RU2174040C1 - Wet dust catcher - Google Patents

Abstract

FIELD: equipment for cleaning dust-laden air in ventilation and aspiration systems. SUBSTANCE: dust catcher has housing 1 partially filled with liquid and equipped with gas inlet branch pipe 2 and gas outlet branch pipe 3, cleaning circuit defined by annular partition walls 4 and 5 partially dipped into liquid and forming slot-shaped channel, and drop catching circuit. Cleaning circuit is further provided with channels defined by vertical blades 8 mounted at slop-shaped channel outlet end at an angle to housing generatrix and horizontal partition walls 6 and 7. Drop catching circuit is defined by three rows of vertical blades 9 positioned at an angle to housing generatrix and arranged at two levels separated by horizontal partition wall 10. One row of blades are positioned at the first level and two rows of blades are positioned at the second level. Blades of outer row of blades are turned in the same direction as first level blades, and blades of inner row of blades are turned in opposite direction with respect to blades of first row of blades. Branch pipe 12 is vertically mounted at drop catcher outlet end concentrically to annular opening for dividing opening area in two. Branch pipe 12 has height equal to half the height of higher level blades. Catcher of such construction allows gas cleaning extent to be increased by providing turbulization and further motion of air-and-liquid flow. EFFECT: simplified construction and increased efficiency by improved catching capacity of drop catcher. 2 cl, 4 dwg

Description

 The invention relates to techniques for dust removal of gases and can be used to clean air from dust in ventilation and aspiration systems.

 A wet dust collector is known comprising a housing partially filled with liquid, a gas inlet and outlet, a cleaning circuit comprising partitions partially immersed in a liquid and forming a vertical slotted channel, and vertical blades mounted circumferentially at the outlet of the slotted channel obliquely to the generatrix of the housing and enclosed between horizontal partitions, as well as the droplet collection circuit (ed. St. CCCP 915906, class B 01 D 47/02, publ. 30.03.82).

 The known design does not provide a sufficiently high degree of gas purification due to the fact that it uses a cylindrical droplet eliminator (cyclone), which does not allow to effectively capture fine particles of water.

 The present invention solves the problem of increasing the degree of gas purification at the maximum capacity of the apparatus by increasing the retarding capacity of the droplet eliminator, because Without effective droplet collection, it is impossible to obtain a high productivity of the apparatus and a high degree of gas purification.

 To achieve this technical result, in a wet dust collector containing a housing partially filled with liquid, gas inlet and outlet nozzles, a cleaning circuit in the form of partitions partially immersed in the liquid and forming a slotted channel, as well as a droplet collection circuit, the cleaning circuit is additionally equipped with a set of channels formed vertical blades mounted circumferentially at the exit of the slotted channel obliquely to the generatrix of the body and enclosed between horizontal partitions, and the contour of the drop Pouring is made in the form of several rows of vertical blades installed at an angle to the generatrix of the body and located at least at two levels, separated by a horizontal partition, and at the first level there is one row of blades, and at each subsequent level at least two rows, in the outer which blades are rotated in the same direction as the blades of the first level, and the blades of each subsequent row are rotated in the opposite direction relative to the blades of the previous row. For more efficient use of the area of the blades of the upper level of the droplet eliminator over their entire height at this level, a vertical nozzle is installed concentrically to the outlet, which divides the area of this hole in half and has a height equal to half the maximum height of the blades of this level.

 The presence of such signs that distinguish the proposed wet dust collector from the above known, closest to it, allows for the swirling of the air-air flow, due to which there is additional mixing of air with water and the flow is thrown off to the side walls of the apparatus. At the same time, the process of separating droplets from the air simultaneously begins, the main part of which flows down the walls, and the remaining part settles on the surfaces of the blades of the droplet collection circuit due to the repeated and abrupt change in the direction of flow and the large contact area with the blades.

 Twisting the flow, causing a circular movement of water in the housing, also prevents the deposition of sludge on the conical surface of the housing.

 The proposed wet dust collector is illustrated in the drawings shown in FIG. 14.

