SU1301468A1 - Vortex coagulator - Google Patents

Abstract

The invention relates to the preparation of dried gases for cleaning and allows for an increase in the degree of enlargement of aerosol particles. The vortex coagulator includes a housing 1, an inlet tangential inlet 2 connected to cylinder 4, an axial inlet 5 connected by means of a flue 7 and a diverging tangential inlet 6 with an annular cavity formed by the cylinder 4 and the housing 1, an axial outlet inlet 3, Dust-laden gases through pipe 2 enter the cracker. The bulk of the dust is concentrated in the upper part and on the periphery of the coagulant. Due to the penetration of the outlet nozzle 3 into the coagulator body, dust particles circulate for a long time in the chamber volume, which increases the likelihood of their collision and coagulation. Overloading the gas flow with dust at the periphery of the coagulant causes dust to creep down the wall of the outer cylinder in the wiring harness. Then, dust with some part of the gas due to the pressure difference between the periphery and the axis of the swirling flow enters through the tangential nozzle 6 and the axial nozzle 5 into the axial region of the coagulator, from where it is discharged through the outlet nozzle 3. 4 or less (L CA 5 O5 00 ipual

Description

The invention relates to the preparation of dusty gases for purification and can be used in the metallurgical, chemical and other industrial sectors,

The aim of the invention is to increase the degree of enlargement of aerosol particles.

Fig, 1 shows the device, a general view; in fig. 2 - the same, left view; in fig. 3 shows section A-A in FIG. one; in fig. A - device, view in axonometry.

The vortex coagulator contains a cylindrical body 1 with a lower inlet tangential nozzle 2, an upper axial outlet nozzle 3 buried in the body, a coaxial cylinder 4 with an axial nozzle 5, a diverging tangential nozzle 6 connected to the lower part of the annular cavity between the cylinder 4 and case 1, a flue 7 connecting the pipes 5 and 6.

Vortex coagulant works as follows.

A dust and gas stream containing dust prone to coagulation (smelting sublimates, soot, etc.) enters through the inlet tangential nozzle 2 into cylinder 4, where it acquires a rotational motion and moves along the outer helix to the upper edge 8 of the coagulator, and due to the radial A large part of the gas flows along the coagulant along the internal spiral through the outlet nozzle 3, before reaching the upper part of the coagulum of the czor. The bulk of the dust under the influence of centrifugal forces is carried out of the curve of the movement of gases towards the wall and then the translational movement of gases is carried along the wall upwards. At the periphery of the housing 1 and especially between the upper edge 8 and the cut of the outlet nozzle 3, an area of increased dust concentration is created - a pierced ring in which intense dust coagulation occurs. When a certain concentration of dust in the ring is reached, which exceeds the carrying capacity of the stream, the enlarged dust in the form of harnesses slides along the wall of housing 1 into the cavity formed by cylinder 4 and housing 1, and through tangential nozzle 6, duct 7 and axial nozzle 5 along with a small part of the gas enters the axial region of the coagulant, and is directed to the outlet nozzle 3. The dust-gas mixture from the annular cavity is transported to the axial region due to the pressure difference at the periphery and axis o flow. Since some part of the finest dust after entering the coagulant through the nozzle 2 immediately enters the internal spiral flow, where the enlarged drink goes along the axial nozzle 5, in the axial area of gas movement in the coagulator there is a pronounced polydispersity of dust, which contributes to its further coagulation.

Thus, an increase in the degree of enlarging of dust particles in the proposed vortex coagulator is achieved by increasing the contact time of dust particles, concentrating the bulk of dust in a small volume of gas and increasing the degree of dust polydispersity in the near-axis region of gas movement.

Claims (1)

Invention Formula A vortex coagulator containing a cylindrical body, a lower inlet tangential and an upper axial outlet recessed into the body of the nozzle, characterized in that, in order to increase the degree of aerosol particles compaction, it is equipped with a coaxial cylinder disposed at the bottom of the body with an axial nozzle diverting tangential a pipe connected to the lower part of the annular cavity between the cylinder and the body, and the flue pipe connecting the outlet tangential pipe to the axial pipe of the cylinder, while the inlet tangent The connecting pipe is connected to the bottom of the cylinder, which has a height less than the height of the body. fpuB.i Editor A, Petrov Compiled by S. Gorinov Tehred L. Oleinik Order 1173/7 Circulation 657 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, W-ZZ, Raushsk nab 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader M. Sharoshi