RU2669821C1 - Scrubber with movable nozzle - Google Patents

Abstract

FIELD: dust collection equipment.

SUBSTANCE: invention relates to a wet dust collection technique, namely a scrubber with a movable nozzle that can be used in chemical, textile food, light and other industries to clean dusty gases. Scrubber contains a body with dusty and clean gas pipes, a spraying device, a bottom support and distributing plate and a top limiting plate with filler material arranged there between, a liquid trap and a slime discharge device. Vibrators are mounted on the bottom support and distributing and top limiting plates. In this case versions of the nozzle are allowed: in the form of hollow balls, on the spherical surface of which a screw groove is cut; in the form of a helical line formed on a spherical surface and having in the section perpendicular to the helical line a profile like circle, polygon, "Berl saddle" or "Italox" saddle; in the form of cylindrical rings, on the side surface of which a screw groove is cut; in the form of a screw line formed on a cylindrical surface and having a profile like a circle, a polygon, a "Berl saddle" or an “Itallox” saddle in a section perpendicular to the helix; in the form of toroidal rings; in the form of toroidal rings having a profile like circle, polygon, "Berl saddle" or "Italox" saddle. Liquid trap is made in the form of concentrically arranged cylindrical rings or in the form of concentrically arranged rings having in cross section passing through the axis of the ring, a zigzag profile, and the spraying device is made in the form of an injector with a swirl insert.

EFFECT: increased dust collection process efficiency and reliability.

1 cl, 5 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.

The closest technical solution to the claimed object is a scrubber with a movable nozzle, known from RF patent No. 2280492, (prototype), comprising a housing with nozzles for dusty and purified gas, an irrigation device, a lower support and distribution plate and an upper restrictive plate, between which is located layer nozzle, and a device for the removal of sludge.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the underdeveloped surface of the nozzle and the relatively low degree of atomization of the liquid of the irrigation device.

The technical result is an increase in the efficiency and reliability of the dust collection process.

This is achieved by the fact that in a scrubber with a movable nozzle containing a housing with nozzles for dusty and purified gas, an irrigation device, a lower support and distribution plate and an upper restriction plate, between which there is a nozzle layer, a spray trap and a device for removing sludge, the lower support the distribution and upper restrictive plates and nozzle are made of elastic materials, and vibrators are installed on the lower supporting and distribution and upper limit plates, the nozzle is made in de hollow balls, on the spherical surface of which a helical groove is cut, or the nozzle is made in the form of a helix formed on a spherical surface, and having a cross section perpendicular to the helix, a profile such as a circle, polygon, Berl saddle or Itallox saddle, or the nozzle is made in the form of cylindrical rings, on the lateral surface of which a helical groove is cut, or the nozzle is made in the form of a helix formed on a cylindrical surface and having a cross section perpendicular to the screw line and, a profile such as a circle, polygon, Berl saddle or Itallox saddle, or a nozzle made in the form of toroidal rings, or a nozzle made in the form of toroidal rings having a profile such as a circle, polygon, Berl saddle, or Itallox saddle or the nozzle is made of elastic polymeric materials, composite materials, and obtained by molding or sintering methods, and the spray catcher is made in the form of concentric cylindrical rings 1-2 mm thick, and with a distance of 3-4 mm between them, or the spray catcher in the form of concentrically arranged rings having a zigzag profile, for example a sinusoidal one, in a section passing through the axis of the ring, the irrigation device is made in the form of a nozzle containing a housing, a nozzle and a swirl insert coaxially located with them, an expanding channel for supplying is made in the nozzle fluid into a cylindrical hole, which is made axisymmetrically to the body and smoothly passes into, coaxial with it, a figured hole made in the form of a diffuser, and in the cylindrical hole of the body, axisymmetrically y, a cylindrical swirl insert is installed having external peripheral helical threaded channels, and a central axial hole is made along the axis of the swirl insert with a screw thread on the inner surface, the reverse direction of the channel cutting, while the swirl insert is installed in the housing through elastic gaskets and is pressed nipple by means of a threaded connection, the body-nipple, while the external screw-shaped threaded channels and screw thread on the inner surface of the axial bore the swirl woks are made with a variable pitch, the swirl insert is made of wear-resistant material, and a perforated disk is installed in the upper part of the nozzle, into which a hollow helical conical swirl swivel is mounted, installed in an expanding channel for supplying fluid into a cylindrical hole made axisymmetrically to the nozzle body, and on the surface of the hollow helical conical swirl made screw through cutting.

