RU2635118C1 - Scrubber for gas cleaning - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: scrubber for gas cleaning comprising a housing, gas supply and discharge pipes, an irrigation device and a liquid collector, the irrigation device is made in the form of five belts coaxial to the housing and to each other, each of which includes a manifold, nozzles, a nozzle jet opening flare of four belts coincides with the direction of the gas movement, and the nozzle jet opening flare of the belt located directly near the gas discharge pipe is directed towards the gas movement, each of the nozzles of the irrigation device is made in the form of a housing with a screw, coaxially located in the lower part of the housing and located in the upper part of the housing, a fitting with a cylindrical liquid supply pipe connected to the diffuser axisymmetric to the housing and to the fitting, wherein the screw is made solid, and the outer surface of the screw is two serially connected surfaces, one of which is at least a single-threaded groove with a right or left thread and is located inside the housing, and the second surface is made smooth in the form of a rotational body axially symmetrically connected to a spray disk located perpendicular to the axis of the housing and protrudes beyond the end surface of the lower housing part, wherein both straight line and curved line of nth-order may be the line forming this surface, and the surface of the spraying disc protruding beyond the end surface of the lower part of the body is bent toward the lower part of the housing and has radial cuts on the peripheral part alternating with the continuous part of the surface of the spraying disc, and the spraying disc of the nozzle is shifted along the axis of the nozzle downwards from the smooth surface of the screw rotational body connected with the helical surface of the screw by a value h depending on viscosity of the sprayed liquid, and is connected with the screw by rod axisymmetric to the screw, characterized in that a diffuser enframing the spraying disc is connected to the end lower part of the nozzle housing, wherein at least three ejection openings are made in the upper part of the diffuser.

EFFECT: increased efficiency of gas cleaning.

2 dwg

Description

The invention relates to the field of gas purification, in particular to devices for wet gas purification, for example, for cleaning flue gases of an oxygen converter.

The closest technical solution to the technical nature and the achieved result is a scrubber for gas purification, including a housing, gas supply and exhaust pipes, an irrigation device and a liquid collector, the irrigation device is made in the form of five belts, coaxial to the body and to each other, each of which includes a collector, nozzles, the torch for opening the jet of nozzles of the four belts coincides with the direction of gas movement, and the torch of opening the jet of nozzles of the belt located directly near the exhaust pipe, to the right n towards the movement of gases (RF patent No. 79448 - prototype).

The disadvantage of the prototype is the relatively low efficiency of gas purification due to insufficient allocation of dust particles from the stream, which is due to the absence of elements in the nozzles of the water collector for the formation of a vortex sprayed liquid stream.

A technically achievable result is an increase in the efficiency of gas purification.

This is achieved by the fact that in a scrubber for gas purification, including a housing, gas inlet and outlet pipes, an irrigation device and a liquid collector, an irrigation device is made in the form of five zones, coaxial to the body and to each other, each of which includes a collector, nozzles, an opening torch the jet of nozzles of the four belts coincides with the direction of gas movement, and the torch of the opening of the jet of nozzles of the belt located directly near the exhaust pipe is directed towards the movement of gases, each of the nozzles of the irrigation device flax in the form of a casing with a screw coaxially located in the lower part of the casing, and a fitting located in the upper part of the casing with a cylindrical fluid inlet connected to a diffuser, an axisymmetric casing and a fitting, the auger is pressed into the casing with the formation of a conical chamber located above the auger, coaxial to the diffuser, and connected in series with it, the screw being solid, and the external surface of the screw being two serially connected surfaces, one of which is at the edge At least, a one-way screw groove with right or left thread is located inside the body, and the second surface is smooth in the form of a body of revolution axisymmetrically connected to the spray disk located perpendicular to the axis of the body, and protrudes beyond the end surface of the lower part of the body, and as a line forming this surface can be either a straight line or an nth-order curved line, and the surface of the spray disk protruding beyond the end surface of the lower part of the body is bent d toward the lower part of the casing and has on the peripheral part radial cuts alternating with the solid part of the surface of the spray disk.

In FIG. 1 schematically depicts the inventive scrubber, in FIG. 2 is a nozzle diagram of an irrigation device.

The scrubber for gas purification (Fig. 1) includes a hollow body 1, in the lower part of which a gas supply pipe 2 and a fluid collector (sludge) are installed 3. Five irrigation belts 4, 5, 6 are installed coaxially at different levels 7, 8 forming an irrigation device. Each belt 4, 5, 6, 7, 8 has a water collector 9, on which the nozzles 10 are evenly mounted, and the torch for opening the jet of nozzles 10 of the belts 4, 5, 6, 7 coincides with the direction of gas movement, and the torch of opening the jet of nozzles 10 of the belt 8, located in the upper part of the housing 1, directly at the gas outlet pipe 11, is directed towards the movement of gases.

