RU2654744C1 - Scrubber with movable nozzle - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: present invention relates to wet dust collection and can be used in chemical, textile, food, light and other industries for purification of gases. Scrubber with a movable packing contains a body with nozzles for dusty and clean gas, an irrigation nozzle device, a lower support plate and an upper restricting plate made of resilient materials with vibrators mounted thereon, between which a nozzle layer is arranged, a splatcher and a sludge removal device, the nozzle being made in the form of hollow balls, on the spherical surface of which a screw groove is cut, or in the form of a screw line formed on a spherical surface and having a section in the section perpendicular to the helix, such as a circle, a polygon, a Berl saddle or an "Itallox" saddle, or in the form of cylindrical rings, on the side surface of which a screw groove is cut, or in the form of a screw line formed on a cylindrical surface and having in section perpendicular to the helical line, a profile such as a circle, a polygon, a "Berl saddle" or a saddle "Itallox", the irrigation device is in the form of an injector comprising a hollow cylindrical body with an external thread for connecting a liquid supply conduit to the fitting and, fixed in the lower part of the housing, a cap nut with a liquid flow divider, in which, in a casing, coaxial to it, a cylindrical aperture is provided, in the upper part of which a screen filter is installed, and in the lower part there is a throttle washer with a jet and a divider, the liquid flow divider is fixed to the end face of the union nut and is of the bar type in the form of a truncated tetrahedron fixed to the end surface of the union nut, whose ribs are rods with fixed blades with stops, so that they can be rotated from the streams emanating from the throttle washer with the jet of the injector, while the edges of the tetrahedron base are also connected by rods with fixed blades and stops, and a diffuser is attached to the surface of the intersection of the end surface of the union nut with its outer surface, enclosing by its lateral conical surface the divider of the liquid flow, with the outlet of the diffuser located below the base of the truncated tetrahedron, and the outlet itself is connected to an additional divider arranged in the form of a circular perforated plate perpendicular to the axis of the diffuser, a netted dome element is connected to the perforated plate with a vertex directed away from the jet of the nozzle and the cavity of this element is filled with a porous material, for example a wire of the "putanka" type, and the axisymmetric outlet of the diffuser, to the circular perforated plate of the additional dissector, in its central part, a central cylindrical atomizer is formed, which is made in the form of a cylindrical shell, the solid part of which is located in a reticular dome-shaped element, the cavity of which is filled with a porous material, and the perforated part of the cylindrical atomizer extends beyond the mesh dome element.

EFFECT: increase the efficiency and reliability of the dust collection process by increasing the degree of spraying of the irrigation device.

4 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 patent RU No. 2342979 (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 there is a layer nozzle, and device for removal of sludge.

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 atomization of the irrigation device.

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 nozzle device, a lower support and distribution plate and an upper restrictive plate made of elastic materials with vibrators installed on them, between which the nozzle layer is located , a spray catcher and a device for removing sludge, and the nozzle is made in the form of hollow balls, on a spherical surface of which a helical groove is cut, or in the form of a helix, is formed on a spherical surface and having a cross section perpendicular to the helix, a profile such as a circle, a polygon, a Berl saddle or an Itallox saddle, or in the form of cylindrical rings on which a helical groove is cut through, or in the form of a helical line formed on a cylindrical surface and having a cross section perpendicular to the helix, a profile such as a circle, a polygon, a Berl saddle or an Itallox saddle, the irrigation device is made in the form of a nozzle containing a hollow cylindrical body with an outer threaded to connect to the nozzle of the distribution pipe for supplying liquid, and, secured in the lower part of the housing, a union nut with a fluid flow divider, and in the housing, coaxially to it, a cylindrical hole is made, in the upper part of which a strainer is installed, and in the lower part a throttle washer with a nozzle and a divider is installed, a liquid flow divider is attached to the end surface of the union nut and is made of the rod type in the form of a truncated tetrahedron attached to the end surface the spine of the union nut, the ribs of which are rods with blades fixed on them with stops in such a way that they can be rotated from the flows coming from the throttle washer with the nozzle nozzle, while the ribs of the tetrahedron base are also connected by rods with blades and stops fixed to them, and a diffuser is attached to the intersection surface of the end surface of the union nut with its outer surface, covering a liquid flow divider with its lateral conical surface, while the outlet the fuser is located below the base of the truncated tetrahedron, and the outlet itself is connected to an additional divider made in the form of a round perforated plate perpendicular to the axis of the diffuser, while a mesh dome-shaped element with a vertex directed away from the nozzle nozzle is attached to the perforated plate, and the cavity of this element filled with porous material, for example, a wire of the “tangle” type, and axisymmetrically to the outlet of the diffuser, to the round perforated plate of the additional of the cutter, in its central part, a central cylindrical atomizer is attached, made in the form of a cylindrical shell, the solid part of which is located in a mesh dome-shaped element, the cavity of which is filled with porous material, and the perforated part of the cylindrical atomizer extends beyond the mesh dome-shaped element.