 In FIG. 1 shows a General view of the dust collector in section.

 In FIG. 2 - section BB in FIG. 1.

 In FIG. 3 is a section bb in FIG. 1.

 In FIG. 4 - section GG in FIG. 1.

 The dust collector comprises a cylindrical housing 1, the lower conical part of which is filled with water. The housing 1 is equipped with input 2 and output 3 nozzles.

 The dust collector has a cleaning circuit and a droplet collection circuit. The cleaning circuit consists of two stages. The first stage is a slot channel formed by vertical annular partitions 4 and 5, partially immersed in water. In the upper part of the slotted channel there are horizontal partitions 6 and 7, between which, along the circumference and at an angle to the generatrix of the housing 1, vertical blades 8 are installed, forming a set of channels of the second stage of the cleaning circuit.

 The drop collection circuit is made in the form of three rows of blades 9 mounted obliquely to the generatrix of the housing 1 at two levels separated by a horizontal partition 10. The first level (Fig. 3) has one row of such blades, and the second level (Fig. 4) has two rows: outer and inner, and in the outer row the blades are directed in the same direction as the blades of the first level, and in the inner they are installed in the opposite direction.

 In the upper part of the second level of the drop collection circuit there is a cone 11 for swelling water drops down. In order to more efficiently use the area of the blades along their entire height, a nozzle 12 is vertically installed at the outlet of the droplet eliminator in a concentric annular outlet, which divides the area of this hole into two equal parts. The height of the pipe 12 is equal to half the largest height of the blades of this level.

 The dust collector operates as follows.

 The dusty air stream flows at high speed through the inlet pipe 2 into the cavity A. Then the air flows under the annular partition 4, displacing the water, which forms a curved separation surface on the outlet side. After that, the water-air flow is directed upward, rotated 90 degrees and enters the channels of the second cleaning stage formed by the blades 8. Moving along these channels, the flow swirls and is directed at an angle to the generatrix of the housing 1, striking against its wall. This provides additional mixing of water with air, increasing the degree of purification of the latter. Drops of water along with the cleaning products flow down the apparatus wall, and dust-free air with an insignificant number of drops is directed to the drop collection circuit.

 To prevent the entrainment of water droplets, the air first passes through the first level of dropping, dropping the flow onto the wall of the housing 1. Drops flow down the wall and through the drain tubes 13 enter the conical part of the housing.

 Further separation of the drops occurs at the second level, where air passes through the outer and inner rows of the blades, changing the direction of movement several times. Due to this, a more efficient deposition of water droplets on the surface of the blades is achieved. In addition, the nozzle 12 provides a uniform distribution of air flow over the entire height of the blades of the second level, since one half of this flow rushes immediately to the outlet, and the other inevitably enters the nozzle 12, in contact with the lower parts of the blades.

 The air cleaned from dust and moisture through the outlet pipe 3 is removed from the dust collector.

 The air flow swirling in the purification loop also unwinds water with the precipitated dust contained in it, causing a continuous movement of water around the circumference in the conical part of the apparatus, which, in turn, prevents the buildup of sediment on the walls of the apparatus.

Claims (2)

 1. A wet dust collector comprising a partially filled housing, gas inlet and outlet nozzles, a cleaning circuit comprising partitions partially immersed in the liquid and forming a vertical slotted channel, and vertical blades mounted obliquely around the outlet of the slotted channel obliquely to the generatrix of the housing and concluded between the horizontal partitions, as well as the drop collection circuit, characterized in that the drop collection circuit is made in the form of several rows of vertical blades mounted under scrap to the generatrix of the casing and located at least two levels separated by a horizontal partition, and on the first level there is one row of blades, and on each subsequent level there are at least two rows, in the outer of which the blades are turned in the same direction as the blades the first level, and the blades of each subsequent row are rotated in the opposite direction relative to the blades of the previous row.  2. The wet dust collector according to claim 1, characterized in that the last level of the droplet recovery circuit contains a vertical nozzle that is mounted concentrically to the outlet, bisects its area and has a height equal to half the maximum height of the blades of this level.

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