RU2618566C1 - Device for wet dedusting - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: device for wet dedusting comprises a cylinder-conic body with a cover and a supplying tangential branch pipe located at the angle to the horizontal, an outlet pipe for the cleaned gas exhaust. The chute is executed in its bottom part across the whole width in the supplying branch pipe, where the spray device is located, made in the form of a cylindrical brush installed with the possibility of rotation in the chute, which is connected to the branch pipe for fluid supply. The upper brush part facing towards the dust and gas flow stream, is provided with a droplet reflector formed on the entire bottom branch pipe width in the form of a rectangular plate and connected to the chute.

EFFECT: reduction of specific energy consumption for cleaning dust and gas flow stream, improving the efficiency of the cleaning dust and gas flow stream, simplifying the device construction.

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Description

The invention relates to the chemical and food industries and can be used to clean gases from dust in the field of centrifugal forces using wet cleaning.

A device for dust collection [RF Patent No. 2366515, B04, C 5/12, publ. September 10, 2009, BI No. 25], comprising a cylindrical-conical housing with an inlet pipe tangentially located at an angle to the horizontal and a cylindrical outlet pipe coaxially connected to the housing located in the center of the housing. The outlet pipe is equipped with outlet holes located on its lateral surface with intake plates fixed to the hinge with the possibility of fixation from the side of the outlet hole that is removed along the gas flow. The deflection angle of the intake plates from the generatrix of the outlet pipe should not exceed 90 °. At the outlet nozzle, there are intake plates and deflecting blades fixed on a hinge with a possibility of fixation, which deflect the dusty gas stream to the wall of the dust collector. The length and angle of rotation of the blades deflecting the gas flow increases from top to bottom.

          The disadvantages of this device are: complex design, high cost of the apparatus, increased aerodynamic drag and specific energy consumption for cleaning.

 Known gas purification apparatus [RF Patent No. 2380141, B01D 47/06, publ. 01/27/2010, BI No. 3], comprising a vertical cylindrical body equipped with a dispersing device for irrigation fluid, made in the form of a cylindrical nozzle with a cowl and a reflector and a sludge collector installed under it. The reflector is movable. The cylindrical nozzle is made of elastic material, one end of which with a clamp is fixed at the end of the pipeline, the second freely adheres to the fairing.

The disadvantages of the gas cleaning apparatus are: increased hydraulic resistance caused by a narrowing of the gas flow during flow around the nozzle and its frontal resistance to the flow and, as a result, increased specific energy consumption for gas purification; entrainment of dust with liquid droplets due to the high velocity of the gas stream and the presence of droplets of small diameter due to spontaneous unstable dispersion of the outgoing liquid by a turbulent gas stream; breakthrough of untreated volumes of gas due to the fact that in reality the liquid stream does not overlap the cross section of the exhaust shaft, since in this case either the gas stream could not pass through it, or it moved with the liquid stream, but in fact the dust particles come into contact with liquid droplets is chaotic in nature; increased fluid flow for irrigation due to the entrainment of particles of droplets of the apparatus.

The closest in technical essence and the achieved effect is a combined cyclone [RF Patent No. 2325234, B04C 5/12, publ. May 27, 2008, BI No. 15], comprising a housing, a peripheral gas flow inlet made in the form of a tangential nozzle, a hopper connected to the lower conical part of the cyclone, and an outlet pipe, in the upper part of which at least one nozzle is installed, forming a thin torch sprayed. Holes are made in the lower part of the outlet pipe. Each of the nozzles is made in the form of a centrifugal nozzle, consisting of a housing with an inlet, a cover, a sealing gasket placed between the body and the cover, a spring located between the cover and the swirl made in the form of an inverted bottom up cylindrical cup mounted relative to the nozzle body with an annular a gap, moreover, at least two rows of throttle openings are made in the swirl, and at least two zavno uniformly arranged along the annular wall are made in each row a reamer of tangential throttle openings, in the lower part of the nozzle there is a nozzle insert made in the form of a conical washer with a calibrated conical hole coaxial with the cylindrical surface of the swirl and with a taper inverse to the conicity of the conical washer of the insert.

The disadvantages of the cyclone are: a decrease in cleaning efficiency due to the secondary ablation of dust with liquid droplets, due to the high gas flow rate and the small size of the liquid droplets with which the dust particles were aggregated; increased aerodynamic drag caused by drag during air exhaust through openings in the outlet pipe, air flowing around the exhaust pipe for sludge and, as a result, increased specific energy consumption for gas purification, as well as the need for an additional pump with a drive to create a spray pressure of 6-9 MPa; complex design, due to the complexity of the nozzle design, the complexity of the outlet pipe design and the need for significant changes in the design of a typical cyclone during modernization.

