SU1634308A1 - Liquid-gas mixer - Google Patents

Abstract

The invention relates to the purification and condensation of industrial gaseous emissions by direct contact with water and can be used in gas cleaning installations in various industries and improves the efficiency of the mixing of liquid and gas regardless of gas pressure and to ensure the stability of the mixer operation. the mixer contains a cylindrical body with a hollow perforated cylinder coaxially located in it with a guiding body on its surface covers installed coaxial but the casing and the annular cavities connected to the latter are connected to the cavity of the perforated cylinder by means of the hairs made on the casing surface, and also branch pipes for supplying gas to the liquid and discharging the mixture, the opi linear guide is made in the form of a continuous spiral with a variable pitch of turns decreasing along the gas flow and the holes in the mixer housing and the hollow cylinder are arranged tangentially to their surfaces at an angle of 40 ° C. between the axis of the hole and the plane of the pipe passing through the radius and its axis. The holes are directed along the rotation of the gas flow and are arranged along the conditional spiral forming parallel to the working spiral of the mixer 3 s with

Description

The invention relates to the OCHISKR and the condensation of industrial gaseous emissions by direct contact with water and can be used in gas cleaning installations in various sectors of the industry.

The aim of the invention is to increase the efficiency of mixing agents, regardless of the gas pressure and ensure the stability of the mixer,.

FIG. 1 shows a schematic representation of the proposed mixer, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - cross section bb in fig 1.

The mixer contains a cylindrical body 1, coaxially located in it a hollow perforated cylinder 2 on the surface of which is fixed a guide body 3 made in the form of a continuous spiral with a variable pitch of turns increasing along the movement of the gas stream. The spiral guide body 3 forms between the body 1 and the hollow cylinder 2 spiral chamber 4 mix. Cylinder 2 communicates with the mixing chamber 4 by means of the opening 5 Coaxially to the housing 1 are installed covers 6, which form annular cavities 7 with it, communicating through the holes 8 in the housing 1 with the spiral mixing chamber 4 The holes 5 of the hollow cylinder 2 and the holes 8 in the housing 1 are located tangentially their surfaces and directed

about with

4 CJ

about

00

in the course of twisting the thread. The gas is supplied through the pipe 9, the liquid is supplied through the pipe 10 connected to the hollow cylinder 2 and the annular cavities 7. The gas-liquid mixture is withdrawn through the pipe 11.

The mixer works as follows.

Gas under pressure through the pipe 9 enters the spiral mixing chamber 4, where it is twisted with the help of the spiral guide body 3. The liquid under pressure through the pipe 10 enters the hollow perforated cylinder 2 and the annular cavities 7, from where, respectively, through the holes 5 and 8 is sprayed in the form of jets in the spiral mixing chamber 4. When this occurs, the mixing of the media and the twisting of the gas-liquid flow. Due to the supply of liquid over the entire surface of the spiral mixing chamber and swirling of the flow, the contact time and the surface of interaction of the phases are increased, which ensures intensive mixing at different ratios of the liquid and gas pressures. The spiral guide body 3 and tangentially directed liquid jets create vortices that promote the most complete phase mixing, an increase in contact time and maximum mass transfer. Forming gas-liquid mixture is discharged through the pipe 11.

The use of the proposed mixer will allow intensive mixing of liquid and gas at various ratios of their pressures and will ensure maximum trapping of hazards from the gas phase when it is used for gas cleaning purposes, for example, volcanic oi

Ft 1

in the production of glued rubber footwear, which ultimately leads to an increase in the efficiency of mixing agents and ensures stable operation of the mixer.

Claims (3)

1. A liquid and gas mixer containing a cylindrical body with a hollow perforated cylinder placed coaxially in it with a guide body on its surface, housings installed coaxially to the body and forming annular cavities connected to the last cavity of the perforated cylinder through holes made on the body surface as well as nozzles for the supply of gas, liquid and removal of the mixture, characterized in that, in order to increase the efficiency of mixing agents independently of the gas pressure and ensure stability of the mixer, the guide body is formed as a continuous spiral with a variable pitch turns, to the nozzle outlet uvelichivayuschims mixture and the openings in the housing of the mixer and a hollow cylinder and formed tangentially. directed in a spiral towards the outlet of the mixture. 2. A mixer according to claim 1, characterized in that the holes in the body and the hollow cylinder are made at an angle of 40 ° between the axis of the hole and the plane passing through the radius of the pipe and its axis. 3. Mixer for years. 1. characterized by the fact that the holes in the housing and the hollow cylinder are arranged along a conventional spiral generator, parallel to the working spiral of the mixer. eleven fl-fl Housing Hole Arrangement FIG. i Bv eight 5