RU1818137C - Apparatus for scrubbing a gas - Google Patents

Abstract

Using; in rotor type devices for wet cleaning of flue and process gases, air contaminated by mechanical and vapor impurities; in power engineering, metallurgy, chemistry; mechanical engineering and other industries in the field of flue gas treatment and ventilation emissions. SUMMARY OF THE INVENTION: the device is provided with an alkaline sprinkler placed on a stalemate; cutting gas inlet; a mesh drum arranged parallel to the axis between the bodies of the central auger and the device, rigidly connected, for example, by means of a crossbridge to the end of the auger shaft opposite the end of the auger shaft to the drive; screws (at least two) placed perpendicular to the axis of the central screw on the cross; at least two screws placed parallel to the axis between the central screw housing and the inner cylindrical surface of the retinal drum on consoles fixed to the central screw housing, and brushes in the form of flexible threads are fixed on the outer cylindrical surface and the topqe of the mesh drum, while the mesh drum the screws are rotatably mounted about their axes; moreover, the surface of the central screw housing is limited in length. a mesh drum made perforated with an open end, the screws located between the housing of the central screw and the inner cylindrical surface of the mesh drum are made opposite to winding the central screw and are equipped with disks, on the surface of which are fixed brushes in the form of flexible threads on the side of the inner surface of the end face of the mesh drum, and the open end of the mesh drum is immersed in liquid, the screws located on the cross are equipped with disks, on the surface of which brushes in the form of FIR filaments from the inner surface of the drum, wherein the screw turns partially immersed in the liquid, 3 z..p. f-ly, 1 ill. ate 00 00 A with N1

Description

The invention relates to rotary apparatus for wet cleaning of flue and process gases, air contaminated with mechanical vapor-gas impurities, and can be used in energy, metallurgy, chemistry, mechanical engineering, and other industries in flue gas cleaning and ventilation systems emissions.

The purpose of the invention is to increase the cleaning efficiency and reliability.

This goal is achieved in that a device for wet gas purification, comprising a cylindrical body partially filled with liquid, with gas inlet and outlet pipes, sludge outlet, a central screw mounted on the drive shaft and made in the form of a brush made of flexible threads with a length no less than the distance from the surface of the mount to the surface of contacting the mesh drum with the top. end, placed coaxially between the cylindrical body and the central brush with the possibility of rotation and made with a brush in the form of flexible threads on the outer surface, and equipped with discs with brushes in the form of flexible threads additional screws on the shafts parallel to the shaft of the central screw with the possibility rotation, equipped with a slotted sprinkler placed on the gas inlet pipe, while the mesh drum is rigidly connected to the end shaft of the central auger, opposite the shaft end with the drive, by means of a cross equipped with augers on the processes that are mounted to rotate around its axis, the central auger is bounded by a cylindrical body made with an open end: with perforation in the area located inside the mesh bar and with consoles on the outside surfaces, and additional augers are placed with support on the console, in the space between the central auger body and the mesh drum, made at the end with a brush in the form of flexible threads. Additional augers;: they are filled with a winding angle opposite to the central auger, and the disc brushes of the augers are oriented towards the inner surface of the end of the mesh drum .. The net drum is fully open with the lower end open. immersed in liquid. The cross screws are equipped with discs with brushes in the form of flexible threads oriented to the inner surface of the mesh drum and partially: immersed in liquid,:.

The drawing schematically shows a device for wet gas purification, General

VIEW. ;

