RU2316383C1 - Bubbling vortex apparatus with axial-flow sprinkler - Google Patents

Abstract

FIELD: gas scrubbing devices for cleaning gases from mechanical and gaseous admixtures; chemical, oil and other industries.

SUBSTANCE: proposed apparatus has cylindrical chamber which is provided with axial-flow sprinkler blanked-off at outlet end and perforations of smaller diameter. Rigidly secured to axial-flow sprinkler are blades of hyperbolic swirler forming flow-through sections.

EFFECT: intensification of gas scrubbing process due to efficient use of working volume of apparatus.

4 dwg

Description

The invention relates to a device for wet cleaning of gases from mechanical and gaseous impurities and can be used in chemical, oil and other industries.

A device for wet gas cleaning, containing a cyclone, a cylindrical chamber with an inlet pipe, a Central and peripheral nozzles, a pipe for the transfer of sludge into the sludge collector. In this case, the cylindrical chamber is equipped with a gas flow swirl, which consists of four blades curved along a sinusoidal curve and made with the possibility of adjusting their position relative to the axis of the cylindrical chamber by turning the eccentrics installed in the radial holes of the cylindrical chamber and secured with locknuts (RF patent No. 2234358, MKI B 01 D 47/06, 2004. Bull. No. 23).

The disadvantage of this device is the complexity of the technical manufacture and installation of a device for controlling the position of the blades of the swirl.

The closest in technical essence and the achieved effect is a device for wet gas purification, containing a cyclone, a cylindrical chamber, nozzles, a swirl of gas flow, which is a pair of intersecting planes, forming four blades, having on the input surface of the surface of a flat rectangular shape, gradually turning into a parabolic moreover, the blades form flow sections and are bent so that the greater side touch the inner surface of the chamber and are rigidly attached to it along the entire length (RF patent No. 2182843, MKI B 01 D 47/06, 2002. Bull. No. 15, prototype).

The disadvantage of this device is the relatively small surface of the contacting phases in the hydrodynamically active zone of the apparatus.

This problem is solved due to the fact that the purification of gas emissions is carried out due to more efficient use of the working volume of the device, thereby intensifying the gas purification process.

This goal is achieved by the fact that the bubbler-vortex apparatus for wet gas purification contains a cyclone, a cylindrical chamber with an inlet pipe, a pipe for the transfer of sludge into the sludge collector. In this case, the cylindrical chamber is equipped with an axial sprinkler, which is an axial nozzle perforated along the entire length with openings of small diameter and muffled from the outlet end, to which the blades of a swirl of a hyperbolic shape are rigidly attached, forming flow sections.

The technical result provided by the bubbler-vortex apparatus with an axial sprinkler is expressed in increasing the efficiency of dust collection by installing an axial sprinkler in the apparatus, perforated with small diameter holes located in each flow section formed by hyperbolic swirl blades.

The increase in dust collection efficiency is due to the installation of an axial sprinkler in the apparatus, which is an axial nozzle that is plugged from the outlet end and perforated along the entire length with small diameter holes, along the length of which swirl blades are rigidly attached, forming flow sections. Due to the fact that the holes are placed along the length of the cylindrical chamber, the contact surface of the phases increases in the dusty gas supply zone and, therefore, a more efficient use of the working volume of the device takes place.

The sprinkler is attached to the cylindrical chamber by threaded rods screwed into radial threaded holes in the sprinkler on one side and connected to the cylindrical chamber on the other, the connection is fixed with locknuts.

The cleaning efficiency is also achieved by choosing the optimal geometry of the blades of the swirl of a hyperbolic shape, forming flow sections, which leads to a decrease in the hydraulic resistance of the device. The connection of the cylindrical chamber with an inclination to the cyclone, taking into account the drain of the sludge, ensures the dispersion of particles into the sludge collector, which also increases the efficiency of dust collection.

In addition, a bubbler-vortex apparatus with an axial sprinkler can be used both as an independent dust collector and installed in the flues of the dust collector system in order to save material resources and floor space of production facilities.

The invention is illustrated by drawings: figure 1 shows a General view of the apparatus; figure 2 is a longitudinal and transverse sections of a cylindrical chamber; figure 3 - the blade of the swirler.

