SU1263356A1 - Flotation machine - Google Patents

Abstract

1. A FLOTATION MACHINE containing a chamber, an aerator and an aeration tube made with areas of different cross-sectional area, characterized in that, in order to increase the flotation efficiency by ensuring uniform distribution of the gas phase in the volume of the flotation chamber and improving the conditions for mixing and contacting this phases with a floatable component; the cross-sectional area of each subsequent section of the aeration pipe decreases in the direction from the aerator to the end of the pipe; At least one nozzle, the nozzles of adjacent steps have different lengths, with their ends located on the spiral line extending from the bottom to the aerator and directed towards the development of the spiral line. 2. The machine according to claim 1, characterized in that (& that the nozzles are installed tangentially to the pipe. N5 OE CO co. O5

Description

The invention relates to the flotation of various materials and can be used in mineral processing, wastewater and recycling water treatment, etc.

The purpose of the invention is to increase the efficiency of flotation by ensuring uniform distribution of the gas phase in the volume of the flotation chamber and improving the conditions for the displacement and contacting of this phase with the floatable component.

Figure 1 presents a General diagram of a flotation machine; figure 2 - section a — a in figure 1.

The flotation machine consists of a flotation chamber 1, an aerator block 2 with a nozzle 3, an air duct 4 and a circulation channel 5, an aeration pipe 6 and nozzles 7.

The nozzle 3 of the aeration unit is in communication with the pump, the duct 4 - with a source of compressed air, and the circulation channel 5 - with the tail section. The aeration pipe 6 is installed under the aerator 2 and is made with sections of different cross-sectional areas, while the cross-sectional area of each subsequent section in the direction from the aerator 2 to the end of the pipe 6 is less than the cross-sectional area of the previous one. The nozzles 7 are installed in each section radially relative to the flotation chamber 1 and tangentially to the aeration pipe 6, while the outlet openings of the nozzles 7 are located ascending in the direction from the end of the pipe 6 to the expanding spiral aerator 2, and the direction of the axis of the outlet the pipe 7 coincides with the direction of the spiral. For this, the output ends of the nozzles 7 can be bent.

The device operates as follows. During flotation, a stream of liquid is fed into the aeration unit 2 through the nozzle 3 under pressure, which, impacting the gas-liquid interface formed by 5 supplying air to the aeration unit through the air duct 4, ejects the latter and enters the aeration pipe in the form of a highly aerated stream 6, into which 1Q liquid from the tailings compartment is also sucked in through the circulation channel 5. In the aeration pipe 6, due to a significant level of turbulence, the gas phase is actively dispersed into tiny bubbles.

From the pipe 6, a high-speed aerated flow enters the nozzles 7. By changing the cross section of the pipe 6, the flow rate of the aerated liquid leaving the nozzles of different sections is equal. Due to the fact that the outlet openings are located in the spiral indicated above, and the axis of the openings of the owls ²⁰ fall with the direction of the spiral, in the flotation chamber 1, air bubbles rise in an ascending spiral, which contributes to the effective displacement and contact of the bubbles with mineral particles in the 25 pulps. After mineralization of the bubbles, they enter the foam layer and are removed from the process.

If there is a rotational-translational movement of the aerated fluid in the aeration pipe 6, the nozzles 7 are installed tangentially, which helps to reduce hydraulic losses in the aeration pipe 6, as well as maintaining the high-speed flow regime in the nozzle 7.

Claims (2)

1. FLOTATION MACHINE, containing a chamber, aerator and aeration pipe made with sections of different cross-sectional areas, characterized in that, in order to increase the flotation efficiency by ensuring uniform distribution of the gas phase in the volume of the flotation chamber and improving the conditions of mixing and contacting this phases with a floatable component, the cross-sectional area of each subsequent section of the aeration pipe decreases in the direction from the aerator to the pipe end, at each pipe section there is less it least one nozzle, nozzles adjacent stages have a different length, while their ends are arranged on a helical line divergent from the bottom to the aerator, and development directed towards the helix. 2. Machine by π. 1, characterized in that the nozzles are installed tangentially to the “pipe. SU .... 1263356 fie. 1