, connected to the corresponding poles of voltage source 8. The electrodes 15, 16 can be made in the form of strings. The ionization chamber 6 and the coagulation chamber 7 are installed in the gas supply duct 9. The coagulation chamber 7 is equipped with blades 17 mounted on opposing chamber machines along the entire length and directed towards each other. Opposite blades 17 are installed at different angles to the walls of the coagulation chamber 7. The gas supply pipe 2 is connected through a fan 18 to a gas supply pipe 19 connected to a dust source, such as a welding machine. The electrode system 4 includes positive 20 and negative 21 electrodes, made, for example, in the form of dielectric housings, the inner surface of which is provided with an electrically conductive coating, current-carrying inserts connected respectively to the positive or negative pole of the voltage source and in contact with the conductive inserts. The electrode system can also be performed as in serially produced electrostatic precipitators such as EGA.

 The regeneration system can be made in the form of a frame with strings, starting from the bottom up along the surface of the dielectric casing of the electrodes (not shown).

 The electrostatic precipitator works as follows.

The dusty gas is sucked in by the fan 18 through a pipe 19 and is supplied through a gas supply pipe 2 to a gas supply duct 9, from which it enters the zones 13, 14 of the ionization chamber 6. High voltage of the corresponding potential is supplied to the ionizing electrodes 15, 16. Particles suspended in the gas receive a positive charge in zone 13, and a negative charge in zone 14. Then the charged particles with a gas stream are introduced into the coagulation chamber 7. Passing between the blades 17 installed at different angles of inclination, for example 30 and 60 ^about , the gas flows are intensively mixed. Negatively and positively charged dust particles are attracted to each other, coarsened and, under the influence of gravity, are deposited in a pallet 11 installed in the hopper 10. As the pallet is filled, the pallet is removed from the hopper 10, freed from dust and installed again in the hopper. Partially purified gas from the coagulation chamber 7 enters the electrostatic cleaning chamber 5. From the positive and negative poles, high voltage sources 8 are supplied to the electrodes 20 and 21 with a high voltage. An electrostatic field arises between the electrodes 20 and 21, under the influence of which the ionized particles are deposited on the outer surface of the electrodes 20 and 21 as they move in the chamber 5. The cleaned gas stream through the gas outlet 3 is removed from the electrostatic precipitator.

 The removal of captured dust from the surface of the casing of the electrodes 20, 21 is carried out by a regeneration system made in the form of a frame with strings stretched over it (not shown in the drawing). When moving the frame along the surface of the casing of the electrodes 20, 21 strings cut off the dust deposited on them.

 Dust removed from the surface of the electrode housings 20, 21 enters the hopper 10 and the pan 11 and is then removed from it for secondary use.

 The use of the invention in comparison with a dual-zone electrostatic precipitator (of the RION type) ensures high efficiency of gas purification due to preliminary ionization of particles with opposite charges and coagulation.

Claims (2)

 1. ELECTROFILTER, comprising a housing with gas inlet and gas outlet pipes, a system of electrodes placed in an electrostatic cleaning chamber, an ionization chamber with positive and negative polarity electrodes, a high voltage source, a gas supply box, a dust collecting bin and a regeneration system, characterized in that , in order to increase the degree of purification and reliability in operation, it is equipped with a coagulation chamber, communicating on the one hand with the ionization chamber, and on the other - with the camera residual cleaning, while the ionization chamber is equipped with a gas-tight partition dividing the chamber into zones in which the corresponding positive and negative electrodes are installed, and the coagulation chamber is equipped with blades mounted on the opposite walls of the chamber along the entire length and directed towards each other, and the ionization and coagulation chambers placed in the gas duct.  2. The electrostatic precipitator according to claim 1, characterized in that the opposing blades are installed at different angles of inclination to the walls of the coagulation chamber.

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