RU2635708C1 - Conical jet scrubber with moving nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: conical jet scrubber contains a body with branches for dusty and cleaned gas, a jet spraying device, support and limiting plates, between them a nozzle is located, a liquid trap made in the form of a nozzle layer, located between support and limiting plates, and a device for sludge drainage. The support plates are made resilient. The nozzle located above the lower support plate is made of resilient materials. A vibrator is mounted on the lower support plate. The nozzle is designed as hollow balls on a spherical surface of which a spiral groove is cut, or in the form of a helical lines formed at spherical surface, or the nozzle is made of resilient polymer materials, composite materials, and is obtained by moulding or sintering processes. The spraying device is made in the form of nozzle, containing a hollow body with a nozzle and a central core. The body is provided with a channel for supplying liquid and includes a coaxial bushing rigidly connected to it and an atomizer, fixed in its lower part, designed as a cylindrical two-stage bushing. The upper cylindrical stage of the bushing is connected to the coaxial central core via a threaded connection. The central core has a central hole and provided with an annular clearance to the inner surface of the cylindrical bushing. The annular clearance is connected to at least three radial channels formed in a two-stage bushing connecting it to an annular cavity formed by the inner surface of the bushing and the outer surface of the upper cylindrical stage. The annular cavity is connected to the channel of the body for supplying liquid. A spraying device in the form of a truncated cone is rigidly attached to the lower part of the central core and coaxial to the central hole of the core and attached by its upper base to the base of the central core cylinder. A splitter is attached to the lower base of the truncated cone by means of at least three spokes and is made in the form of an end circular plate the edges of which are bent toward the annular clearance. There are spiral grooves on the outer lateral surface of the truncated cone. A throttle opening is provided in the splitter axisymmetrically to the central hole of the central core. An external diffuser is co-axially attached to the lower part of the bushing, which is rigidly connected to the body. An inner perforated diffuser is coaxially secured to lower base of the sprayer truncated cone so that outlet sections of outer and inner diffusers lie in same plane.

EFFECT: increase the efficiency and reliability of the dust recovery process.

5 dwg

Description

The invention relates to techniques for wet dust collection.

The closest technical solution to the claimed object is a scrubber known from RF patent No. 2286834 (prototype), comprising a housing with nozzles for dusty and purified gas, a nozzle irrigation device, support and restriction plates, between which there is a nozzle, a spray catcher and a device for removing sludge .

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the underdeveloped nozzle surface and the low degree of atomization of the nozzle 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 conical nozzle scrubber with a movable nozzle containing a housing with nozzles for dusty and purified gas, a nozzle irrigation device, support and restriction plates, between which there is a nozzle, a spray trap made in the form of a nozzle layer located between the support and restriction plates, and a device for removing sludge, support plates are made elastic, and the nozzle placed above the lower support plate is made of elastic materials, for example, in the form of polyethylene balls, and a vibrator is installed on the lower support plate, the nozzle is made in the form of hollow balls, on which a helical groove is cut, or in the form of a helix formed on a spherical surface and having in cross section perpendicular to the helix, a profile such as a circle, polygon , “Berl saddles” or “Itallox” saddles, or the nozzle is made 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 have in a cross section perpendicular to the helix, a profile such as a circle, polygon, Berl saddle or Itallox saddle, 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, the nozzle irrigation device is made in the form of a nozzle containing a hollow body with a nozzle and a central core, the body is made with a channel for supplying liquid bone and contains a coaxial sleeve rigidly connected with it, with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected by a threaded connection with a central core coaxial with it, having a central hole and installed with an annular gap relative to the inner surface of the cylindrical sleeve, while the annular gap is connected to at least three radial channels made in a two-stage sleeve connecting it with an annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, and the annular cavity is connected with the channel of the housing for supplying fluid to the central core, in its lower part a nozzle made in the form of a truncated cone coaxial with the central hole of the core and attached with its upper base to the base of the cylinder of the central core, and to the lower base of the truncated cone through at least three knitting needles attached a cutter, which is made in the form of an end round plate, the edges of which are bent towards the annular gap, and on the outer lateral surface of the truncated cone there are screw grooves, and in the divider, which is attached to the lower base of the truncated cone by at least three spokes and made in the form of an end circular plate, the edges of which are bent towards the annular gap, axisymmetrically to the central hole of the central core, a throttle hole is made, while to the sleeve rigidly connected to by the housing, in its lower part an external diffuser is coaxially attached, and to the lower base of the truncated cone of the atomizer, rigidly attached to the central core, in its lower part, while on the outer side surface of the truncated cone there are screw grooves, the internal perforated diffuser is coaxially attached, thus that the output sections of the external and internal diffusers are in the same plane.

In FIG. 1 shows a conical nozzle 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 irrigation device 7.

A conical nozzle scrubber with a movable nozzle contains a housing consisting of a cylindrical part 1, a conical part 2, the lower part of which is connected to a cylindrical part 3 and a conical sludge collector 4, with nozzles 5 and 6, respectively, for dusty and purified gas, nozzle irrigation device 7, lower a support plate 8, on which the nozzle layer 9 is located. The spray catcher is made in the form of a nozzle layer 10, located between the support and restrictive plates (Fig. 1). The lower 8 support plates and nozzle 9 are made of elastic materials. The nozzle 9, placed above the lower support plate 8, is made of elastic materials, for example, in the form of plastic balls.

A vibrator can be installed on the lower support plate 8 (not shown in the drawing). The nozzle 9 and 10 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 a cross-section profile perpendicular to the helix, such as a circle, polygon, “saddles” Berl "or saddle" Italloks "(Fig. 4).

