RU43475U1 - Dust collection system - Google Patents

Abstract

The system comprises a dust collector, a cyclone connected to it and a gas duct connected to the dust collector. The difference is that the dust collector is made in the form of a vortex inertial dust collector, with an upper axial outlet, with an upper inlet connected to the gas duct. In this case, the cyclone is made with irrigation and with an electric drive for rotating the cylindrical drum. In addition, the ratio of the diameters of the lower and upper entrances of the vortex inertial dust collector is 1: (1.75-1.8). This allows you to increase the efficiency of dust collection.

Description

The utility model relates to techniques for cleaning gases from dust and can be used in various industries - building materials, chemical, food, metallurgical, etc.

A known dust collection system comprising a dust collector including cyclone elements and bag filters, a cyclone connected to it with a fan that is connected to a gas duct, connected to a dust collector (see the description of the invention to USSR copyright certificate No. 360958, IPC V 01 D 45/12, publication November 5, 73).

The disadvantages of the known dust collection system include the complexity of the design and the lack of collection efficiency

The objective of the claimed utility model is to increase the efficiency of gas purification.

The essence of the utility model is that in a dust collection system containing a dust collector, a cyclone connected to it and a gas duct connected to a dust collector, the dust collector is made in the form of a vortex inertial dust collector in the upper axial outlet, with an upper input connected to the gas duct, and a lower input connected through the cyclone to the duct, while the cyclone is made with irrigation of dusty gas and an electric drive for rotation of the cylindrical drum.

In addition, the ratio of the diameters of the lower and upper entrances of the vortex inertial dust collector is 1: (1.75-1.8) This allows to increase the efficiency of dust collection.

The essence of the utility model is illustrated in the drawing, where Fig. 1 shows a general dust collection system.

The dust collection system contains an inertial vortex dust collector 1, a cyclone 2 connected to it and a gas duct 3 connected to the dust collector 1. The dust collector is made in the form of a vortex inertial apparatus with an upper axial outlet 4, with an upper input 5 connected to the gas duct 3, and with a lower output 6 connected through a cyclone 2 and a valve 7 to the gas duct 3. To capture dust coming out of the gas from the cyclone 2, irrigation is carried out with liquid (water) through nozzles (not shown in the drawing). Mixing of the absorbing liquid with gas is carried out by the blades 8, which are rotationally driven by the electric drive 9.

The trapped dust in the cyclone 2 enters the hopper 11. The trapped dust in the vortex inertial dust collector 1 enters the hopper 10.

The dust collection system works as follows:

dusty gas enters for cleaning through the gas duct 3. Part of the gas is directed through the valve 7 to cyclone 2, the other part through the inlet 5 to the inertial vortex dust collector 1

For the effective operation of the dust collector 1, 25-35% of the total gas volume is directed to the lower inlet. This is done by the design of the dust collector 1, in which the ratio of the diameters of the lower 6 and upper 5 inlets of the dusty gas is 1: (1.75-1.8).

Cyclone 2 is designed for pre-treatment of dusty gas entering the lower inlet 6 of dust collector 1. To efficiently trap dust coming out of the gas from cyclone 2, liquid is sprayed through nozzles. The absorbing liquid is broken by the blades 8, the rotation of which is carried out by an electric motor 9. Caught in

dust collector 1 dust is sent to the hopper 10, and the cleaned gas is discharged through the axial outlet 4.

The claimed utility model allows to increase the efficiency of dust collection, because provides 25-35% of the total amount of gas to be cleaned previously cleaned in cyclone 2 to the lower inlet of the vortex inertial dust collector.

At the upper inlet of the dust collector 1, a significantly larger gas flow arrives, in which the dust concentration is significantly higher.

Such a distribution of dusty gas flows and a decrease in concentration in the lower inlet 6 ensures the efficient operation of the dust collector 1.

Claims (2)

1. A dust collection system comprising a dust collector, a cyclone connected to it and a gas duct connected to a dust collector, characterized in that the dust collector is made in the form of a vortex inertial dust collector with an upper axial outlet, with an upper input connected to the duct, and with a lower input connected through a cyclone to the duct, while the cyclone is made with irrigation of a dusty stream and with an electric drive for rotation of the cylindrical drum. 2. The dust collection system according to claim 1, characterized in that the ratio of the diameters of the lower and upper inputs of the vortex inertial dust collector is 1: (1.75-1.8).