RU2021843C1 - Dust/gas catcher - Google Patents

Abstract

FIELD: gas purification from both dust and SOSO₂. SUBSTANCE: dust/gas catcher has rotor 1 made in the form of rotary body, inlet gas duct 2 connected to Venturi tube. The rotary body represents a surface with convexity directed downstream the gas. Venturi tube has branch pipe 4 for fluid inlet and it is connected to guiding apparatus 5 made in the form of a segment constituting the rotary body. The guiding apparatus has fluid inlets 6. The rotor is connected to drive system 7 and it is positioned in body 8 provided with channel 9 to remove slurry. The channel is made in the form of horizontal tore-like segment. Body 8 and guiding apparatus 5 form annular channel 10 to remove purified gas. EFFECT: higher gas purification. 7 cl, 5 dwg

Description

The invention relates to gas purification devices, for example, from dust and SO ₂ .

Known dust collectors are large in size, low capture coefficient of fine particles and do not provide complete gas purification from SO ₂ .

 The closest in technical essence to the invention is a dust collector comprising a Venturi pipe connected to a supply duct and a guide apparatus and recessed into the housing, a nozzle for supplying a flushing fluid, a device for removing sludge, an annular channel for discharging gas.

 Large sizes, incomplete capture and low gas velocities in the cyclone are the disadvantages of the prototype.

 The technical result of the invention is to eliminate the noted drawbacks in the developed design of a dust and gas eliminator.

 This goal is achieved by the fact that the device for gas purification includes a venturi pipe with a nozzle for supplying fluid connected to a supply gas duct of contaminated gas, and the lower part - with a guide apparatus made in the form of a segment of a body of revolution, which enters the internal cavity of the drive rotor made in the form of a convex along the gas surface connected to the drive system and placed in the housing, the upper part of which is made in the form of a torus cut along the horizontal plane, made with the edge of the rotor, and the lower part has a device for removing sludge.

 In addition, fluid inlets are located in the guide apparatus.

 In the rotor cavity on the axis of rotation, a sprinkler can be installed, on which fluid inlets can be directed along or against the course of rotation.

 It is possible to move the venturi connected to the guide vane along the vertical axis.

 In FIG. 1 shows a dust and gas trap in which an absorbing liquid, such as milk of lime, is supplied at the lower base of the venturi, and water is sprayed at the inlet to the venturi; in FIG. 2 - dust and gas separator, in which milk of lime is fed at the entrance to the venturi, and water for washing the working surface is supplied at the lower base of the venturi; in FIG. 3 - dust and gas separator, in the rotor cavity of which on the axis of rotation a sprinkler is placed, to which the fluid inlets are directed; in FIG. 4, 5 - section AA in FIG. 3 (in the variants of claims 5 and 6 of the formula).

 The dust and gas catcher includes a rotor 1 made in the form of a body of revolution, namely in the form of a surface convex along the gas, a supply duct 2 connected to a venturi pipe 3. The venturi pipe at the inlet has a pipe 4 for supplying washing liquid and is connected to a guiding apparatus 5 made in the form of a segment of a body of revolution and having fluid inlets 6. The rotor 1 is connected to the drive system 7 and placed in a housing 8 having a channel 9 for removing sludge, made in the form of a horizontal toroidal segment.

 The housing 8 and the guide apparatus 5 form an annular channel 10 for the removal of purified gas. The housing 8 has a bottom 11 device for removing sludge. Channel 9 is made with covering the edges of the rotor.

 The dust collector operates as follows.

 Contaminated gas enters through the duct 2 and the venturi pipe 3 into the inner cavity of the rotor 1. Water is supplied to the entrance to the venturi pipe (Fig. 1). The processes of deposition of dust particles on water droplets and coagulation. In the cavity of the rotor 1, the contaminated gas interacts with a liquid (for example, milk of lime), which is fed through the inlets 6 of the liquid. The resulting slurry under the action of centrifugal forces enters the cavity of the housing 8, from where it is removed through the device 11.

 If the system includes a nozzle 4 for supplying a liquid, for example, milk of lime, at the inlet of the venturi 3, then part of the dust and gases are bonded in the venturi. Water is supplied through the inlets 6, as a result of which the working surface of the rotor 1 is washed. The purified gas is removed through the annular channel 10.

 Compared with the prototype, the dimensions are reduced and the intensity and quality of purification of polluted gases is increased, which achieves a technical and economic effect.

Claims (7)

 1. DUST QUALIFIER, comprising a housing, a Venturi pipe, connected on one side to the inlet duct, and on the other, the lower side, with a guiding apparatus and buried in the housing, a nozzle for supplying flushing fluid, a device for removing sludge in the lower part of the housing, an annular channel gas outlet, characterized in that it is equipped with a drive rotor in the form of a convex surface along the gas, located in the housing, while the guide apparatus is made in the form of a segment of a body of revolution buried in the cavity of the rotor, and the upper part the housing is made in the form of a horizontally placed toroidal segment made with covering the edges of the rotor.  2. The dust and gas trap according to claim 1, characterized in that it is equipped with a spray installed in the rotor cavity on the axis of rotation and rigidly connected with the latter.  3. Dust collector according to paragraphs. 1 and 2, characterized in that it is equipped with fluid inlets located in the guide apparatus.  4. The dust and gas trap according to claim 3, characterized in that the fluid inlets are directed to the sprayer.  5. The dust and gas catcher according to claim 4, characterized in that the fluid inlets are directed towards the sprayer in the direction of rotation.  6. The dust and gas trap according to claim 5, characterized in that the fluid inlets are directed towards the sprayer against the rotation direction.  7. Dust collector according to paragraphs. 1 - 6, characterized in that the venturi pipe with a guide apparatus is mounted with the possibility of movement along the vertical axis.

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