The device comprises a cylindrical housing 1, fixed in a cylindrical housing 2, with nozzles for inputting 3 and outlet 4 of gas, outlet 5 for sludge, a central auger b, mounted on a shaft 7 kinematically connected to the drive 8. The shaft 7 is placed in the bodies 1, 2 on supports 9, 10. The gas inlet pipe 3 is provided with a slotted sprinkler 11, to which an irrigated liquid is supplied, for example, from a collector (not shown), the pipe 3, if necessary, can be made in the form of a confuser with a slotted sprinkler 11 placed on it for the purpose increasing the velocity of the incoming gases. The device also comprises a mesh drum 12 located parallel to the axis 13 between the housings 1, 2, rigidly connected, for example, via a cross 14 to the end 15 of the shaft 7 of the central screw 6; screws 16, at least two, placed perpendicular to the axis 13 of the central screw 6 on the crosspiece 14 in the supports 17, 18; screws 19, not less than two, fixed on shafts 20 and placed parallel to axis 13 between the housing 1 of the central screw 6 and in the inner cylindrical surface of the mesh drum 12 on the bearings 21, 22 in the supports 23,24. The consoles 21.22 are rigidly fixed to the housing 1. The mesh drum 12 is kinematically connected by means of a spider 14, a shaft 7 to a drive 8 and is rotatably mounted in supports 18, 25, the mesh drum 12; consists of a cylindrical mesh shell 26, one end of which is rigidly connected with a blank or perforated mesh 27 mounted on the support 25, the other open end of the mesh shell 26 is immersed in a liquid, thus forming a closed space (cleaning chamber), limited by structural elements of the mesh drum 12 and a liquid mirror (i.e., a wall .2.7, a mesh shell 26, a fluid mirror), while on the outer surfaces of the mesh shell 26, the walls 27 of the mesh drum 12, perforated tapes are fixed, nets in the form of webs with reinforced% flexible threads 28, 29, made, for example, of polymeric and other materials, and placed in any order, i.e. along helical lines in the form of a screw, at an oblique or right angle, in a checkerboard pattern, etc. The screws 16 are made in the form of perforated tape fixed on the lateral surfaces of the cylindrical tube 30 along the helical lines, a grid in the form of a brush. Or only brushes with reinforced flexible threads 31, forming turns of the screws 16, which are partially, approximately 2/3 of their length, immersed in a liquid and mounted with the possibility of rotation around its axes in a plane perpendicular to the axis of rotation 13, due, for example, rolling discs 32, rigidly connected to the walls of the pipes 30, along track 33 and friction material, such as rubber, rigidly connected to the ring 34, are fixedly mounted on the housing 2, while on the surface of the disk rollers 32 from the side of the inner surface of the mesh shell 26 of the mesh drum 12 are fixed brushes in the form of flexible threads 35. The screws 19 are made in the form of cylindrical attached to the side surfaces pipes 36. along helical lines of perforated tape, a grid in the form of a brush or only brushes with reinforced flexible threads 37, forming turns of screws 19, and. are mounted to rotate around their axes by, for example, rolling around the disk rollers 38, rigidly connected to the walls of the pipes 36, along a track 39 of friction material, for example rubber, rigidly connected to the inner surface of the mesh shell 26 of the mesh drum 12, the direction of winding of the turns 19 is opposite to the direction of the turns of the central screw 6. In addition, the screws 19 are provided with disks 40 mounted opposite to the roller disks 38 and rigidly connected to the pipe walls 36, while on the surface of the disks 40 brushes are fixed in the form of flexible threads 41 from the side of the inner surface of the wall 27 of the mesh drum 12. The surface of the housing 1 of the central screw 6 for the length limited by the mesh drum 12 is perforated with an open end 42. The threads 43 of the brushes of the central screw 6 have free ends touch the inner side surfaces (walls) of the housing 1. The threads 37 of the screws of the screws 19 with their free ends simultaneously touch the outer perforated side surface of the housing 1 and the inner side surface of the mesh shell 26 mesh the first drum 12. The threads 41 of the brushes located on the disk 40, the free ends touch the inner surface of the wall 27 of the mesh drum 12. The threads 35 of the brushes placed on the disk 32, the free ends in the working area touch the inner side surface of the mesh shell 26 of the mesh drum 12 The threads 28, 29 of the brushes, respectively placed on the outer surfaces of the mesh shell 26, the walls 27 of the mesh drum 12, with their free ends touch the inner surfaces of the housing 2 and the cover 44. In this way, sludge is practically Eski all devices of internal surfaces.

The device operates as follows. The liquid is fed into the slotted sprinkler 11, forming a film barrier in the gas inlet pipe 3, and flows in the form of a film into the housing 1, into the space between the turns and into the turns in the form of brushes of the central screw 6. The gas to be cleaned, the inlet through the pipe 3, passes a liquid film barrier formed by a slotted sprinkler 11, where

