SU1487956A2 - Device for gas scrubbing - Google Patents

Description

The invention relates to the protection of the environment, can be used to trap dust from flue gases and is an improvement of the invention by ed. No. 1276358.,

The aim of the invention is to increase the degree of gas purification and operational reliability of the device.

In FIG. 1 shows a device for wet gas purification, General view; in FIG. 2 - carried AA in FIG. one; in FIG. 3 - node I in FIG. one; in FIG. 4 is a section BB in FIG. 3 *, in FIG. 5 - rotary-shaking mechanism, general view ^ in FIG. 6 is a section BB in FIG. 5.

A device for wet gas purification comprises an annular chamber 1 and a housing 2. The annular chamber 1 is equipped with a 2θ wife inlet pipe 3, tangential nozzles 4. Housing 2 includes a tangential chamber - the first section 5, coagulating devices 6, subsequent sections “7-9, sludge collectors - 25 ki 10, inlet pipe 3 and sprinklers 11 and 12. The coagulating device 6 consists of an inclined disk 13 with an opening 14, a cylindrical glass 15, plates 16 and a breaker shield 17. Each of the plates 16 has an axis 18 with a shank'19. The axis 18 passes through the sleeves 20, the shanks 19 enter the ferrule 21 with slots 22 made in its rack 23 with the help of strips 24 provided with leads 35. The device comprises an outlet pipe 26.

The device operates as follows.

The flow of dusty gas through 40 inlet pipe 3 enters the annular chamber 1, and through the tangential nozzle 4 into the tangential chamber 5 at a speed of 20-50 m / s. This speed ensures the separation of particles 45 with a particle size of 5 μm, and the kinematic energy of the stream provides an effective atomization of the liquid supplied from the sprinkler 11 to the tangential chamber 5. With this interaction of the liquid and the gas stream, heat and mass transfer between them proceeds highly efficiently. The more efficient the heat and mass transfer, the faster the gas temperature decreases. . The faster the temperature of the gas decreases, the more efficient it is possible to remove sulfur dioxide or carbon dioxide from it, if as an irrigation liquid _; apply sorbents of these substances. The gas flow entering the tangential chamber from the annular chamber 1 is divided into several parts _ν by means of a nozzle 4, and the cylindrical cup 15 also prevents the instant expansion of the flow particles, which contributes to more efficient heat and mass transfer and coagulation. The inclined disk 13 is also wetted with liquid and dust particles settle and coagulate on its surface.

These dust particles together with moisture flow into the sludge trap 10. The surface of the disk 13 is the interface between the liquid and gaseous phases. At a high gas flow rate, its kinetic energy rejects particles of liquid and dust from the center to the periphery, and the glass 15 helps to increase the gas flow rate and prevents dust and moisture from entering the surface of the disk 13 into the hole 14, thereby increasing the efficiency of gas purification in the tangential chamber 5 .

Through the glass 15, a gas stream enters an opening 14 in which the plates 16 are mounted. When gas flows run onto the plates, dust particles adhere to them. Accumulated dust particles reduce the live section for the passage of gas. The aerodynamic drag of the device is increasing. When the aerodynamic resistance of the device exceeds the set value, then the plates 16 sharply rotate and hit each other, adhering dust falls from the plates 16 and is removed through the sludge receptacle 10. The rotation of the plates 16 is as follows. The yoke 21 is moved up or down using an eccentric or manually.

To the rack 23 an external force is applied from the mechanisms, providing its reciprocating motion. The rack 23 through the slots 22 transmits the movement to the leashes 25. Moving 50 with one end up and down, the straps 24 rotate the shanks 19 and through the bushings 20 of the axis 18. The rotation of the plates 16 allows them to be cleaned of dust. The frequency of 55 shaking of the plates is established by the technological regulations. The need to stop the device for cleaning due to an increase in aerodynamic drag with opening it disappears. Improves cleaning efficiency and operational reliability. Passing through the hole 14 and the inclined plate 16, the gas flow runs onto the baffle plate. 17 and rotates it at an angle of 85-60 *. Since the shield 17 completely covers the hole 14, the entire gas flow collides with the shields and changes its direction. Inclined plates 16 contribute to the coagulation of dust particles and increase the speed of the gas flow, therefore, when the flow direction changes, coarsened particles under the influence of inertia run onto the surface of the baffle plate 17 and together with the liquid film are removed through the sludge receptacle 10 outside the device.

The angle 60-85®, at which the baffle plate 17 is installed, is determined by the angle of inclination of the disk 13 so that the surface of the disk 13 and the surface of the shield 17 are parallel.

After the first coagulating device 6, the gas flow enters the next coagulating device, in which there is no cylindrical one (glass. The more coagulating devices, the higher the degree of purification of the gas flow, but the higher the hydrodynamic resistance of the apparatus. The resistance of one coagulating device in the apparatus is 125 -120 n / m ² .

The last coagulating device does not have a sprinkler, so the gas on it is not moistened and from it enters the outlet pipe 26. In addition to | Moreover, the rotary-shaking mechanism allows the plates 16 to be fixed to the axes 18 at different angles so that, for example, when the upper pair of plates 16 collides, when the gap between the plates 16 is completely closed, the opposite pair of plates 16 is in such a position that the gap between completely open with them, which prevents pulsation of the flow.

The supply of the apparatus with a cylindrical glass allows to intensify the process of heat and mass transfer and cleaning by creating acceleration zones. - slowdown in the chamber 5 and the introduction of an additional coagulating surface - the surface of the glass.

Claims (1)

Claim A device for wet gas purification according to ed. No. 1276358, characterized in that, in order to increase the degree of gas purification and operational reliability, it is equipped with a cylindrical glass attached around the hole of the coagulating device, and the plates of the latter are mounted rotatably and equipped with axles with shanks assembled in a cage made in the form of a rack with slots.