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 a nozzle for spraying liquids.

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 10 is mounted on the lower support distribution plate 4. A vibrator (not shown) can also be installed on the upper restriction plate 6. On the lower 4 supporting distribution and upper 6 restrictive plates can be installed on a vibrator (not shown).

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 cross section perpendicular to the helical line, a profile such as a circle, polygon, “Berl saddle” or Itallox saddles (Fig. 4).

The nozzle (Fig. 5) for spraying liquids contains a hollow body 11, consisting of a cylindrical part with an external thread for connecting to the fitting (not shown) of the distribution pipe for supplying liquid, and, fixed in the lower part of the body, a union nut 16 with a flow divider 17 liquids. In the housing 11, coaxially to it, a cylindrical hole 12 is made, in the upper part of which a strainer 14 is installed, and in the lower part there is a throttle washer 13 with a nozzle 15.

The fluid flow divider 17 is attached to the end surface of the union nut 16 and is made of the rod type in the form of a truncated tetrahedron fixed to the end surface of the union nut 16, whose ribs 18 are rods with blades 19 fixed to them with stops 20 so that they can rotate from flows emanating from the throttle washer 13 with the nozzle nozzle 15, while the ribs of the base of the tetrahedron are also connected by rods with blades and stops fixed to them.

A diffuser 21 is attached to the intersection surface of the end surface of the union nut 16 with its outer surface, and the fluid flow divider 17 covers its lateral conical surface, while the outlet of the diffuser 17 is below the base of the truncated tetrahedron, and the outlet itself is connected to an additional divider 22 made in in the form of a round perforated plate perpendicular to the axis of the diffuser 21, while a mesh dome-shaped element 23 with a vertex connected to the perforated plate 22 turned away from the nozzle 15 of the nozzle, and the cavity 24 of this element is filled with porous material, for example, a wire of the "tangle" type.

The nozzle with the active divider is as follows.

When the fluid is supplied to the housing 11 under the action of a pressure drop of 0.4 ... 0.8 MPa, it rushes into the cylindrical hole 12 through the strainer 14, and then into the throttle washer 13 with the nozzle 15. From the nozzle 15, the fluid flow enters the divider 17, in the form of a truncated tetrahedron fixed to the end surface of the union nut 16, the ribs 18 of which are rods with blades 19 fixed to them with stops 20 so that they can be rotated from the flows coming from the throttle washer 13 with the nozzle nozzle 15, which allows took away it fine dispersion phase liquid spray.

A variant is possible when the axisymmetric outlet of the diffuser 21, to the round perforated plate 22 of the additional divider, in its central part, is attached a central cylindrical atomizer 25, made in the form of a cylindrical shell, the solid part of which is located in the mesh dome-shaped element 13, the cavity of which is filled with porous material 24, and the perforated portion 26 of the cylindrical atomizer 25 extends beyond the mesh dome-shaped element 23.

It is possible that a round perforated plate 27 is attached to the perforated portion 26 of the shell of the cylindrical atomizer 25.

It is possible that a diffuser 28 is attached to the round perforated plate 27 of the cylindrical atomizer 25.