gas and liquid are mixed, then the gas-liquid mixture enters the annular space between the shaft 7 of the central screw 6 and the housing 1 and on the brushes of the central screw b, where, under the action of the rotating central screw 6 with a screw brush, it acquires a rotational screw movement (twists) in a movement along axis .13 to the perforation site. In the perforation section, the gas-liquid mixture under the action of centrifugal forces partially passes through the perforation holes of the housing 1, and partially enters the screws of the screws 16 and the liquid mirror, and large dust particles are deposited on the surface of the liquid mirror due to gravity. The gas-liquid mixture falling into the screws of the screws 16 is twisted in a plane perpendicular to the axis 13 of the central screw 6, is additionally mixed with droplets of spray liquid upon contact of the screws of the screws 16 with the surface of the liquid mirror in the housing 2, a certain level of which is supported by automatic equipment with possible recharge ( not shown), and is thrown onto the brushes of the screws 19. The gas-liquid mixture, which fell on the brushes of the screws 19 through the perforation holes in the housing 1 and from the screws 16, is twisted along helical lines, the direction being closed the narrow gas-liquid mixture with the screws 16 is opposite to the spin direction of the central screw 6, and due to centrifugal forces passes through the trellised shell 26, in the space between the latter, the housing 2, the wall 27 of the mesh drum 12, the cover 44 to the outlet through the pipe 4, with brushes, located on the mesh shell 26 and the wall 27 of the mesh drum 12, the gas-liquid mixture is twisted further. In the 8 spaces between threads 43, 31. 35, 37. 41, 28,29, the gas and liquid mixtures are actively crushed and these threads are wetted, and the gas being cleaned undergoes high-intensity turbulization in three opposite directions and two mutually perpendicular planes x Impurities suspended in the gas are captured on wetted threads, the surface of a liquid mirror, particles of crushed liquid and wetted surfaces of the housings 1, 2, cover 44, mesh drum 12, discs 32, 40, pipe 3, i.e. practically from all surfaces of the device, and in the form of sludge cleaned by brushes, they drain and discharge from the device through the nozzle 5. The cleaned gas is displaced from the device by fresh streams into the outlet nozzle 4, while the helical movement of the gas creates

lower resistance to movement, the degree of gas turbulization it is possible to adjust by changing the diameter of the mesh drum 12, changing the diameters of the screws b, 16, 19, stepless adjustment of the speed of the actuator 8, i.e. by changing the ratio between the angular rotational speeds of the mesh drum 12, the central screw b and the roller disks 32, 38. The contact between the roller disks 32, 38 and the tracks 33, 39, respectively, can be in the form of gearing.

In the proposed design of the device for wet gas purification, a high-intensity gas turbulence is achieved, a tube of pellets and pelvis is increased, the mass transfer rate between the liquid dispersed and dispersed phases of the flow is increased, and the mass transfer between the gas and wetted threads is intensified, which improves the cleaning efficiency gas, and as a result of cleaning almost all surfaces contacted with filaments and protecting them from sticking (for example, resinous substances in the production of aluminum), the life of the device and, consequently, its reliability is increased, /.

Formula 1, A device for wet gas purification, comprising a cylindrical body partially filled with liquid, with gas inlet and outlet pipes, sludge outlet, a central screw mounted on a drive shaft and made in the form flexible thread brushes with a length not less than the distance from the fastening surface to the contact surface, which is notable for the fact that, in order to increase cleaning efficiency and reliability, it is equipped with a mesh drum with an upper end placed coaxially between cylindrical housing and the central screw is rotatably and configured with a brush in the form of flexible strands on the outer

surface, additional screws equipped with disks with brushes in the form of flexible threads and mounted for rotation on shafts arranged parallel to the shaft of the central screw, slotted sprinkler placed on the gas inlet pipe, while the mesh drum is rigidly connected to the shaft end of the central screw, opposite the end drive shaft, by means of a cre ...

a part equipped with augers on processes mounted rotatably around its axis, the central auger is bounded by a cylindrical body made with an open end, with perforation in a section located inside the mesh drum and with consoles on the outer surface, and additional augers are placed with support on the console in the space between the central screw housing and the mesh drum, made at the end with a brush in the form of flexible threads.

2. The device according to claim, characterized in that the additional screws are made opposite with respect to

the central screw with the angle of winding, and the brush drives additional. screws are oriented to the inner surface of the end

mesh drum.

3. The device according to paragraphs. 1 and 2, with the proviso that the mesh drum is made with an open lower end immersed in a liquid.

4. The device according to paragraphs. 1-3, characterized in that the screws of the cross are provided with disks with brushes in the form of flexible threads oriented to the inner surface of the mesh drum and partially immersed in liquid.

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