SU1375342A1 - Electric precipitator - Google Patents

Abstract

The invention relates to a dust collection technique and can be used to clean gases from a dispersed phase in the metallurgical, construction and other types of industry. The purpose of the invention is to increase the degree of gas purification from the dispersed phase, to improve the quality of regeneration of the precipitation electrode, as well as to reduce the hydraulic resistance of the apparatus. The electric precipitator consists of a precipitation electrode, made in the form of an electrically conductive grid with a ratio of the wire diameter to the external cell size of 0.15-0.25, around which there is a grating resonator electrode with corona-like projections. The regeneration of the precipitation electrode is accomplished by an acoustic field. 1 hp f-ly, 1 ill., 1 tab.

Description

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The invention relates to a dust collection technique, can be used to clean air or gas from particles of the dispersed phase, and serves the purpose of protecting the environment.

The purpose of the invention is to increase the degree of gas purification from the dispersed phase by preventing particles from escaping into the gas stream beyond the precipitation electrode during its regeneration, as well as reducing the hydraulic resistance.

The drawing shows an electric precipitator.

The electric precipitator contains a vertical cylindrical body 1, supplying 2 and exhausting 3 gas ducts. A corona-forming electrode 5 is fixed to the insulators 4 along the body axis, to which a high voltage is applied during operation and which is fixed in a vertical position by a weight 6. A grounded mesh precipitating electrode 7 is located coaxially to the corona-forming electrode 5, around which a grid lattice is mounted on the insulators 8 resonator electrode 9 with corona projections 10. Acoustic regeneration unit in the form of a siren 11 is located above the precipitation electrode 7.

The electric precipitator works in the following way.

The dust-gas stream is fed through the inlet duct 2 into the space between the coronating 5 and precipitating 7 electrodes. Particles of the dispersed phase, located in the gas, are charged in the corona field and under the combined action of aerodynamic and electric forces move to the precipitation grid electrode 7. Uniform filtration is provided by a grid resonator electrode 9 that has a living cross section that is less live. sections of the precipitation electrode 7. Over time, the precipitation electrode 7 is covered with a loose layer of precipitated dust, through which the subsequent filtration of dust particles, which approach the electrode, is mechanically filtered. As a result, the degree of gas purification remains high even in the case of high-resistance dust, when electrostatic deposition deteriorates.

Upon reaching a certain hydraulic resistance of the apparatus, the collecting electrode 7 regenerates. During the regeneration of the electrode, the grating electrode resonator 9 is connected to a high voltage source, for example, by connecting electrically to the corona electrode 5, therefore, dust conglomerates separated from the precipitation electrode 7 and trapped under the action of the gas stream between the precipitation electrode 7 and by the lattice resonator electrode 9, they appear in the field of a corona discharge, which prevents the removal of dust. The trapped dust is poured into the dust collecting bin, from where it is removed by known means.

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The results of the test for cleaning the dust-gas stream from the sublimate dust at a constant value of the ratio of the volumetric gas flow rate to the area of the precipitation electrode are given in the table, where / C is the ratio of the wire diameter to the cell size.

The data obtained show that the application of the proposed electric shading allows to obtain a high degree of gas cleaning from dust with a hydraulic resistance lower than that of a known device with a ratio of wire diameter to external cell size of 0.15-0.25.

The diameter of the resonator electrode should be 1.9-2 times the diameter of the precipitation electrode, i.e. the distance between the resonator electrode and the precipitation electrode, the discharge electrode and the precipitation electrode are the same. Consequently, when shorting a resonator electrode with a corona electrode, the field strength between the resonator electrode and the precipitation electrode with real values of the voltage applied to the corona electrode is maximum, i.e., the electrical forces that prevent dust particles from being carried to the clean gas side. , maximum.

The use of an electrically conducting grid as a precipitation electrode with a ratio of the wire diameter to the external cell size of 0.15-0.25 provides the maximum degree of gas purification with small values of the hydraulic resistance of the apparatus. With a ratio of less than 0.15, i.e., with a sparse grid, some particles of the dispersed phase do not have time to interact with and settle on the precipitation electrode, but transit to the pure gas side, which reduces the degree of gas purification. With a ratio greater than 0.25, i.e., with a dense grid, the hydraulic resistance of the precipitation electrode increases dramatically.

Claims (2)

1. An electric precipitator, including a vertical case, with a corona electrode, around which a collecting electrode is concentrically arranged, made in the form of an electrically conductive grid, a high-voltage power source, a collecting siren regenerating electrode collecting system, and dust and purified gas nozzles, characterized in that in order to increase the degree of gas purification from the dispersed phase by preventing particles from escaping into the gas stream beyond the precipitation electrode during its regeneration, electrical sedimentation abaged with a lattice resonator electrode with a diameter of 1.9–2–2 times the diameter of the precipitating electrode installed around the collecting electrode, and a live a cross section smaller than the living cross section of the precipitation electrode. 2. The electric precipitator according to claim 1, characterized in that, in order to reduce the hydraulic resistance of the apparatus, the settling electrode is made with a ratio of the wire diameter to the cell size of 0.15-0.25. Average dust collection efficiency,% Efficiency of dust collection during regeneration of the precipitation electrode,%. The average hydraulic resistance of the device. Pa 85 99.3 99.5 99.7 99.7 80 97.3 99.5 99.7 99.7 500 700 1500 5200 12,000