SU1741866A1 - Gas-cleaning device - Google Patents

Abstract

Use: gas cleaning from dust in metallurgical, chemical and other industries of industry. SUMMARY OF THE INVENTION mi In the confused part, an inclined reflecting plate 10 is partially immersed in a liquid. A movable plate 11.4 or so on is installed in front of the reflecting plate to adjust the direction of the gas flow.

Description

The invention relates to a technique for cleaning gases from dust and can be used in the metallurgical, chemical and other industries of the industry where effective cleaning of gases is required.

A device for cleaning gas is known, comprising a housing with a tangential pipe, an exhaust pipe and a Venturi pipe for contacting the gas flow with a liquid (1).

The disadvantage of this device is high hydraulic resistance and large overall dimensions due to the presence of the Venturi tube.

The closest to the invention to the technical essence is a dust collector that includes a housing partially filled with a liquid with a gas inlet, a vertical cylindrical gas outlet, equipped with an inlet window and placed axially in the housing with a spatula / 2 / installed at its lower end.

A disadvantage of the known dust collector is the low efficiency of trapping highly dispersed dust due to the lack of an intensive crushing of the liquid into droplets inherent, for example, to Venturi tubes. At the same time, in a known apparatus, the gas flow energy, along with the splitting of the liquid into droplets, must ensure its ejection (flooding) along the height of the blades, which increases the total contact energy, without increasing the efficiency of dust collection

The aim of the invention is to increase the efficiency of trapping highly dispersed dust in wet, pumpless apparatus.

The goal is achieved by the fact that in a device for cleaning a pelvis, including a body partially filled with liquid with a gas inlet fitting, there is a vertical cylindrical

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a gas outlet, provided with an inlet window and installed axially in the housing with the formation of an annular cavity, the gas inlet fitting is made with outer and inner lateral flat walls installed respectively, tangentially to the housing and a gas outlet, which is placed with an eccentricity in the direction from the inlet fitting gas along its outer side wall, and the annular cavity is provided with a reflective plate, partially immersed in a liquid and oriented at an angle to the mirror of the liquid along the stream.

Figure 1 is given the proposed device, a general view; in fig. - the same, top view; Fig. 3 is a section A - A in Fig. 1; figure 4 - axonometric part of the device in figure 1.

The gas cleaning device comprises a housing 1 partially filled with liquid with a gas outlet 2 made with outer 3 and inner 4 side flat walls. The gas outlet nozzle 5 is mounted axially in the housing 1 with a partial immersion of its lower part in a liquid. The outer 3 and inner 4 lateral stznchi of the gas inlet nozzle 2 are set respectively tangentially to the housing 1 and the gas outlet nozzle 5. At the same time, the latter at elevation above the fluid mirror is provided with an inlet window 6 and is placed in the housing 1 with eccentricity in the direction from the gas injection pipe 2 along its outer side wall 3, forming an annular cavity in the form of a single-venturi tube with a confuser 7, neck 8 and diffuser 9 parts.

In the confuser part 7 of the annular cavity, a reflective plate 10 is installed, which is partially immersed in a liquid and oriented at an angle to the liquid mirror along the stream. In order to regulate the direction of the gas flow with respect to the liquid mirror, in the upper part of the confuser, a movable plate 11 is installed in front of the baffle plate, which is connected with the remote thrust 12. To remove the sludge, the lower part of the housing is equipped with a drain pipe 13.

The operation of the device is as follows.

The contaminated gas through the gas inlet nozzle 2, at an adjustable angle to the liquid mirror, enters the housing 1. Tips 1 blows a stream to the surface of the liquid in front of the baffle plate 10 and creates an elevated pressure zone, as a result of which the upper liquid layer separates from the total liquid mass and rolls on the reflective plate, the lower part of which is submerged by the sublevel of the liquid, will form a water seal. Subsequently, the gas-liquid flow makes an intense vortex motion in the annular cavity. On

The area of the greatest narrowing of the channel corresponding to the throat part 8 of the Venturi annular pipe reaches the maximum flow rate, which contributes to intensive liquid crushing and mass transfer of the three-phase system followed by coagulation of solid and liquid aerosol particles in the diffuser part 9 of the annular cavity.

The energy of the swirling flow is used to separate the droplets in the nozzle 5 of the gas outlet, functioning as a direct wet cyclone. The aerosol enlarged in the diffuser part 9 with a gas flow that retains circular (more precisely 0 spiral) movement is directed through the inlet port 6 to the nozzle 5 gas outlet. When the flow is ascending in a circular motion, the centrifugal forces of the solid and liquid phase aerosol are rejected from its core to the inner surface of the nozzle and under the force of gravity flow down to the lower part of the body 1. The cleaned gas is taken out of the apparatus, and the slime as accumulation is removed from the bunker

0 body parts through the drain pipe 13.

Replenishment of fluid losses (evaporation, partial drip pan) is carried out by known methods, in order to achieve kinetic stability of the liquid

5 masses in the lower part of the body can be installed dampers of known structures.

The location of the intake port 6 and the reflective plate 10 relative to

0 each other in the annular cavity creates a protective aerodynamic shadow above the liquid mirror, preventing the device from choking.

Placing the gas outlet nozzle 5 relative to the housing 1 with an eccentricity in a given direction allows an annular channel to be created with a smoothly tapering and smoothly expanding Venturi-type profile using the cylindrical part of a continuous cyclone of the required size as the nozzle.

The proposed device with a relative simplicity of design and moderate

5 hydraulic resistance is an effective means for trapping highly dispersed dust.

Claims (1)

Apparatus for cleaning gases, including a housing partially filled with a liquid with a gas inlet, a vertical cylindrical gas outlet, equipped with an inlet window and installed axially in the housing to form an annular cavity, characterized in order to increase the efficiency of dust collection, the inlet gas is made with outer and inner lateral flat walls installed according to j tangentially to the body and the gas outlet pipe, which is placed with an eccentricity in the direction from the gas inlet pipe along its outer side wall, while the device is equipped with a reflective plate, the annular cavity partially immersed in the liquid and oriented at an angle to the mirror-liquid along the stream . AND 2 ten FIG. 2 Fig .. 3 five /