RU2361646C1 - Dust chamber with acoustic dispersion of liquid - Google Patents

Abstract

FIELD: technological processes, filters.

SUBSTANCE: invention is related to procedure of wet dust collection and may be used in different industries for cleaning of dusty gases. Dust chamber comprises body installed onto elastic elements, inlet of dusty gas, fan, outlet of cleaned gas, water sprayers alternating with packet of partitions, mist eliminator and device for slurry removal. Packet of partitions is arranged in the form of at least two partitions. One of partitions is a deflecting element with through hole and is installed last in packet of partitions. The other partition is arranged as perforated. Mist eliminator consists of plates installed in body and having incline from upper plane to the lower one. Plates in section, which is perpendicular to length, have wedge-like streamlined shape. Water sprayer is arranged in the form of acoustic nozzles. Every nozzle comprises body with generator of acoustic oscillations installed inside, ring with conic surface connected to body and sprayer. Sprayer is fixed in body by means of hollow rod with auger swirler and collar at the end for installation of annular platform, on which liquid flows from sprayer. Resonator is arranged in the form of at least one spherical cavity installed in ring wall. Spherical cavity is connected by calibrated hole to annular slot created by end planes of body and ring from the side of conic surface. Ring is installed with the possibility of fixed displacement along body axis by means of threaded joint. Nozzle resonator is arranged with the possibility to adjust generated frequency of acoustic oscillations due to control of annular slot width.

EFFECT: higher efficiency and reliability of dust collection process by increasing extent of liquid dispersion by water sprayers.

2 cl, 4 dwg

Description

The invention relates to techniques for wet dust collection and can be used in chemical, textile, food, light and other industries for the purification of dusty gases.

A known apparatus for wet cleaning of dusty air according to RU No. 2281147, comprising a housing, water sprinklers, a gas stream inlet, a purified gas outlet pipe and a sludge outlet device.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the underdeveloped spray surface of the liquid.

The technical result is an increase in the efficiency and reliability of the dust collection process by increasing the degree of spraying liquid with water sprayers.

This is achieved by the fact that in a dust chamber containing a housing mounted on elastic elements, an input of a dusty gas stream, a fan, a suction pipe of which is connected to the housing by means of an elastic coupling, an outlet pipe of purified gas, water sprinklers alternating with a package of partitions, a spray catcher and a device for sludge removal, moreover, the package of partitions is made in the form of at least two partitions, one of which is a baffle element with a through hole, and the baffle element is through the hole from the package of partitions is installed last in the package, and the ratio of its height “b” to the height of the through hole “c” is in the optimal range of values: b / c = 2 ... 5, and the other partition is perforated with a perforation coefficient of 0.5, with this gap between the partitions in the package of partitions is 0.01 ... 0.1 of their height, and the spray catcher consists of at least three rows of plates placed in the housing having a slope from the upper plane to the lower, as well as in a section perpendicular to the length , - wedge-shaped streamlined mu, water sprinklers are made in the form of an acoustic nozzle for spraying liquids, comprising a housing with an acoustic oscillator located inside a concentric annular slots located in a plane perpendicular to the axis of the housing, a ring with a conical surface connected to the housing and used to form the resulting torch of the liquid being cut and a sprayer used to form a liquid film blocking the outlet of the generator and fixed to the housing by a hollow rod with a screw swirl at the end and a shoulder for placing an annular platform onto which liquid flows from the atomizer, the resonator being made in the form of at least one spherical cavity located in the ring wall, the spherical cavity being connected by a calibrated hole to the annular gap formed by the planes of the housing and the ring on the side of the conical surface, and the ring is located with the possibility of fixed movement along the axis of the housing through a threaded connection.

Figure 1 shows a General view of the dust chamber, figure 2 is a section aa of figure 1, figure 3 is a section bB of figure 1, figure 4 is a General view of an acoustic nozzle for spraying liquids.

The dust chamber contains a housing 1, a dusty gas stream inlet, a fan 5 with an electric motor 6, a purified gas outlet pipe, water sprayers 2 in the form of acoustic nozzles connected to gas and liquid supply lines, respectively (see Fig. 1), alternating with a packet of 3 partitions , a spray trap 4 and a device 7 for removing sludge. The package of partitions is made in the form of at least two partitions 3, one of which is a fencing element with a through hole "c" (see figure 3), and the other is made perforated with a perforation coefficient of 0.5, and the spray trap 4 consists of placed in the body of at least three rows of plates having a slope from the upper plane to the lower, as well as in a section perpendicular to the length, a wedge-shaped streamlined shape (see figure 2). The housing 1 is mounted on the elastic elements 8, and the suction pipe of the fan is connected to the housing by means of an elastic coupling 9. The baffle element with the through hole "c" from the package of 3 partitions is installed last in the package, and the ratio of its height "b" to the height of the through hole "c "Is in the optimal range of values: b / s = 2 ... 5. The gap between the partitions in the package of partitions is 0.01 ... 0.1 of their height.

