SU1175535A1 - Apparatus for integraction of gas with liquid - Google Patents

Abstract

APPARATUS FOR THE INTERACTION OF GAS WITH A LIQUID, including a housing with inlet and outlet branch pipes, inside which coaxial conical shells are installed, characterized in that, in order to intensify the heat and mass transfer process by eliminating stagnant zones, the shells are made with an increasing angle of taper from the periphery to the center. (LJ ate with SD

Description

The invention relates to chemical engineering and to be used to carry out processes of heat and mass transfer.

The purpose of the invention is to intensify the process of heat and mass transfer due to the elimination of stagnant zones.

On the MepTClSce-Hao pajReH interaction apparatus .c9. rezzrez.

The ipairt for the interaction of gas with a liquid, contains .Kopnyif 1, equipped with a fitting, and 3 for in-water / liquid and liquid, and nozzles 4 and 5 for the withdrawal of gas and liquid, respectively. In the case floodpipe, a gas curler containing a block of guide plates 6, covered with a disk 7 above, is mounted on the pipe 2-ra3gye1. The nozzle 8 is installed on the extension of the pipe of the spindle 3 to spray the liquid. A separation plate 9 is placed in the upper part of the body. In the height of the cavity, blocks 10 are attached to the body 1, consisting of 2-4 conical shells, the taper angle of which increases from the periphery to the center. Conical shells form between each other concentric gaps.

The gas-liquid interaction apparatus operates as follows.

Through port 4, a liquid is supplied to the scrubber. With the aid of the nozzle 8, it is sprayed on the droplets, which are immediately thrown onto the wall of the housing and flow down. Then the liquid enters the upper block of 10 conical shells (in the gaps formed by the shells). At the exit of the gaps, the liquid flows out in the form of thin layers that are easily torn into pieces by a rotating gas flow. Through shtucer 2 in the apparatus enters the gas to be processed. The passage is a twister, the gas acquires a rotational motion and simultaneously moves progressively upwards. Circled

the speed, depending on the height of the plates 6, is assigned in such a way as to provide a predetermined intensification of the process being carried out.

Since the liquid is introduced into the apparatus before the gas, the first flow meeting occurs under the lowermost block of 10 conical shells. The gas crushes the layers of liquid flowing from the gaps of the shells, with the liquid droplets being thrown onto the wall of the apparatus. This fluid is withdrawn from the apparatus through Shtutser 2. The gas, rotating and moving progressively upward, interacts alternately with the fluid layers flowing out of the conical blocks of cones. The number of gas interactions with the fluid flowing out of the block gaps corresponds to the number of blocks.

At the exit of the upper block of shells 0, the gas passes through the torch of the liquid sprayed by the nozzle 8, where the interaction of the gas with the fresh liquid is ensured. Then the gas passes through the separation plate 9 and leaves through the valve 4.

A more effective interaction of gas with liquid flowing in thin layers from the surfaces of conical shells, combined into blocks 10, provides for intensification of heat and mass transfer processes, which manifests itself either in an increase in productivity, or in an increase in efficiency, or in a simultaneous increase in productivity and Efficiency At the same time, a considerable share of intensification is provided due to more rational use of the swirling gas flow, since the interaction of gas with thin layers of liquid provides more efficient splitting of the liquid into droplets and a more developed surface of phase contact.

Claims (1)

DEVICE FOR INTERACTION OF GAS WITH LIQUID, including a housing with phase inlet and outlet nozzles, inside of which coaxial conical shells are installed, characterized in that, in order to intensify the process of heat and mass transfer by eliminating stagnant zones, shells are made with an increasing angle of taper from the periphery to the center.