RU2400290C1 - Device for gas scrubbing - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention refers to scrubbing and can be implemented in metallurgy and other branches of industry. The device consists of a confusor and diffuser interconnected with a neck, of two rotary half-gates installed in the zone of the neck, and of a system of jet nozzle spraying positioned in the confusor. An upper wedge-shape faring is installed in the confusor with its point up to form two converging gas channels. A lower wedge-shape faring is installed in the diffuser with its point down to form two expanding gas channels. A base of the lower fairing is located at the level of the diffuser base, while the upper fairing is positioned above the lower fairing. Each side face of the upper wedge-shape fairing in each gas channel is located in cross section of the neck with a gap above the base of the lower wedge-shape fairing; the half-gate secured on a horizontal shaft is mounted in each of the said gaps in the zone of the neck.

EFFECT: raised efficiency and reliability of operation of scrubbing device.

4 cl, 1 dwg

Description

The inventive object relates to the wet cleaning of gases and can be used in metallurgical, chemical and other industries.

The closest in combination of features to the claimed object is a gas purification device selected as a prototype, containing a confuser and a diffuser interconnected by a neck, an upper wedge-shaped fairing installed upward in the confuser to form two tapering gas channels in the confuser, and a lower wedge-shaped a cowl mounted downward in the diffuser to form two expanding gas channels in the diffuser. The known device contains two half-valves installed in the neck with the possibility of driving rotation from coaxially arranged shafts to control the area of the neck. In addition, the device comprises a nozzle irrigation system, the nozzles of which are located in the confuser and under the upper wedge-shaped fairing mounted above the shafts. The half-valves are made of several sections connected by cylindrical hinges with limiters to turn the sections one relative to the other in the direction to the vertical axis of the device. At the same time, the half-flaps on the gas flow side are covered with a tape of flexible wear-resistant material, adjacent its middle part to the half-flaps, the ends of the tape are fixed to the load. This cargo is placed below the half-gate with the possibility of vertical movement along the vertical axis of the device and has the shape of a wedge, the acute angle of which is directed downwards (SU No. 1634304, IPC: B01D 47/10, publ. 15.03.93).

The claimed object and the prototype match the following essential features. Both devices contain a confuser and a diffuser interconnected by a throat, an upper wedge-shaped fairing installed in the confuser with the tip up to form two tapering channels for gas in the confuser, a lower wedge-shaped fairing installed in the diffuser with a pointed down to form two expanding gas channels in the diffuser, two half-valves installed in the neck area with the possibility of driving rotation to regulate the neck area, and a nozzle irrigation system, the nozzles of which are located in confuser.

Analysis of the technical properties of the prototype, due to its features, shows that the following reasons hinder the receipt of the expected technical result when using the prototype.

The installation of two half-valves on coaxial shafts, consisting of two pipes inserted one into the other, while one half-valve is attached to the outer pipe, and the second half-valve is attached to the inner pipe through the corresponding slots in the outer pipe, it does not provide reliable rotation of the half-valves due to clogging of the slots in the outer pipe and the gaps between the pipes moistened with dust and subsequent jamming of the pipes. The execution of half-valves of several sections, interconnected by cylindrical hinges with the possibility of rotation of the sections relative to each other, is extremely unreliable due to the low operability of the hinges when they are in a moist dust-gas environment. Violation of the half-gate profile leads to the formation of a violation of the channel profile for gas in the location of each half-gate and to the formation of gas channels asymmetric with respect to the vertical axis. The protection of the half-barriers from the side of the gas stream by a tape made of flexible wear-resistant material is unreliable due to the presence of abrasive dust in the gas stream, which destroys the tape, which leads to a violation of the aerodynamics of the gas stream in the neck. Through the space between the upper wedge-shaped fairing and the half-flaps in the confuser, the stream of gas to be cleaned can spontaneously redistribute from one gas channel to another, which leads to an uncontrolled change in the velocity of gas flows in the neck area. In addition, mixing the two gas streams in the diffuser immediately after the wedge-shaped load causes undesirable turbulence in the volume of the diffuser. The above disadvantages in the design of the prototype reduce the reliability of the device for gas purification, as well as reduce the efficiency of gas purification due to a decrease in the intensity of mass transfer processes in the confuser, neck and diffuser.