The acoustic nozzle (Fig. 4) for spraying liquids comprises a housing 10 with an acoustic oscillator located inside the nozzle 11 and a resonator 12. A ring 13 with a conical surface 14 connected to the housing is located on the housing 10 and serves to form the resulting torch of the sprayed liquid flowing through the channel of the hollow rod 15. A spraying agent, such as air or any other gas, enters the gas channel 16, and from it through the nozzle 11, made in the form of an annular gap 17 into the ring 13 towards the screw curl chitel 18, which serves to form a liquid film that blocks the exit from the resonator 12. Liquid is supplied from the hollow rod 15 with a screw swirler 18 at the end and a shoulder to accommodate the annular platform 19, to which it flows. The resonator is made in the form of at least one spherical cavity 12 located in the wall of the ring 13, and the spherical cavity is connected by a calibrated hole 20 with an annular gap formed by the end planes of the housing 10 and the ring 13 from the side of the conical surface 14, and the ring 13 is located with the possibility of a fixed movement along the axis of the housing 10 by means of its threaded connection 21.

The resonator can be configured to control the generated frequency of acoustic vibrations by adjusting the width of the annular gap 17 formed by the end planes of the housing and the ring from the side of the conical surface by installing calibrated spacers 22 between the housing 10 and ring 13, the thickness of which corresponds to a given frequency of acoustic vibrations.

The dust chamber operates as follows.

A dusty gas stream enters the housing 1 through the inlet of a dusty gas stream and encounters a water curtain, which is created by water sprinklers 2 in the form of nozzles alternating with a packet of 3 partitions. The dimensions of the washing chamber must be selected so that the gas velocity in them is from 1.5 to 2.5 m / s, and the residence time in the chamber is at least 3 seconds. The water flow for flushing gases ranges from 0.2 to 1.0 l / m ² , while the hydraulic resistance of the washing chambers together with spray traps 4 does not exceed 300 ... 500 Pa. The dust collection process proceeds in the optimal hydrodynamic mode, since the hydraulic resistance of the passage formed by the fenders with the through hole "c" from the package of 3 partitions is 20% less than the hydraulic resistance of the outlet pipe 5 of the purified gas. To reduce the vibro-acoustic activity of the apparatus and its metal consumption, as well as to increase its reliability, the proposed device provides the following measures: a layer of soft vibration-damping material, for example, VD-17 mastic, is applied to the surface of the parts, and the ratio between the metal thickness and the vibration-damping coating is in the optimal range of values: 1 / (2.5 ... 4). To remove sludge, a device 7 is used to remove sludge in the form of a channel in the bottom of the housing or a separate pipeline. To intensify the dust collection process, the camera body 1 is mounted on elastic elements 8, which contributes to the occurrence of oscillations and a more intensive descent of the sludge from the bags 3, as well as enhanced condensation and separation of droplets in the spray catcher 4.

The acoustic nozzle for spraying liquids works as follows.

A spraying agent, for example air, is supplied through a gas channel 16, where it meets a resonator 12 made in the form of a spherical cavity connected to the nozzle 11 via a calibrated hole 20. As a result of the passage of the resonator 12, a spraying agent (for example, air) in the latter pressure pulsations creating acoustic vibrations, the frequency of which depends on the parameters of the resonator. The acoustic vibrations of the spraying agent contribute to finer atomization of the solution supplied to the channel of the hollow rod 15. From the screw swirler 18, the liquid flows in the form of a film to the pad 19, and then crumbles under the influence of acoustic vibrations of air into small droplets, as a result, a spray torch with air whose root angle is determined by the angle of inclination of the conical surface 14 of the ring 13.

The washing chamber can be used for dust removal and air humidification in ventilation installations and air conditioning units.

Claims (2)

1. A dust chamber comprising a housing mounted on elastic elements, an input of a dusty gas stream, a fan, a suction pipe of which is connected to the housing by means of an elastic coupling, an outlet pipe of purified gas, water sprinklers alternating with a package of partitions, a spray collector and a device for removing sludge, the package of partitions is made in the form of at least two partitions, one of which is a baffle element with a through hole, and a baffle element with a through hole from the packet the partitions are installed last in the bag, and the ratio of its height “b” to the height of the through hole “s” is in the optimal range of values: b / c = 2 ... 5, and the other partition is perforated with a perforation coefficient of 0.5, while the gap between the partitions in the package of partitions is 0.01 ... 0.1 of their height, and the spray catcher consists of at least three rows of plates placed in the housing, sloping from the upper plane to the lower, and also in a cross section perpendicular to the length - wedge-shaped streamlined, characterized in that water sprays are made in the form of an acoustic nozzle for spraying liquids, comprising a housing with an acoustic oscillation generator located inside it with concentric annular slots located in a plane perpendicular to the axis of the housing, a ring with a conical surface connected to the housing and used to form the resulting torch of the liquid being sprayed, and an atomizer used to form a liquid film blocking the outlet of the generator and fixed in the housing by means of a hollow rod with with a screw swirl at the end and a shoulder for placing an annular platform onto which liquid flows from the atomizer, the resonator being made in the form of at least one spherical cavity located in the ring wall, the spherical cavity being connected by a calibrated hole to an annular gap formed by end planes the case and the ring from the side of the conical surface, and the ring is located with the possibility of fixed movement along the axis of the case by means of a threaded connection. 2. The dust chamber according to claim 1, characterized in that the nozzle resonator is configured to control the generated frequency of acoustic vibrations by adjusting the width of the annular gap formed by the end planes of the housing and the ring from the side of the conical surface by installing calibrated gaskets between the housing and the ring, whose thickness corresponds to a given frequency of acoustic vibrations.

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