SU1699540A1 - Gas-scrubbing apparatus - Google Patents

Abstract

The invention relates to instrumentation of the processing of a gas by a liquid and can be used in the chemical, metallurgical, petroleum and other industries. The aim of the invention is to reduce puma during operation of the apparatus and increase its reliability in operation. The gas cleaning apparatus comprises a housing 1 with nozzles 2-5, respectively, supplying gas and liquid outputs, a diffuser 6 with a throat /, a support grill 8 and a movable nozzle 9, and the apparatus is equipped with a flexible grid 10 forming a closed volume with the support grille there is a movable nozzle. Bending the mesh downstream along the gas flow is attached to the body of the apparatus around the perimeter of the support grid, upstream along the gas flow one point of the mesh is attached at the center point of the housing to its elements. During operation, contacting of the nozzle 9 with the walls of the apparatus body is eliminated, which increases the speed of the nozzle return and the interaction zone. 1 il. ch y u sg

Description

The invention relates to instrumentation of gas processing processes by liquid and can be used, for example, in the chemical, metallurgical, and oil industries.

The purpose of the invention! When the apparatus is operating and its operation. I The drawing shows the apparatus, a longitudinal section.

The gas purification apparatus comprises a housing 1 with nozzles 2-5 for supplying and discharging gas and liquid, respectively, a diffuser 6 with a neck 7, a support grid 8 and a movable nozzle 9, while the apparatus has a restriction grill made in a vice flexible grid 10 , which forms a closed volume with a support rail ('8, in which the movable nozzle 9 is located, the grid'! downstream of the gas flow) is attached to the housing 1 along the perimeter of the support grid 8, and upstream of the gas flow at point 11 to the housing elements parts.

The device works at once.

The gas stream enters the apparatus, passes the neck · 7 and the diffuser 6, and then comes into contact with the movable nozzle .9 located in a closed volume formed by the supporting and restrictive gratings. In this case, the gas flow brings the movable nozzle 9 into a fluidized state, its elements begin to pulsate in a closed volume. At the same time, under the influence of a high-speed gas flow, the flexible mesh 10 is expanded, forming a dome, restricting the volume in which the movable nozzle 9 is in a fluidized state. In size, the flexible mesh 10 is chosen such that in the molten state and under the action of impacts on the mesh of the elements of the movable nozzle 9, the mesh does not touch the walls of the housing 1 ’and 50 therefore, the movable nozzle 9 does not interact with the housing 1 of the apparatus, and flexible under the action of the high-speed flow the mesh 10 becomes elastic. The elements of the movable nozzle 9 collide with each other, with gas particles and interact with the grid 107 Elements of the movable mesh 9 upon impact:

and others, noise reduction, increased reliability10 in the central following pipe 30 pipe 2 on 40 mesh 10 are discarded by it and fall back into the flow of interacting media, which significantly increases the intensity of the process.

Using the grid, you can adjust the expansion volume of the movable nozzle, changing its size, the attachment point 'in the housing, the apparatus and the placement of the fixation points of individual mesh elements in the apparatus volume. The domed shape of the grid helps to equalize the gas flow velocities over the cross section of the apparatus and improves the distribution of irrigating liquid in the reaction zone of the apparatus.

In the apparatus, the gas is in contact with the liquid entering through the pipe 4, in the neck 7, in the diffuser 6, in the layer of the movable nozzle 9 and after cleaning. steps into the gas outlet pipe 3. The spent liquid is discharged from the apparatus through the pipe 5.

Thus, the movable nozzle 9, 'placed in a closed volume formed by a support grid 8 and a flexible grid 10, which during operation of the apparatus takes a dome-shaped shape and elastic properties, cannot collide with the wall 1 of the apparatus. This eliminates the possibility of the formation of a wall layer from the elements of the movable nozzle (all the elements of the movable nozzle are constantly in a fluidized state), increases the rate of return of the nozzle elements after hitting the mesh 10 into the zone of intense phase interaction, and sharply reduces the wear of the elements of the movable nozzle 9 after due to abrasion during the impact on the wall 1 of the apparatus ·. All this reduces noise during the operation of the apparatus and contributes to the efficiency of the process.

Claims (1)

Claim Apparatus for gas purification, comprising a housing with nozzles for supplying and discharging gas and liquid, a diffuser with a neck, a support and restrictive grating, a movable nozzle, characterized in that, in order to reduce noise during operation of the apparatus and increase its reliability, the restrictive grate executed in. " form of flexible mesh attached to. the casing of the apparatus around the perimeter of the support / lattice, while one point of the grid is rigidly fixed in the volume of the casing.