SU1286251A1 - Apparatus for cleaning gas - Google Patents

Abstract

The invention relates to a technique for cleaning gas emissions into the atmosphere and allows an increase in the degree of gas cleaning and a reduction in the dimensions of the device. . The device comprises a housing 1, a cap gas distributor 4, a distribution grid 5 and nozzles 6 in the form of truncated cones 7 with positive buoyancy, pressed against the bottom of the perforated partition 8. Plates 9 are installed on the distribution grid 5 for gas to be swirled. The gas passing through the grate twists the liquid and the vras, the cones of the nozzle, which, when rolling on the inside of the partition, destroys (crushes) the gas bubbles, settling down on the partition and the cones. In addition, to ensure the explosion safety cap valve 4 is equipped with a valve 12. 2 C, ff, 3 sludge. with s

Description

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The invention relates to a technique for cleaning gas emissions into the atmosphere from dust and toxic gaseous components and can be applied in the electronic, chemical, metallurgical, mining, food, pharmaceutical and other industries.

The purpose of the invention is to increase the degree of cleaning and reduce the size of the device.

Figure 1 shows a diagram of the device, a general view; figure 2 - section aa in figure 1; on fit.Z - section BB in figure 1.

The device includes a housing 1 with nozzles of an inlet 2 and a gas outlet 3, a cap gas distributor 4, a distribution distributor 5 made with holes increasing towards the peripheral part of the device, and a nozzle 6.

The nozzle b is made in the form of truncated cones 7 with positive buoyancy from a material lighter than a liquid, for example, from foam plastic.

The cones 7 are placed in the radial direction below the horizontal perforated restrictive partitions 8, fixed to the wall of the housing 1.

On the distribution grid 5 radially fixed inclined plate 9.

Each horizontal perforated partition 8 is provided with separating elements 10 in the form of concentric rings 11.

 When cleaning gases containing hydrogen, it is advisable to provide the upper part of the cap valve 4 with a valve 12, for example, in the form of a plate 14 fixed to the hinge 13 and equipped with a turn stop 15.

The lower part of the body is provided with a drain pipe 16. In the side part of the body, a pipe 17 for filling the liquid and an antifoam network 18 are reinforced.

A mist eliminator 19 is installed in the upper part of the housing.

The device works as follows.

The gas stream enters the nozzle 2, turns the cap dispenser 4 by 180 ° and enters the space between the bottom of the housing 1 and the distribution grid 5, then sparks through the liquid, cleans it in the nozzle 6, passes through the droplet separator 19 and the cleaned out pipe 3.

Since the reference distribution grid 5 is made with openings that increase towards the peripheral part of the device, the gas is evenly distributed under the grid 5 and splashes through the liquid over the entire area with the same intensity.

When gas escapes through the grate 5, it hits the inclined plates 9, changes its direction to a position close to horizontal, and causes the fluid to spin around the central axis of the device.

Since the cones 7 of the nozzle 6 are made floating, they are pushed upward by Archimedean force and pressed to the bottom of the horizontal perforated partition 8. The cones 7 by the rotating fluid flow begin to roll along the inner surface of the partition 8 circumferentially and crush numerous gas bubbles adhering to the bottom the partitions of the partition 8 that burst contribute to the wetting and removal of the particulate gas into the sediment and the dissolution of the gaseous impurities in the liquid.

Next, the two-phase mixture passes through a layer of foam, is subjected to further purification.

and enters the drip pan 19, where it is cleaned from the liquid phase.

Since the nozzle 6 is made in the form of truncated cones 7, the last turns rotate around its axis and the central vertical axis of the device ensuring its

0 position in the radial direction due to the fact that their larger base is located farther from the central axis of the device.

In the case of using an increased power device having a large case diameter, in the partitions 8, separating elements 10 are fixed, which prevent arbitrary movement of the cones 7 in the radial direction and serve as guides for moving each row

Q cones.

To improve safety when cleaning gases containing hydrogen, install a valve 12 located in the upper part of the cap valve 4. The valve operates as follows.

5 When the fan stops (due to a breakdown, power outage, etc.) and gas suction stops through the pipe 3, the plate 14 under its own weight turns downward relative to the hinge 13 to the limiter 15, ensuring

0 free exit of gas through the open hole, which prevents hydrogen from accumulating under the cap of the distributor 4 and the possibility of its explosion. When resuming fan operation

The aspirated stream plate 14 turns up and closes the opening. Thus, the increase in the degree of gas purification is due to the more intense destruction of gas bubbles, wasps: fed to the elements of the nozzle and the surface of the partition,

0 due to the contact of the cones 7 with the partition 8 along the line, as well as due to the fact that during its rolling each cone crushes gas bubbles that have settled in the area of its movement in a circle and on the surface of the cone itself. All the more intense destruction5 of the gas bubbles by the floating nozzle in the form of cones reduces the volume of the nozzle by 1.3-1.5 times, which accordingly reduces the size of the device.

Claims (3)

1. A device for gas purification, including a housing with gas inlet and outlet nozzles, a cap gas distributor, a distribution grid and a nozzle on it, characterized in that, in order to increase the cleaning degree and reduce its size, it is provided with a horizontal perforated restrictive partition placed over the distribution grid and inclined plates radially mounted on the distribution grid, with the attachment made in the form of truncated cones of positive buoyancy and azmeschena in ridial- prefecture direction smaller base to the center of the device. 2. A device according to claim 1, characterized in that the horizontal perforated restrictive partition is provided with separation elements in the form of concentric rings. 3. The device according to paragraphs. 1 and 2, characterized in that, in order to ensure explosion safety, the upper part of the cap gas distributor is provided with a valve. P 6-5