An object of the invention is to increase the efficiency of gas purification from dust, simplifying the design of the device, reducing specific energy consumption for gas purification.

The object of the invention is achieved by the fact that in the device for wet dust collection, containing a cylindrical conical housing with a lid and a tangential inlet pipe located at an angle to the horizontal, the outlet pipe for the outlet of the purified gas is new in that in the inlet pipe in its lower part the entire width of the groove is made, in which there is a spray device made in the form of a cylindrical brush mounted for rotation in the groove, to which the pipe is connected ok for supplying fluid, while the upper part of the brush, facing the supply of the dust and gas stream, is equipped with a droplet reflector, also made across the entire width of the lower part of the nozzle in the form of a rectangular plate and connected to the chute.

The technical result of the invention is to increase the cleaning efficiency; reduction of energy consumption for spraying irrigation fluid; less fluid flow; improving the reliability and stability of the device.

The invention is illustrated by drawings: in FIG. 1 is a front view of the device, in FIG. 2 - horizontal projection of the device.

The device for wet dust collection contains a cylinder-conical housing 1, equipped with a cover 2, located at an angle to the horizontal, through which an outlet pipe 3 is made, made coaxially to the cylindrical part of the housing 1. An inlet pipe 4 is attached to the upper part of the housing, and a cylindrical brush 5 is located in its lower part , the upper part of which, facing the supply of the dust and gas stream, is equipped with a droplet reflector 6, made in the form of a plate. The brush and the reflector of the droplets are located across the entire width of the nozzle in the groove 7, made in the lower part of the nozzle 4. To the lower part of the groove 7 is connected a nozzle 8 for supplying fluid. In the lower part of the cylinder-conical housing 1 there is a pipe 9 for removing the resulting dust-liquid suspension.

A device for wet gas purification works as follows.

The dusty gas stream enters the inlet pipe 4, where the third phase is additionally introduced into the stream of the heterogeneous gas to be cleaned — solid particles — liquid in the form of droplets obtained using a spray device made in the form of a rotating brush 5 mounted in the groove 7 along the entire width of the inlet branch pipe 4. Irrigation fluid enters the groove 7 through branch pipe 8; it is fed in such a way that its level is kept constant and is below the edge of the gutter 7.

In the inlet pipe, liquid droplets are aggregated with dust particles and with each other during impact due to turbulence in the flow. Due to this, the size of the droplets increases and they are captured more efficiently than fine dust particles. The brush spray creates a uniform stream of droplets over the entire cross section of the inlet pipe, which ensures effective contact of all phases in the stream of the triple heterogeneous gas - dust - liquid system. The brush 6 reflects liquid droplets ejected towards the dust and gas stream to prevent an increase in the diameter of the resulting liquid droplets. This stream then enters the housing. Due to the fact that the nozzle 4 is located tangentially to the body and at an angle upward with respect to the cover 3, droplets of liquid under the action of centrifugal force move to the walls of the housing 1, colliding with dust particles during aggregation and aggregating them. Upon reaching the walls, droplets are displaced along them down to the conical part of the apparatus, from where the suspension is liquid - dust is removed through the outlet pipe 8. Dust particles that are not aggregated with liquid droplets reach the walls of the apparatus, where they are aggregated with the liquid and suspension film flowing down them. This eliminates the repeated detachment or swirling of dust particles in the lower part of the cyclone, which is essential for fine particles. As a result, the gas cleaning efficiency increases.

The proposed device for wet dust collection allows you to:

- reduce specific energy consumption for cleaning the dust and gas stream;

- increase the efficiency of cleaning the dust and gas stream;

- simplify the design of the device.

Claims (2)

A device for wet dust collection, comprising a cylindrical conical body with a cap and a tangential inlet pipe arranged at an angle to the horizontal, an outlet pipe for the outlet of the purified gas, characterized in that a groove is made in the inlet pipe in its lower part along the entire width, in which the spray device is located made in the form of a cylindrical brush mounted for rotation in a trough, to which a nozzle for supplying fluid is connected, the upper part of the brush facing Oron dust and gas feed stream is provided with a reflector droplets also made over the entire width in the bottom of a rectangular nozzle plate and connected to the trough.

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