In FIG. 1 shows a scrubber with a movable nozzle; FIG. 2 - nozzle in the form of hollow balls, on a spherical surface of which a helical groove is cut, in FIG. 3 - nozzle in the form of cylindrical rings, on the side surface of which a helical groove is cut, in FIG. 4 - a nozzle in the form of cylindrical rings, on the lateral surface of which a helical groove is cut, having in cross section perpendicular to the helical line a profile of the Berl saddle or Itallox saddle, in FIG. 5 is a diagram of an irrigation device 7.

The scrubber with a movable nozzle comprises a housing 1 with nozzles 2 and 3, respectively, for dusty and purified gas, an irrigation device 7, a lower support and distribution plate 4 and an upper restriction plate 6, between which there is a layer of nozzle 5, a spray trap 9 and a device for removing sludge 8 (Fig. 1). The lower 4 supporting distribution and upper 6 restrictive plates and nozzle 5 are made of elastic materials. A vibrator is installed on the lower support-distribution plate 4 (not shown in the drawing). On the upper restrictive plate 6 can also be installed a vibrator (not shown). On the lower 4 supporting distribution and upper 6 restrictive plates can be installed on a vibrator (not shown). To reduce the vibro-acoustic activity of the apparatus, the scrubber body 1 is mounted on a vibro-damping pad 10.

The nozzle 5 is made in the form of hollow balls, on a spherical surface of which a helical groove is cut (Fig. 2) or in the form of a helix formed on a spherical surface and having in profile a cross section perpendicular to the helix, a profile such as a circle, polygon, “Berl saddle” or Itallox saddles (Fig. 4).

The nozzle 5 is made in the form of cylindrical rings, on the lateral surface of which a helical groove is cut (Fig. 3) or in the form of a helix formed on a cylindrical surface and having in profile a cross-section perpendicular to the helical profile, such as a circle, polygon, “Berl saddle” or Itallox saddles (Fig. 4).

The nozzle 5 is made in the form of toroidal rings (not shown in the drawing) or in the form of toroidal rings having a profile such as a circle, polygon, Berl saddle or Itallox saddle (not shown in the drawing).

The nozzle 5 is made of elastic polymeric materials, composite materials, and obtained by molding or sintering.

The spray catcher 9 is made in the form of concentric cylindrical rings 1 ... 2 mm thick, and with a distance between them 3 ... 4 mm. The spray catcher is made in the form of concentrically arranged rings having, in cross section passing through the axis of the ring, a zigzag profile, for example a sinusoidal one, moreover, the thickness of the rings is 1 ... 2 mm, and the distance between them is 3 ... 4 mm. The spray catcher is made in the form of concentrically arranged rings having a section in the section passing through the axis of the ring, a profile consisting of series-connected circles, with the rings having a maximum thickness of 3 ... 4 mm and a distance between them of 4 ... 5 mm (not shown in the drawing) .

A scrubber with a movable nozzle operates as follows.

The dusty gas stream enters the housing 1, through the inlet of the dusty gas stream 2, and meets a curtain from the nozzle 5, which is wetted with water or other absorbent from the irrigation device 6. To remove sludge, a device 7 is used to remove sludge in the form of a channel in the bottom case or separate mechanism. To ensure free movement of the nozzle 5 in the gas-liquid mixture, its density should not exceed the density of the liquid. The process of dust collection takes place in the optimal hydrodynamic mode of the gas scrubber, characterized by the regime of full developed fluidization. To intensify the hydrodynamic regime, a vibrator (not shown in the drawing) can be installed on the lower support distribution plate 4, or a vibrator (not shown in the drawing) can be installed on the upper restriction plate 6, or simultaneously on the lower 4 distribution and upper limit 6 plates can be installed on a vibrator (not shown in the drawing). This will allow the scrubber to switch to the vibro-fluidized bed mode, in which the interaction efficiency of the nozzle 5, irrigated by the liquid, with the gas phase will increase, and, consequently, will increase the overall efficiency of the apparatus. The implementation of the nozzle 5, the lower 4 of the support distribution and upper 6 restrictive plates of elastic material will allow under certain conditions to create a mode of oscillation or self-oscillations, which will also increase the efficiency of interaction of the nozzle 5 with the irrigated liquid. Moreover, 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 (not shown), is applied to the surface of the parts, and the ratio between the metal thickness and vibration-damping coating is in the optimal range of values: 1 / (2.5 ... 4).

The scrubber can be used to clean fine dust and humidify air in ventilation units and air conditioning units, as well as in trapping mists, readily soluble dust, as well as in the process of dust collection, gas cooling and absorption of packed gas washers. The effectiveness of the proposed design of the nozzle scrubber increases due to the larger interaction surface of the nozzle in the above processes, as well as optimization of the hydrodynamic situation, and amounts to about 97% when collecting dust particles larger than 2 microns in size.