The basis of the claimed object is the task of creating such a device for gas purification, in which improvements by introducing new elements and changing the form of the elements make it possible to use the inventive object to achieve a technical result consisting in increasing the efficiency and reliability of the device for gas purification.

The inventive gas purification device comprises a confuser and a diffuser interconnected by a neck, an upper wedge-shaped fairing installed along the length of the confuser with a pointed upward side to form two tapering channels for gas in the confuser, a lower wedge-shaped fairing installed along the length of the diffuser with a pointed downward side to form two expanding gas channels, two half-valves installed in the throat area with the possibility of driving rotation to regulate the throat area, and a nozzle system deforestation, whose nozzles are located in the confuser.

A distinctive feature of the claimed design of a device for gas purification is the following. The base of the lower wedge-shaped fairing installed along the length of the diffuser is located almost at the level of the base of the diffuser, and the upper wedge-shaped fairing is installed along the length of the confuser directly above the lower wedge-shaped fairing to form, together with the sides of the confuser and diffuser, two gas channels, each of which is in cross section almost symmetrical about its vertical axis. Moreover, each side of the upper wedge-shaped fairing in each channel for gas is located in cross section with a gap in the neck area above the base of the lower wedge-shaped fairing and in each of these gaps in the neck area a half-shutter mounted on a horizontal shaft is installed.

In special cases of use, the claimed object is characterized in that:

- from the side of the cavity between the upper wedge-shaped fairing and the lower wedge-shaped fairing, each half-valve with a horizontal shaft is enclosed in a casing attached to the said fairings and installed with the possibility of contact with the horizontal shaft of the half-valve throughout its entire length;

- the neck of each gas channel is formed by the surface of the lower part of the side of the confuser and the surface of the corresponding half-gate, which are rounded at the narrowest point of the neck, with each half-gate installed so that the edge of its rounded part can contact the side of the lower wedge-shaped fairing in the maximum open position of the half-gate;

- nozzles of the irrigation system are located in cross section along the vertical axis of each of these channels for gas, while the sides of the spray angle of each nozzle in cross section cross the neck of each channel for gas in the area of the half-damper.

When using the inventive object is expected to achieve a technical result, which consists in increasing the efficiency and reliability of the device for gas purification.

Between the totality of the essential features of the claimed object and the achieved technical result, there is the following causal relationship. The location of the base of the lower wedge-shaped fairing, installed along the length of the diffuser, is almost at the level of the base of the diffuser and the installation of the upper wedge-shaped fairing along the length of the confuser directly above the lower wedge-shaped fairing to form, together with the sides of the confuser and diffuser, two gas channels, each of which in cross section is practically symmetrical about its vertical axis, prevent the spontaneous redistribution of gas in the confuser from one gas channel to the other, preventing an uncontrolled change in the velocity of gas flows in the neck area, interfere with the mixing of the two gas flows in the diffuser, preventing undesirable swirling of gas in the volume of the diffuser. The location of each side of the upper wedge-shaped fairing in each channel for gas in cross section with a gap in the neck area above the base of the lower wedge-shaped fairing and installation in each of these gaps in the neck area of the half-valve mounted on a separate horizontal shaft, ensure the formation of a given profile of the channel for gas in the location of each half-gate, contributing to the formation of two channels for gas, which are almost symmetrical about the vertical axis. The specified aerodynamics of the gas flow in the neck is ensured by reliable rotation of the half-shutters by a predetermined angle together with separate, rather than coaxial horizontal shafts, which, in addition, can be installed in supports located outside the device, without the use of elements for which it is possible to jam when they are located in a moist dust and gas environment.

The above design improvements increase the reliability of the gas purification device and increase the efficiency of gas purification by increasing the intensity of mass transfer processes in the confuser, neck and diffuser.

The conclusion from the side of the cavity between the upper wedge-shaped fairing and the lower wedge-shaped fairing of each half-valve with a horizontal shaft in the casing, attached to the said fairings and installed with the possibility of contact with the horizontal shaft of the half-valve along its entire length, in some cases prevents the circulation of gas in the neck around the half-valve and horizontal shaft, which helps to reduce gas turbulence in the neck and reduces wear on the elements in the gas path.