The bubble-vortex apparatus with an axial sprinkler in accordance with FIGS. 1 and 2 comprises a cylindrical chamber 1 with an inlet pipe 2. An axial sprinkler 3 is installed in the cylindrical chamber, which is an axial nozzle perforated with holes of small diameter 4 and muffled from the output end. The axial sprinkler 3 is attached to the walls of the cylindrical chamber 1 by means of threaded rods 5. In the cylindrical chamber 1, a gas flow swirl 6 is installed, which consists of four blades of hyperbolic shape, rigidly bonded to the sprinkler 3 along the entire length and forming flow sections 7. The irrigation fluid is supplied to sprinkler 3 through the pipe 8. The cyclone 9 is connected to the cylindrical chamber 1 by means of connecting flanges 10. Dispersed particles are removed from the cylindrical chamber by means of a pipe for transferring sludge 11 into the sludge compilation 12.

A bubble-vortex apparatus with an axial sprinkler operates as follows.

Dusty gas is supplied to the cylindrical chamber 1 through the inlet pipe 2, where the swirler 6, using the blades forming the flow sections 7, deflects the flow and gives it a rotational movement. Under the action of the resulting centrifugal force, the dispersed particles move to the walls of the cylindrical chamber 1.

To improve the cleaning conditions, an axial sprinkler 3 is installed in the cylindrical chamber 1, into which irrigation liquid is supplied. Due to the fact that the sprinkler 3 is perforated with holes of small diameter 4 located in each flow section 7 of the swirler 6, the contact surface of the phases increases due to dispersion of the liquid throughout the entire volume of the cylindrical chamber 1. When gases and liquid come into contact, the latter partially evaporates and the gas cools. The resulting suspension is separated by centrifugal force arising from the rotation of the flow. Spraying the irrigation fluid facilitates the outflow of dispersed particles from the central zone of the cylindrical chamber 1, which reduces the separation time. The optimal geometry of the blades of the swirler 6 is ensured by the fact that the blades have a surface of hyperbolic shape, which allows to reduce the hydraulic resistance. In this case, the blades are rigidly fastened to the axial sprinkler 3, forming flow sections 7.

The separated sludge is washed off by the liquid and by means of the inclination of the cylindrical chamber 1 is transported through the sludge overflow pipe 11 to the sludge collector 12. The angle of inclination of the cylindrical chamber 1 is selected experimentally within 10 °, sufficient to drain the sludge. Subsequent separation of the suspension occurs in cyclone 9, from where the sludge also enters the sludge trap 12.

Experimental studies were carried out on a bubbler-vortex apparatus with a diameter of 1.1 m, 1 m long, in the cylindrical chamber of which an axial sprinkler with a diameter of 0.06 m, a wall thickness of 0.012 m, perforated with holes of a diameter of 0.005 m, with swirl blades rigidly fixed on it was installed. The swirl blades have a hyperbolic shape described by the equation

where y is the ordinate of the points of the hyperbola;

x is the abscissa of the points of the hyperbola;

b is the distance to the real axis;

a is the distance to the imaginary axis.

For this surface shape, a = 0.2 m, b = 0.15 m, the coordinates of the foci are F ₁ (0; 25), F ₂ (0; -0.25).

Flue gases from kilns with a temperature of up to 600 ° C and a solids content in the range of 50-75 g / m ³ entered the flue. The size of the dispersed particles is from 0.01 to 0.4 mm. The specific flow rate of the irrigating liquid was 0.0001-0.00075 m ³ / m ^{3 of} gas. It was found that the hydraulic resistance of the apparatus does not exceed 500 Pa, the dust collection efficiency for particles with a size of 0.01 mm is not lower than 95%.

The proposed bubble-vortex apparatus with an axial sprinkler can improve the efficiency of gas purification and improve environmental protection.

Claims (1)

A bubble vortex apparatus for wet gas purification, comprising a cyclone, a cylindrical chamber with an inlet pipe, a sludge flow pipe into a sludge collector, characterized in that the cylindrical chamber is provided with an axial sprinkler, which is an axial nozzle perforated along the entire length with small diameter holes and muffled from the outlet end, to which the blades of a swirler of hyperbolic shape are rigidly attached, forming flow sections.

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