Gases are supplied through the gas supply pipe 2 to the housing 1 from below and rise upward, during the movement, the gas flow is irrigated by the water sprayed by the nozzles 10. The dust particles in the gas are deposited on the droplets, the inertial effect of the capture of dust particles by droplets, i.e. the process of kinematic coagulation is carried out, and in the case of coincidence of the direction of movement of gases and water, coagulation occurs more intensively and faster, due to the longer stay of water droplets in the housing 1, and the irrigation belt 8 provides oncoming movement of water droplets in relation to gases, which reduces the entrainment of the latter in the pipe exhaust 11.

The vortex nozzle (Fig. 2) contains a casing 11 with a screw 17 coaxially located in the lower part of the casing and a fitting 12 located in the upper part of the casing with a cylindrical fluid inlet 13 connected to a diffuser 14, an axisymmetric casing 11 and a fitting 21. For the tight connection of the housing 11 with the fitting 12 is provided with a sealing gasket 15. The screw 17 is pressed into the housing with the formation of a conical chamber 6 located above the screw 17, coaxially to the diffuser 4, which is connected in series with it. The screw 17 is made continuous, and the outer surface of the screw 17 is two serially connected surfaces, one of which is at least a single-thread screw groove 18 with right or left thread and is located inside the housing 11, and the second surface 20 is made smooth in the form body rotation, axisymmetrically connected to the spray disk 21, located perpendicular to the axis of the housing, and stands for the end surface of the lower part of the housing, and as a line forming this surface, there can be either a straight line or an nth-order curved line, for example, spherical, elliptical, parabolic, etc. (not shown in the drawing). In this case, the screw 17 can be fixed in the housing by means of screws 19. The nozzle screw 17 is made of solid materials: tungsten carbide, ruby, sapphire.

The surface of the spray disk 21, protruding beyond the end surface of the lower part of the housing 11, is bent toward the lower part of the housing and has radial cutouts (not shown) in the peripheral part, alternating with the solid part of the surface of the spray disk 21.

The spray disk 21 is displaced along the axis of the nozzle down from the smooth surface of the body of revolution 20 of the screw 17, connected to the screw surface 18 of the screw by an amount h, depending on the viscosity of the sprayed liquid, and connected to the screw 17 by means of a rod 22 axisymmetrically located on the screw 17.

Vortex nozzle for spraying liquids works as follows.

The fluid is supplied through a cylindrical hole 13 to the diffuser 14, and from it to the conical chamber 16, from which it flows under pressure into the screw external cavity of the screw 17. A rotating fluid flow in the external screw cavity of the screw forms a vortex movement, with additional crushing of liquid drops due to turbulization of the outlet stream, and a finely dispersed rotating stream leaves the nozzle with a wide rotating torch of the sprayed liquid (solution) and encounters the surface of the spray disk 21, otorrhea at the peripheral portion bent toward the lower housing portion, provided with radial cutouts alternating with a continuous part of the surface of the spray plate 21, thus increasing the surface of the liquid while spraying additional fragmentation of liquid droplets.

A variant is possible when a diffuser 23 is connected to the end lower part of the nozzle body 11, covering the spray disk 21, while at least three ejection openings 24 are made in the upper part of the diffuser.

The proposed design scrubber is used in flue gas purification devices in the oxygen-converter shop of OJSC Magnitogorsk Iron and Steel Works.

Claims (1)

A scrubber for gas purification, including a housing, gas inlet and outlet pipes, an irrigation device and a liquid collector, an irrigation device made in the form of five belts, coaxial to the body and to each other, each of which includes a collector, nozzles, a nozzle opening nozzle jet of four belts coincides with the direction of movement of the gases, and the torch of the jet opening of the nozzles of the belt located directly near the exhaust pipe is directed towards the movement of gases, each of the nozzles of the irrigation device is made in the form of a housing with a screw ohm, coaxially located in the lower part of the housing, and a fitting located in the upper part of the housing with a cylindrical fluid inlet connected to the diffuser, axisymmetric housing and fitting, the screw is pressed into the housing with the formation of a conical chamber located above the screw, coaxially to the diffuser, and connected with it in series, moreover, the auger is made continuous, and the outer surface of the auger consists of two surfaces connected in series, one of which is at least one-way wine groove with a right or left thread, and is located inside the body, and the second surface is made smooth in the form of a body of revolution axisymmetrically connected to the spray disk located perpendicular to the axis of the body, and protrudes beyond the end surface of the lower part of the body, and as a line forming this the surface can be either a straight line or an nth-order curved line, and the surface of the spray disk protruding beyond the end surface of the lower part of the housing is bent towards the lower part of the housing and has peripheral parts radial cuts alternating with the solid part of the surface of the spray disk, the spray disk of the nozzle is displaced along its axis down from the smooth surface of the body of rotation of the screw connected to the screw surface of the screw by an amount h, depending on the viscosity of the sprayed liquid, and is connected to a screw by means of a rod axisymmetrically located to the screw, characterized in that a diffuser is connected to the end lower part of the nozzle body, covering the spray disk, while in the upper part and a diffuser made of at least three ejection holes.

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