RU2342979C1 - Scrubber with flexible impulse-4-type cap - Google Patents

Abstract

FIELD: motors and pumps.

SUBSTANCE: scrubber with flexible cap consists of body with nozzles for dust-laden and clean gas, spraying device, lower distributor plate and upper limiting plate. Plates are made of tensile materials with the vibrators mounted on them. There is a packed bed, spray trap and sludge removal unit between the above vibrators. The new feature of the scrubber is the implementation of spraying plant with acoustic injector for liquid spraying containing body having acoustic vibration generator inside. Vibration generator is represented with resonator and nozzles for air and liquid supply. The body consists of the upper cylindrical and lower parts. The upper cylindrical part contains fitting with holes to supply dispersed agent, whereas the lower part is represented with annular cavity resonator with the internal cylindrical cavity.

EFFECT: increased effectiveness and reliability of dust-entraining process by means of increased liquid spaying rate by injectors.

2 cl, 1 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. 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 there is a layer nozzles, 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 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, polygon, Berl saddle or Itallox saddle, the irrigation device is made in the form of an acoustic nozzle for spraying liquids, contents The housing is housed with an acoustic oscillation generator located inside it in the form of a resonator and nozzles for supplying air and liquid, the housing is made of upper cylindrical and lower parts connected by at least two rods, the upper cylindrical part containing a fitting with cylindrical and conical coaxial holes for supplying a spray agent, for example air, and a nozzle with a central hole for supplying fluid is fixed coaxially to the inside of the nozzle, while the nozzle is attached by means of fixing discs flaxen in the form of at least three elastic petals interacting with the inner cylindrical surface of the air inlet opening, and the lower part of the casing is an annular volume resonator with an internal cylindrical cavity, a coaxial nozzle in which the central liquid inlet end terminates at the cut of the resonator made in the form of a cup with a conical surface from the side of the nozzle for supplying fluid, while the cup is made integrally with a spherical segment having a conical surface, passing into the annular surface in contact with the outer cylindrical surface of the resonator.

Figure 1 shows a scrubber with a movable nozzle, figure 2 - nozzle in the form of hollow balls, on the spherical surface of which a helical groove is cut, figure 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 side surface of which a helical groove is cut, having a section perpendicular to the helix, a profile of the Berl saddle or Itallox saddle, and Fig. 5 is a general view of an acoustic nozzle for spraying liquids.

The scrubber with a movable nozzle contains 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 nozzle layer 5, a spray trap 9 and a device for removing sludge 8 (figure 1). The lower 4 supporting distribution and upper 6 restrictive plates and nozzle 5 are made of elastic materials. A vibrator (not shown) may be installed on the lower support-distribution plate 4. A vibrator (not shown) may be mounted 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 profile a cross section perpendicular to the helix, a profile such as a circle, polygon, “Berl saddle "Or saddle" Italloks "(figure 4).

The acoustic nozzle (figure 5) for spraying liquids contains a housing made of an upper cylindrical 10 and lower 22 parts connected by at least two rods 18. The upper cylindrical part 10 contains a nozzle 11 with a cylindrical 12 and conical 13 coaxial holes for supplying a spray agent such as air. Inside the nozzle 11, a nozzle 14 is fixed coaxially to it with a central hole 15 for supplying a liquid (solution). The nozzle is mounted by means of fixing discs 16 made in the form of at least three elastic petals 17 interacting with the inner cylindrical surface of the hole 12.

The lower part 22 of the casing is an annular volume resonator 19 with an internal cylindrical cavity 21, a coaxial nozzle 14, in which the central hole 15 for supplying liquid ends at the cut of the resonator 19. The resonator 19 is made in the form of a cup 20 with a conical surface on the side of the nozzle 14 for supply liquids. The cup 20 is made in one piece with the spherical segment 23, having a conical surface 24, turning into an annular surface in contact with the outer cylindrical surface of the resonator 19.

For optimal operation of the nozzle, the following ratios of its parameters must be observed:

the ratio of the height h _{1 of the} cavity 21 of the resonator 19 to the distance h between the cut of the resonator 19 and the lower end surface of the nozzle 11 for supplying air lies in the optimal range of values: h ₁ / h = 0.5 ÷ 1.5;

the ratio of the inner diameter d _{1 of the} resonator 19 to the diameter d _{2 of} its outer cylindrical surface lies in the optimal range of values: d ₁ / d ₂ = 0.7 ÷ 0.9;

the ratio of the inner diameter d _{1 of the} resonator 19 to the diameter d of the nozzle for supplying liquid lies in the optimal range of values: d ₁ / d = 1 ÷ 3;

the ratio of the inner diameter d _{1 of the} resonator 19 to the height h _{1 of the} cavity 21 of the resonator 19 lies in the optimal range of values: d ₁ / h ₁ = 1 ÷ 1.5.

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 8 is used to remove sludge in the form of a channel in the bottom of the housing 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 regime of a gas scrubber, characterized by a regime of fully developed fluidization. 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 it can be simultaneously on the lower 4 distribution and upper 6 restriction plates set by vibrator (not 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 acoustic nozzle for spraying liquids works as follows. Liquid under pressure is supplied through a central hole 15 ending at a section of the resonator 19, from where it flows along the conical surface 20, the outer cylindrical surface of the resonator 19 and the conical surface 24 of the spherical segment 23 in the form of a film, which is exposed to fluctuations in speed and pressure generated by pulsating shock waves arising near the resonator 19 due to leakage of a supersonic jet onto it. As a result, the film is crushed into small droplets, which together with the air stream form a torch of atomized 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 (2)

1. A scrubber with a movable nozzle, comprising 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 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 helix formed on a spherical surface spine, or in the form of cylindrical rings, on the side surface of which a helical groove is cut, or in the form of a helix formed on a cylindrical surface, characterized in that the irrigation device is made in the form of an acoustic nozzle for spraying liquids, containing a housing with an acoustic oscillator located inside in the form of a resonator and nozzles for supplying air and liquid, which is made of the upper cylindrical and lower parts connected by at least two rods, the upper cylinder The drical part contains a nozzle with cylindrical and conical coaxial holes for supplying a spraying agent, for example, air, and inside the nozzle, coaxially to it, a nozzle with a central hole for supplying liquid is fixed, and the lower part of the body is an annular volume resonator with an internal cylindrical cavity, a coaxial nozzle in which the Central hole for supplying fluid ends at the cut of the resonator, made in the form of a cup with a conical surface on the side of the nozzle for supplying fluid, m the cup is made in one piece with a spherical segment having a conical surface, turning into an annular surface in contact with the outer cylindrical surface of the resonator. 2. The scrubber with a movable nozzle according to claim 1, characterized in that the ratio of the height h _{1 of the} cavity of the resonator to the distance h between the cut of the resonator and the lower end surface of the nozzle for supplying air lies in the optimal range of values: h ₁ / h = 0.5 ÷ 1.5; the ratio of the inner diameter d _{1 of the} resonator to the diameter d _{2 of} its outer cylindrical surface lies in the optimal range of values: d ₁ / d ₂ = 0.7 ÷ 0.9; the ratio of the inner diameter d _{1 of the} resonator to the diameter d of the nozzle for supplying liquid lies in the optimal range of values: d ₁ / d = 1,5 ÷ 3; the ratio of the inner diameter d _{1 of the} resonator to the height h _{1 of the} cavity of the cavity lies in the optimal range of values: d ₁ / h ₁ = 1 ÷ 1,5.

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