It is possible that in the diffuser 28, made in the form of a truncated conical surface, perpendicular to its axis, an axis 29 is fixed to the inner surface, located in the middle between the perforated plate 27 and the outlet section of the diffuser 28, while the rotary nozzles 30 are mounted on the axis 29 symmetrically about the axis of the housing 11 and made in the form of cylinders with helical grooves on the surface, and the helical grooves of the rotating nozzles 30 have the opposite direction.

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. In order to intensify the hydrodynamic regime, a vibrator (not shown) can be installed on the lower support distribution plate 4, or a vibrator (not shown) can be installed on the upper restriction plate 6, or at the same time on the lower 4 distribution and upper 6 restriction plates by vibrator (shown). 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-oscillation, which will also increase the efficiency of interaction of the nozzle 5 with the irrigated liquid.

The proposed nozzle provides good spray quality at low air flow rates. The experiments showed that at an air pressure of 100 kPa, the average droplet diameter is 90 μm, with an increase in air pressure by about 4 times (up to 400 kPa), the average droplet diameter decreases slightly and amounts to 87 μm.

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.

Claims (4)

1. A scrubber with a movable nozzle, comprising a housing with nozzles for dusty and purified gas, an irrigation nozzle, a lower support and distribution plate and an upper restrictive plate made of elastic materials with vibrators installed on them, between which there is a nozzle layer, a spray catcher and a device for removal of sludge, moreover, the nozzle is made in the form of hollow balls, on a spherical surface of which a helical groove is cut, or in the form of a helical line formed on a spherical surface spine and having a cross section perpendicular to the helix, a profile such as a circle, a polygon, a Berl saddle or an Itallox saddle, or in the form of cylindrical rings on which a helical groove is cut on the side surface, or in the form of a helical line formed on a cylindrical surface and having in cross section perpendicular to the helix a profile such as a circle, polygon, Berl saddle or Itallox saddle, the irrigation device is made in the form of a nozzle containing a hollow cylindrical body with an external thread for connecting to the nozzle of the distribution pipe for fluid supply, and, fixed in the lower part of the housing, a flare nut with a liquid flow divider, and in the housing, coaxially to it, a cylindrical hole is made, in the upper part of which a strainer is installed, and in the lower part there is a throttle washer with a nozzle and a divider, a liquid flow divider is attached to the end surface of the union nut and is made of the rod type in the form of a truncated tetrahedron fixed to the end surface of the union nut, ribs which are rods with blades fixed to them with stops in such a way that they can be rotated from flows emanating from the throttle washer with the nozzle nozzle, while the ribs of the tetrahedron base are also connected by rods with blades and stops fixed to them, and to the intersection surface the end surface of the union nut with its outer surface is attached to a diffuser, covering with its lateral conical surface a liquid flow divider, while the outlet of the diffuser is below the main truncated tetrahedron, and the outlet itself is connected to an additional divider made in the form of a round perforated plate perpendicular to the axis of the diffuser, while the mesh-like domed element with the apex directed away from the nozzle nozzle is attached to the perforated plate, and the cavity of this element is filled with porous material , for example, a wire of the "tangle" type, and axisymmetrically to the outlet of the diffuser, to the round perforated plate of the additional divider, in its central the second part is attached a central cylindrical atomizer configured as a cylindrical shell, and the solid part of which is located in a dome-shaped mesh element, which cavity is filled with a porous material and a perforated cylindrical part of the sprayer extends beyond the dome-shaped mesh element. 2. A scrubber with a movable nozzle according to claim 1, characterized in that a round perforated plate is attached to the perforated part of the shell of the nozzle cylinder of the nozzle. 3. A scrubber with a movable nozzle according to claim 1, characterized in that a diffuser is attached to the round perforated plate of the cylinder nozzle atomizer. 4. A scrubber with a movable nozzle according to claim 1, characterized in that in the nozzle diffuser, made in the form of a truncated conical surface, perpendicular to its axis, to the inner surface, an axis is fixed, located in the middle between the perforated plate and the outlet cross section of the diffuser, while rotary nozzles mounted symmetrically relative to the axis of the housing and made in the form of cylinders with screw grooves on the surface are fixed to the axis, and the helical grooves of the rotating nozzles have the opposite pressure alignment.

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