The execution of the neck of each channel for gas by the surface of the lower part of the side of the confuser and the surface of the corresponding half-gate, which are rounded at the narrowest point of the neck, and the installation of each half-gate with the possibility of contacting the edges of its rounded part with the side of the lower wedge-shaped fairing in the maximum open position of the half-gate in some cases necessary to further improve the aerodynamics of the gas flow in the neck and in the diffuser, as well as to reduce gas circulation in the region r rloviny poluzaslonki and around the horizontal shaft, thereby reducing gas turbulence in the throat and reduces the wear elements are gas path.

The location of the nozzles of the irrigation system in a cross section along the vertical axis of each of these channels for gas, so that the sides of the spray angle of each nozzle in the cross section intersect the neck of each channel for gas in the location of the half-gate, helps to increase the efficiency of gas purification by ensuring optimal wetting gas flow at its optimal speed in the neck area.

The essence of the claimed object is illustrated by the drawing, which shows a cross section of a device for cleaning gases.

The drawing has the following notation:

1 - confuser;

2 - diffuser;

3 - neck;

4 - side of the confuser;

5 - side of the confuser;

6 - side of the diffuser;

7 - side of the diffuser;

8 - lateral side of the neck;

9 - lateral side of the neck;

10 - upper wedge-shaped fairing;

11 - side of the upper wedge-shaped fairing;

12 - side of the upper wedge-shaped fairing;

13 - the vertical axis of the channel for gas;

14 - vertical axis of the channel for gas;

15 - lower wedge-shaped fairing;

16 - side of the lower wedge-shaped fairing;

17 - side of the lower wedge-shaped fairing;

18 - half-gate;

19 - half-gate;

20 - horizontal shaft;

21 - horizontal shaft;

22 - nozzle;

23 - nozzle;

24 - a casing;

25 - a casing.

In a specific example, the inventive gas purification device comprises a confuser 1 and a diffuser 2 interconnected by a neck 3. The confuser 1 is made with a trapezoidal cross-section, has sides 4 and 5 and tapers from the upper base to the lower. The diffuser 2 is also made with a trapezoidal section, has sides 6 and 7 and expands from the upper base to the lower. The neck 3 has sides 8 and 9. Along the length of the confuser 1, an upper wedge-shaped fairing 10 is installed with the tip upward with the sides 11 and 12 respectively forming two tapering gas channels with vertical axes 13 and 14 with the sides 4 and 5 of the confuser 1. the length of the diffuser 2 with the tip pointing downward, a lower wedge-shaped fairing 15 with the lateral sides 16 and 17, respectively forming two expanding channels for gas with vertical axes 13 and 14 with the sides 6 and 7 of the diffuser 2, is based. positioned almost at the level of the upper base of the diffuser 2, and the upper wedge-shaped fairing 10 is installed directly above the lower wedge-shaped fairing 15 to form, together with the sides 4 and 5 of the confuser 1 and the sides 6 and 7 of the diffuser 2, two gas channels, each of which is transverse the cross section is practically symmetrical with respect to the vertical axes 13 and 14. Moreover, each side 11 and 12 of the upper wedge-shaped fairing 10 in each gas channel is located in cross section with a gap in the region of th than half 3 above the base of the lower wedge fairing 15. In each of the gaps in the area of the neck 3 fitted poluzaslonki 18 and 19, mounted respectively on horizontal shafts 20 and 21, with rotation of the drive to regulate the throat area. The device also contains a nozzle irrigation system, nozzles 22 and 23 of which are located in the confuser 1.

In special cases, the implementation of the device for cleaning gases, each half-valve 18 and 19 with a horizontal shaft 20 and 21 from the cavity side between the upper wedge-shaped fairing 10 and the lower wedge-shaped fairing 15 is respectively enclosed in a casing 24 and 25 attached to these fairings and installed with the possibility of contact with horizontal shaft half-damper along its entire length.

