SU587969A1 - Device for suppressing dust escape from industrial furnaces - Google Patents

Description

one

The invention relates to the field of heat engineering and can be used in devices for trapping pulverized material from waste furnace gases, for example, in nonferrous metallurgy.

The known design of an electrostatic precipitator is for gas purification, where, in order to increase the gas purification efficiency, the housing is divided by partitions with slots in which disk electrodes are installed, the disc planes being located between the corona electrodes 1.

The lack of known structures in bulkiness and relatively low efficiency of dust holding per unit working surface of the electrostatic precipitator.

A dust collector is known, where, in order to retain dust, metal heat-resistant electrodes 2 are installed in the furnace working space.

The lack of a prototype in the need to use special heat-resistant electrodes, the complexity of operation, as well as the low efficiency of dust holding.

In order to increase the degree of purification of flue gases in the proposed device, the gas outlet neck is equipped with a diaphragm with a hole installed at the junction with the furnace, concentric and perpendicular to the corona electrode.

The drawing shows a device for suppressing dust removal.

The gas outlet neck of the furnace I has a diaphragm 2 located perpendicular to the gas flow. Along the vertical axis of the diaphragm, the corona electrode 3 is mounted on the insulator 4. The diaphragm is grounded through the throat and closes as a precipitating electrode.

The proposed device works as follows.

The dust particles, colliding with the diaphragm, for some time acquire a velocity and even negative with respect to the main flow of gases in the gas outlet. This allows some particles to coagulate and settle back into the furnace. Thus, the diaphragm, on the one hand, serves as a preliminary filter for some heavy and coagulated dust particles, on the other hand, it prepares the gas flow for further purification using an electric field by damping the velocity of the particles around the diaphragm.

A high voltage (e.g., 80 kV) is applied to the corona electrode relative to the diaphragm. The temperature of the outgoing gases reaches 200-1000 ° С and more, the dust particles are sufficiently charged due to the thermal ionization of the dust-gas molecules, therefore, not about 3

Ogslko Isio, and:; Ova11 ko) oipyi discharge d; l of their additional ionization, which simplifies the design of the device and enhances the reliability of its work. In order for the dust particles to pass through the diaphragm into the gas inlet pipe of the city, they must have sufficient kinetic: - 1Р1Т-по для вірододЛ1ни; 1 force - htctric wave between the corona electrode and the diaphragm. Thus, the proposed device due to the electric zero has a repulsive effect for charged particles, and its attraction is, as in the known constructions: -; 1) of the filter.

The device is made and isytyano on the model of the gas outlet tse neck of the neck in the Orenburg Polytechnic Institute.

 tests have shown that even to the cold and cold

(samples ached from brass and bronze smelting furnaces) equal to 60--70%.

Claims (2)

1. Author's svg1dedelstuyu number 265074, cl. 12e, 5, 19G5. 2. Author's certificate N ° 199833, cl. B 01D 35/06, 1965.