SU1017391A1 - Swirl-type dust trap - Google Patents

Abstract

1. VORTEX DUST collector, which contains a cylindrical vortex chamber, an axial nipple in its lower part for introducing the gas to be cleaned with a swirler and a restrictive washer, a shell installed concentrically to it, a dust collector and located in the upper part of the chamber axial outlet of the purified gas and introducing a secondary gas with a swirler, characterized in that in order to increase the efficiency of trapping particles with a low specific gravity by reducing re-entrainment, the shell is made in the shape of a truncated cone, less The innovation of which is turned downwards with the formation of an annular gap between the inner surface and the outer edge of the restrictive washer, and the chamber above the upper, shell base is stepped narrowed. 2. Dust collector according to claim 1, characterized in that the shell is provided with a reflector, made in the shape of a truncated cone, with a smaller base facing upwards O) and fixed on the outer surface of the shell. I Imtfumnu I oo g

Description

The invention relates to a technique for cleaning gas from dust and can be used in the chemical, mining, food industries and other sectors of the national economy.

A device for cleaning gas from dust is known, comprising a housing, an inlet swirling nozzle, a fairing installed at the outlet of the swirling flow after the inlet nozzle, tangentially positioned nozzles for introducing secondary gas shade 1.

A disadvantage of the device is the low efficiency of trapping fine (10 microns) dust fractions.

The closest to the proposed technical essence and achieved result is a vortical dust collector, comprising a cylindrical body, a hopper, a central pipeline with a swirler and a fairing mounted concentrically pipeline cylindrical shell with a baffle plate and with baffles in the annular gap between the central pipeline and the shell, located in the top of the axial output of the purified gas and the input of the secondary gas with a swirler 2.

The disadvantage of the vortex apparatus is that when the secondary flow is rotated in the area of the fender, some of the already separated dust is captured by this flow and returns to the working area of the apparatus, where they must be caught again. The return of particles to the working area increases the concentration of particles in the stream being cleaned, and since the degree of "leaching of particles from the main stream to the secondary stream remains constant, the overall cleaning efficiency in this apparatus decreases.

The aim of the invention is to improve the efficiency of trapping particles of low specific gravity by reducing re-entrainment. This goal is achieved by the fact that

a vortex dust collector containing a cylindrical vortex chamber, an axial nozzle located in its lower part for introducing the gas to be cleaned with a swirler and a restrictive washer, a shell mounted concentrically to it, a dust collector and located in the upper part of the chamber axial withdrawal of the purified gas and the secondary gas inlet with a radiizer, the shell is in the form of a truncated cone, the smaller base of which is turned downwards with the formation of an annular gap between its inner surface and the outer edge of the restrictive plate; amer osno1vanie .m over the upper shell is formed stepwise narrowed.

In addition, the shell is equipped with a reflector, made in the shape of a truncated cone, with a smaller base facing

up and reinforced on the outer surface of the shell.

FIG. 1 shows a vortex dust collector, a general view.

The dust collector consists of a cylindrical vortex chamber 1, a dust collector 2, an axial nozzle for injecting cleaned eider 3 with a swirler 4, a fairing 5 and a restrictive faceplate 6. At the top of the chamber 1 there is an axial outlet of the purified gas 7. In the annular space between terminal 7 and chamber 1 is installed a swirler 8 of the secondary stream fed into this space through the input of the secondary stream 9. A concentric axial inlet of the gas to be purified is installed a shell 10, made in the form of a truncated cone with a reflector 11.

Dust collector works as follows.

The dust-laden gas enters the axial inlet 3 and is twisted by a swirler 4. To eliminate axial flows along the body, a fairing 5 is used, which also contributes to the formation of a vortex. Under the action of centrifugal forces, the dust particles move to the walls of the chamber 1, where they fall into the zone of rotation of the secondary stream supplied to the apparatus through the input of the secondary stream 9 and swirling with a swirler 8.

The rotating secondary stream moves down along the chamber along with the collected dust. The passageway connects the chamber with the dust collector 2, the secondary gas vortex separates from the walls and enters the cavity of the conical shell 10, and dust particles under the action of the same centrifugal forces fly out in the annular gap between the lower section of the chamber and the upper section of the conical shell in the interstitial space between the walls of the dust collector and conical shell, then settling at the bottom of the dust box.

Since the vortex flow, detached from the walls of the casing, is somewhat widened, the vortex chamber above the upper base of the shell 10 is stepped narrowed. Dust particles, which are separated immediately after the main flow is twisted, enter the hopper through an annular gap formed between the inner surface of the shell 10 and the outer edge of the restriction washer 6, the secondary flow is combined with the main flow. The purified gas stream is removed from the apparatus through an axial outlet of the purified gas 7. To prevent air from being drawn from the dust collector through an annular gap formed by the lower section of the chamber and the upper section of the conical shell, a reflector 11 is installed at the bottom of the latter, made in the form of a truncated cone.

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Thus, the use of the proposed dust in the zone of a stepwise contraction of a vortex dust collector allows a siege measure to reduce the secondary dust entrainment, since its concentration at the surface of the restrictive dust. This, in turn, leads to a significant reduction in dust removal .

Claims (2)

1. Vortex dust collector, containing a cylindrical vortex chamber, located in its lower part of the axial nozzle for introducing the gas to be cleaned with a swirl and a restrictive washer, a shell mounted concentrically to it, a dust collector and an axial outlet of the purified gas and an input of secondary gas with a swirl located in the upper part of the chamber, characterized in that in order to increase the efficiency of collecting particles with a low specific gravity by reducing secondary entrainment, the shell is made in the form of a truncated cone, smaller base which faces downward with the formation of an annular gap between its inner surface and the outer edge of the restrictive washer, and the chamber above the upper base of the shell is made stepwise narrowed. 2. Dust collector in π. 1, characterized in that the shell is equipped with a reflector made in the form of a truncated cone, a smaller base facing up and mounted on the outer surface of the shell. SU ... 1017391