SU862997A1 - Dust trap - Google Patents

Description

The invention relates to air cleaning devices for dry dust and can be used in various industries, for example, in the petrochemical industry. Vortex dust collectors are known, comprising a housing, axial nozzles for gas inlet and outlet, and an auxiliary pelvic inlet device designed as an annular collector. with tangential oblique nozzles MI) forming a gas flow rotating in the same direction as the main one, but moving in the opposite axial direction. The amount of auxiliary, secondary gas is 40-65% til for such dust collectors. The dust collector is well-known, which includes a housing located in the lower part of a gal- collector and a nozzle for introducing dusty gas with a swirler and fairing, located in the upper part of the housing an axial nozzle for extracting the purified gas and the introduction of an auxiliary gas flow, made in the form of slopes of tangenzivyk nozzles C23. The waste in {this dust collector is a high consumption of secondary gas, which is associated with energy consumption during its operation (cleaning efficiency reaches 98% at 50-60% of the supply of secondary gas from samiineHHoro flow) t Such consumption of secondary gas is economical roads. an increase in the efficiency of cooling leads to a sharp increase in the secondary gas, which is associated with the need to increase energy consumption during its operation. The purpose of the invention is the energy consumption and dimensions while maintaining a high degree of gas purification. The goal is achieved by the fact that in the proposed dust collector the swirler is made in the form of two concentric

installed annular sections with oppositely directed blades. The drawing shows the proposed dust collector, a view with a partial cut.

The dust collector includes a housing 1, a nozzle for introducing dusty gas 2, an nozzle for withdrawing purified gas 3 with a protective cover 4, a nozzle for evacuating pulverized sludge 5, a nozzle for introducing secondary gas 6, a blade swirler 7 for twisting the auxiliary gas stream, a fairing 8, separating cones 9 and 10, ring swirlers 11 and 12 and dust collector 13. The vanes of the swirlers 11 and 12 are located at an angle of 25-70 seconds to the horizon in a mutually opposite direction, thereby twisting the gas flow in opposite directions.

The device works as follows.

Through pipe 2 in the dust collector enters the dusty stream of gas. The dividing cones 9 and 10 and the fairing 8 divide the flow into two parts, which are sent to the shoulder blades. vortices 11 and 12, twisting the flow in different directions. Solid particles or droplets of a liquid fall into the zone of contact of the threads rotating in different directions, acquire a rotary motion. In the case of rotating particles, an additional force arises which, resulting from the centrifugal nf {force, carries the particles to the wall of the apparatus, clears the flow of dusty gas. The secondary gas enters through the pipe 6 into the dust collector and through the blade swirler in the amount of 5-20% of the amount of the flow recorded is fed towards. The section of the vane swirler is chosen so that the velocity of the secondary energy carrier at the exit of the swirler is 50-70 m / s. The secondary carrier gas transports the particles along the wall of the dust collector into the bag 13 and through the fitting 5 removes dust particles from the apparatus for further

processing. The purified gas is discharged through the pipe 3.

The proposed dust collector has an efficiency from 90 to 98.1%, consumes 5-20%

secondary energy from the amount of dust flow compared to 50-60% in the known. Making the swirler two-piece with the opposite direction of the blades reduces the mileage of the solid particles approximately two times the height of the apparatus, i.e. reduce its geometric dimensions.

The sawn tests of the proposed dust collector showed that the secondary gas flow rate during flue gas cleaning with an efficiency of 98% was 100 per 1000 gas flow, while when the known dust collector operated under similar conditions with the same efficiency, the secondary gas flow rate 400. The height of the proposed psheu; Ovitel half the height of the famous.

Claims (2)

1.Bosch W. Der Drehstronunqsents5 tauber.Ein Dndustrie-Staubabschelder mit neuen Moqlichkeiten. Schweiz. Maschinenmarkt; 1970, 70, No. 13, 138-139. 2. Author's certificate of the USSR 50 No. 519209, cl. B 01 D 45/12, 1969. / V