In particular cases of the implementation of the device for gas purification, the neck of each channel for gas is formed by the surface of the lower part of the sides 4 and 5 of the confuser 1 and, accordingly, the surface of the corresponding half-valves 18 and 19, while the lower parts of the sides of the confuser and the corresponding surfaces of the half-valves are rounded in the narrowest place of the neck. Moreover, each of the half-valves 18 and 19 is installed with the possibility of contact of the edge of its rounded part with the corresponding side of the lower wedge-shaped fairing 16 or 17 in the maximum open position of the half-valve.

In special cases, the implementation of the device for gas purification nozzles 22 and 23 of the irrigation system are located in cross section, respectively, along the vertical axes 13 and 14 of each of these channels for gas. The sides of the spray angle of each nozzle in cross section intersect the neck of each channel for gas, respectively, in the location of the half-valves 18 and 19.

In a specific embodiment, the inventive gas purification device operates as follows. Once in confuser 1, the gas to be cleaned after interacting with the sides 11 and 12 of the upper wedge-shaped fairing 10 and the sides 16 and 17 of the lower wedge-shaped fairing 15 is divided into two gas flows, each of which is practically symmetrical in cross section relative to the vertical axes 13 and 14 . In confuser 1 due to the reduction of its cross section, the speed of the gas to be purified increases in each gas stream, reaching a maximum value in the region of the neck 3, respectively, between the side 8 of the neck and the surface the openings 18 and the lateral side 9 of the neck and the surface of the half-closure 19. Each gas stream is wetted by a liquid that is sprayed by nozzles 22 and 23, respectively located in the confuser 1 along the vertical axis of the channel for gas 13 and 14. Next, each gas-liquid stream enters the diffuser 2, where there is a decrease in its speed and partial restoration of pressure. The combination of gas-liquid flows occurs after they exit the diffuser 2. The regulation of the area of the neck 3 when changing the amount of gas to be purified occurs depending on the set gas velocity in the neck, which provides the required gas cleaning efficiency. The regulation of the gas velocity in the neck of each channel is reliably carried out by turning at the required angle the half-valves 18 and 19, mounted on separate horizontal shafts 20 and 21.

When a cleaned gas stream passes through two gas channels in each almost symmetric gas-liquid stream at the same speeds and in the absence of turbulence, mass-exchange processes and effective gas purification take place with the semi-valves reliably controlling the speed of each gas stream.

Claims (4)

1. A device for cleaning gases, containing a confuser and a diffuser interconnected by a throat, an upper wedge-shaped fairing installed in the confuser with the tip up to form two tapering channels for gas in the confuser, a lower wedge-shaped fairing installed in the diffuser with a point down to form two in the diffuser expanding channels for gas, two half-valves installed in the throat area with the possibility of driving rotation to regulate the area of the neck, nozzle irrigation system, nozzles oh located in the confuser, characterized in that the base of the lower wedge-shaped fairing installed along the length of the diffuser is located almost at the level of the base of the diffuser, and the upper wedge-shaped fairing is installed along the length of the confuser directly above the lower wedge-shaped fairing to form two channels together with the sides of the confuser and diffuser for gas, each of which in cross section is practically symmetrical about its vertical axis, with each side of the upper wedge idnogo fairing in each channel for gas is located in the cross section with a gap in the neck region above the base of the lower wedge fairing and each of said gaps in the area of the neck is set poluzaslonka fixed on a horizontal shaft. 2. The device according to claim 1, characterized in that on the cavity side between the upper wedge-shaped fairing and the lower wedge-shaped fairing, each half-damper with a horizontal shaft is enclosed in a casing attached to the said fairings and installed with the possibility of contact with the horizontal shaft of the half-damper along its entire length. 3. The device according to claim 1, characterized in that the neck of each channel for gas is formed by the surface of the lower part of the side of the confuser and the surface of the corresponding half-gate, which are rounded at the narrowest point of the neck, while each half-gate is installed with the possibility of contact of the edge of its rounded part with side of the lower wedge-shaped fairing in the maximum open position of the half-damper. 4. The device according to claim 1, characterized in that the nozzles of the irrigation system are located in cross section along the vertical axis of each of these channels for gas, while the sides of the spray angle of each nozzle in cross section intersect the neck of each channel for gas in the area of the half-damper.