SU1556728A1 - Mixer - Google Patents

Abstract

The invention relates to mixing devices and can be used to create gas-liquid streams in the chemical industry. The mixer allows to increase the gas saturation efficiency by intensifying the mass transfer process. A pipeline is supplied to the mixing chamber with liquid. A means for introducing a gas in the form of a spiral is installed in the mixing chamber. The coils of the helix are displaced along the axis of the mixing chamber and increase along the flow of the liquid. The mixer allows to intensify the mixing process by creating an extensive mass-exchange surface with heavy traffic at the interface. 2 Il.

Description

The invention relates to mixing devices and can be used to create gas-liquid streams in the chemical industry.

The purpose of the invention is to increase the efficiency of gas saturation by intensifying the process of mass exchange.

FIG. 1 shows the proposed mixer, front view; in fig. 2 - the same, side view.

The mixer consists of a cylindrical body 1 with flanges 2 fixed to it on both sides, intended to be connected to a pipeline through which a liquid flows into the mixer (not shown).

In the cylindrical body 1 there is coaxially arranged a mixing chamber 3, made in the form of a Venturi tube and consisting of a diaphragm 4, a cylindrical part and a diffuser 5.

Along the axis of the cylindrical part of the mixing chamber 3 is placed a means 6 for introducing the medium (gas) 6, which is a perforated tube in the form of a spiral, the diameters of the turns of which increase along the length of the mixing chamber from the inlet to the outlet.

The mixer works as follows.

Pipeline through the diaphragm 4 in the cylindrical part of the mixing chamber 3 in the direction of the arrow enters the liquid. In the cylindrical part of the mixing chamber 3, the flow of liquid collides with the means 6 for introducing gas through which gas flows into the cylindrical part of the mixing chamber 3 in the direction of arrow A.

As a result of the collision with the gas injection means and due to the presence of gaps between the turns of the helix formed by the difference in the diameters of its turns, the flow of liquid begins to vigorously mix.

The intensification of the mixing process also contributes to the displacement of the turns of the spiral along the length of the mixing chamber, as this creates free space for the formation of turbulent vortices resulting from the interaction of the fluid flow with the turns of the spiral.

The mixing of the fluid flow is caused by the superposition of turbulent pulsations, the resulting velocity component of which has a direction perpendicular to the axis of the mixing chamber, on the linear component of the speed of movement

SP

ate

SE

| 1C

00

liquids, the intensity of mixing being determined by the velocity of the fluid flow depending on the diameter of the cylindrical part of the mixing chamber 3. Increasing the diameters of the coils along the flow contributes to the creation of optimal conditions, in particular, to achieve the technical velocity of the fluid flow and uniform distribution of the phases, to implement mass transfer .

The specified uniform distribution of the fluid can be achieved by

boron holes in the tube diameters of coils and pitch of the helix.

Claims (1)

The invention includes a mixer containing a mixing chamber in the form of a Venturi tube, in the constricted part of which a means for introducing a medium in the form of a perforated tube is placed, characterized in that, in order to increase the gas saturation efficiency, the perforated tube is made in the form of a spiral, the turns of which are offset along the length of the mixing tube. cameras with increasing diameter of coils from the entrance to the exit. (pus.i FIG. 2