SU1586748A1 - Inertial dust trap - Google Patents

Abstract

The invention relates to dedusting devices used to separate solid particles from a gas stream in drying and pneumatic conveying installations and allows increasing the degree of dust collection while maintaining small dimensions and weight of the device. The inertial dust collector contains a tank 1 with a nozzle for introducing a dust-gas mixture and a nozzle 4 for gas outlet, which are located at a right angle relative to each other. The nozzle input dust-gas mixture is made in the form of two coaxial tubes 2,3, installed with a gap covered by the nozzle 4 of the output gas. The ratio of the length of the pipe 3 adjacent to the container 1 to its diameter is at least two. The pipe 3 of the dust-gas mixture inlet pipe adjacent to the container is installed so that it can be moved. 1 hp f-ly, 2 ill.

Description

The invention relates to a technique for dust removal of gases and can be used to separate solid particles from a dust and gas stream in pneumatic transport and drying plants, used mainly in the production of chemical reagents and highly pure substances.

The purpose of the invention is to increase the degree of dust collection while maintaining small dimensions and mass of the dust collector.

In Fig.1 shows an inertial dust collector, General view; figure 2 adjustable gap between the two pipes of the inlet of the dust-gas mixture.

The inertial dust collector consists of a tank 1 with a nozzle for introducing a dust and gas mixture made in the form of two coaxially installed pipes and 3 and a nozzle 4 for gas outlet, which is located at right angles to the nozzle for introducing a dust and gas mixture. Pipes 2 and 3 of the inlet of the dust and gas mixture are installed with a gap covered by the gas outlet pipe 4, the ratio of the length of the pipe 3 adjacent to the tank 1 to its diameter is at least 2, ·· The change in the gap between the pipes 2 can be made, for example, by installing the pipe 3 of the inlet of the dust-gas mixture with the possibility of its movement, or by installing the pipe 5 in the pipe 3 and fixing it with the screw 6.

Solid particles (dispersed phase of the dust and gas stream) are removed from the dust collector using the discharge gate 7.

The dust collector operates as follows.

The dust and gas stream to be dedusted enters through a pipe consisting of two pipes 2 and 3. In the booster pipe 2, the stream accelerates to the required speeds, and when the gap between the two pipes is reached, it sharply rotates through an angle of 90 °. Solid particles fly by inertia through the pipe 3 into the tank 1, where they are deposited. For. of the proposed dust collector, it is recommended that the ratio of the length of the pipe 3 adjacent to the tank 1 to its diameter be at least 2.

When the ratio of the length of the pipe 3 to its diameter less than 2 begins to affect the inertia of the gas stream with the possible penetration of the gas stream into the tank 1, subsequent turbulence of the medium in the tank 1 and the removal of solid particles from the tank 1 with a gas stream, the minimum ratio at which almost no secondary removal of particles from tank 1, obtained experimentally.

The installation of two pipes 2 and 3 with a gap covered by a pipe 4 of the gas outlet allows the most efficient sharp turn (by 90 ^e ) of the gas flow.

To maintain the gas velocity in the gap between the two pipes covered by the third pipe, it is necessary that the cross-sectional area of the gap be equal to the cross-sectional area of the booster pipe 2. If this, the gap size is determined by the formula where D is the diameter of the booster pipe.

However, due to the uneven distribution of gas flow velocities in the space covered by the gap, the optimal value of the gap & _{0 also} depends on the velocity of the dust and gas stream at the outlet of the pipe 2, and can be configured for. of each specific velocity field by varying the gap value V ?.

In order to expand the technological capabilities of the inertial dust collector of the proposed design, the gap between the pipes 2 and 3 is made with the possibility of changing it.

Claims (2)

Claim 1. Inertial dust collector containing a non-flowing container with a nozzle for introducing a dust and gas mixture and a nozzle for withdrawing gas, located at right angles to a nozzle for introducing a dust and gas mixture, characterized in that, in order to increase the degree of dust collection while maintaining small dimensions and mass of the dust collector, the nozzle The input of the dust-gas mixture is made in the form of two coaxial pipes installed with a gap inside the gas outlet pipe, and the ratio of the length of the pipe adjacent to the tank to its diameter is at least 2. 1586748 ⁶ 2. The dust collector according to claim 1, about t - entering the dust-gas mixture is installed kicking so that the pipe, ^{with the} possibility of its movement, adjacent to the tank, pipe Figure 1