The nozzle 9 and 10 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 helix, a profile such as a circle, polygon, “saddles” Berl "or saddle" Italloks "(Fig. 4).

The nozzle 9 and 10 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, a polygon, a Berl saddle or an Itallox saddle (not shown in the drawing).

The nozzle 9 and 10 is made of elastic polymeric materials, composite materials and obtained by molding or sintering.

Conical nozzle scrubber with a movable nozzle operates as follows.

The dusty gas stream enters the housing 1, through the inlet of the dusty gas stream 5, and meets a curtain from the nozzle 9, which is wetted with water or other absorbent from the irrigation device 7. To remove sludge, a device 4 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 9 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 regime of a gas scrubber, characterized by a regime of fully developed fluidization. To intensify the hydrodynamic regime, a vibrator can be installed on the lower support plate 8 (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 9, 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 9, the bottom 8 of the support plate 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 9 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 nozzle irrigation device 7 (Fig. 5) is made in the form of a nozzle containing a cylindrical hollow body 11 with a channel 13 for supplying fluid and a coaxial sleeve 12 rigidly connected to the body with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve 14, the upper cylindrical step 16 of which is connected by means of a threaded connection with a central core 17 coaxial with it, having a central hole 29 and installed with an annular gap 20 relative to the inner surface of the cylindrical sleeve 14.

The annular gap 20 is connected with at least three radial channels 15 made in a two-stage sleeve 14, connecting it with an annular cavity 18 formed by the inner surface of the sleeve 12 and the outer surface of the upper cylindrical stage 16, and the annular cavity 18 is connected with the channel 13 of the housing 11 for supplying fluid.

A nozzle made in the form of a truncated cone 21 coaxial with the central hole of the core 19 and attached with its upper base to the base of the cylinder of the central core 17 and to the lower base of the truncated cone 21 is fixed to the central core 17, in its lower part, by at least , three spokes 23 attached divider 22, which is made in the form of an end round plate, the edges of which are bent towards the annular gap 20.

On the outer side surface of the truncated cone 21 there are screw grooves (not shown in the drawing), which contribute to a more intensive atomization of the liquid.

In the divider 22, which is attached to the lower base of the truncated cone 21, by means of at least three spokes 23 and made in the form of an end round plate, the edges of which are bent towards the annular gap 20, axisymmetrically to the central hole 19 of the central core 17, a throttle hole is made 24.

An option is possible when an external diffuser 25 is coaxially attached to the sleeve 12, rigidly connected to the housing 11, in its lower part, and to the lower base of the truncated cone 21 of the atomizer, rigidly attached to the central core 17, in its lower part, while on the outer side the surface of the truncated cone 21 has helical grooves, the inner perforated diffuser 26 is coaxially attached, so that the output sections of the outer 25 and inner 26 of the diffusers lie in the same plane.

The nozzle is as follows.

Liquid under pressure is supplied to the cavity of the nozzle body 11 and then flows in two directions: first, into the annular cavity 18 through radial channels 15, then into the annular gap 20 between the nozzle and the central core 17. At inlet pressures of more than 0.2 MPa, the liquid accelerates with the formation of a film of liquid that does not come off its outer surface and acquires rotational motion on the helical outer surface of the truncated cone 21.

The second direction in which the fluid enters is through the channel 13 for supplying fluid into the cavity of the central hole 19 of the central core 17, and then through the cavity of the truncated cone 21 enters the divider 22, which is made in the form of an end round plate, the edges of which are bent towards the annular gap 20, while there is repeated crushing of droplet fluid flows flowing in these directions.

The presence of gas inclusions in a liquid additionally perturbs its surface, which leads to wave formation and volumetric crushing of the liquid film. The loss of mechanical energy during external acceleration (on the external conical surface) is reduced compared with the same acceleration in a closed channel.

Claims (1)

A conical nozzle scrubber with a movable nozzle, comprising a housing with nozzles for dusty and purified gas, an nozzle irrigation device, support and restriction plates, between which there is a nozzle, a spray trap made in the form of a nozzle layer placed between the support and restriction plates, and a device for removal sludge, support plates are made elastic, and the nozzle placed above the lower support plate is made of elastic materials, for example, in the form of plastic balls, and on the lower support a vibrator is mounted on the plate, the nozzle is made in the form of hollow balls, on which a helical groove is cut through a spherical surface, 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, or the nozzle is made of elastic polymer materials, composite materials and obtained by molding or sintering, characterized in that the nozzle irrigation device is made in the form of a nozzle containing a hollow body with a nozzle and the central core, the housing is made with a channel for supplying fluid and contains a coaxial sleeve rigidly connected to it with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected by a threaded connection with a central core coaxial with it, having the Central hole and installed with an annular gap relative to the inner surface of the cylindrical sleeve, while the annular gap is connected to at least three radial channels made in a two-stage sleeve connecting it to the annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, the annular cavity being connected to the channel of the housing for supplying liquid, a spray gun made in the form of a rigid core is fixed to the central core in its lower part a truncated cone coaxial with the central hole of the core and attached with its upper base to the base of the cylinder of the central core, and truncated to the lower base a cone by means of at least three spokes, a divider is attached, which is made in the form of an end round plate, the edges of which are bent towards the annular gap, and there are screw grooves on the outer lateral surface of the truncated cone, and a throttle hole is made axisymmetrically to the central hole of the central core, in this case, an external diffuser is coaxially attached to the sleeve rigidly connected to the housing in its lower part, and coaxially attached to the lower base of the truncated cone of the atomizer n inner perforated diffuser, so that the output cross section of the outer and inner cones lie in one plane.

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