The irrigation device 7 (Fig. 5) is made in the form of a nozzle, which consists of a housing 11 and, coaxially located with it in the upper part, a fitting 12, in which an expanding channel 13 for supplying fluid to a cylindrical hole 14, made axisymmetrically to the housing 11, is made. The cylindrical hole 14 smoothly passes into, coaxial with it, the hole 15, made in the form of a diffuser. A cylindrical swirler insert 16 having external peripheral helical threaded channels 17 is installed in the hole 14 of the housing, axisymmetrically to it. A central axial hole 18 is made along the axis of the swirl insert 16 with a screw thread on the inner surface, the reverse direction of the channel cutting 17. External screw-like threaded channels 17 and screw cutting on the inner surface of the axial hole 18 can be performed with variable pitch. The swirl insert 16 is installed in the housing 11 through the elastic gaskets 19 and 20 and is pressed by the nozzle 12 by means of a threaded housing-fitting connection, while the swirl insert is made of wear-resistant material.

A perforated disk 21 is installed in the upper part of the nozzle 12, into which a hollow helical conical swirler 22 is supported, mounted in an expanding channel 13 for supplying fluid to a cylindrical hole 14, made axisymmetrically to the housing 11. A screw through cutting is made on the surface of the hollow helical conical swirl 22 (on not shown).

The nozzle for spraying liquid works as follows.

The fluid enters the housing 11 through the fluid supply channel 13 in the nozzle 12, and then into the central cylindrical hole 14. The fluid begins to swirl in the peripheral channels of the swirl insert 16, and at the same time in the internal channels of the central axial hole 18 with the opposite direction. Such a fluid flow at the outlet of the figured hole 15 in the form of a diffuser is well disclosed due to centrifugal forces arising from the rotation of the liquid, and finely dispersed inside the cone-shaped plume due to the turbulent flow along the axis of the nozzle.

Claims (1)

A scrubber with a movable nozzle, comprising a housing with nozzles for dusty and purified gas, an irrigation device, a lower support distributor plate and an upper restriction plate, between which there is a nozzle layer, a spray trap and a device for removing sludge, a lower support distributor and an upper restrictor plate and the nozzle is made of elastic materials, and vibrators are installed on the lower support distribution and upper restrictive plates, the nozzle is made in the form of hollow balls, on a spherical the surface of which the helical groove is cut, or the nozzle is made in the form of a helix formed on a spherical surface and having a cross section perpendicular to the helix, a profile such as a circle, polygon, Berl saddle or Itallox saddle, or the nozzle is made in the form of cylindrical rings, on the lateral surface of which a helical groove is cut, or the nozzle is made in the form of a helix formed on a cylindrical surface and having in cross section perpendicular to the helix, a circle type profile, many golnika, “Berl saddles” or Itallox saddles, or the nozzle is made in the form of toroidal rings, or the nozzle is made in the form of toroidal rings having a profile such as a circle, polygon, “Berl saddle” or the Itallox saddle, or the nozzle is made of elastic polymer materials, composite materials and obtained by molding or sintering, and the spray catcher is made in the form of concentric cylindrical rings with a thickness of 1-2 mm and with a distance between them of 3-4 mm or the catcher is made in the form of a concentric arrangement rings with a cross section passing through the axis of the ring, a zigzag profile, for example a sinusoidal one, characterized in that the irrigation device is made in the form of a nozzle containing a housing, a nozzle and an insert swirl coaxially located with them, an expanding channel for supplying liquid is made in the nozzle into a cylindrical hole, which is made axisymmetrically to the body and smoothly passes into a figured hole made in the form of a diffuser coaxial with it, and in the cylindrical hole of the body, it is set axisymmetrically to it on a cylindrical swirl insert having external peripheral helical threaded channels, and along the axis of the swirl insert, a central axial hole is made with screw thread on the inner surface, the reverse direction of the channel cutting, while the swirl insert is installed in the housing through elastic gaskets and is pressed by the nozzle by threaded connection case - fitting, while external screw-shaped threaded channels and screw thread on the inner surface of the axial hole of the swirl insert The plugs are made with a variable pitch, the swirl insert is made of wear-resistant material, and a perforated disk is installed in the upper part of the nozzle, into which a hollow conical screw swirl is mounted, installed in an expanding channel for supplying fluid into a cylindrical hole made axisymmetrically to the nozzle body, and the surface of the hollow helical conical swirl made screw through cutting.

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