SU1260026A1 - Method of aeration of liquid flotation - Google Patents

Description

The invention relates to the aeration of a liquid during flotation and can be used in the beneficiation of minerals, as well as in various chemical engineering processes.

The purpose of the invention is to increase the gas saturation of the liquid.

FIG. 1 is a diagram illustrating the method; in fig. 2 is a diagram of the funnel, top view.

The method of aerating the liquid during flotation is as follows. Through nozzle 1, a swirling free jet 2 with a flat torch is fed to the gas-liquid interface. Rotational motion of the jet can be given with the help of special spiral inserts installed in the nozzle, with the help of rotation of the nozzle itself through a special drive or with the help of a cyclone mounted above the nozzle. Simultaneously with this, the rotation of the fluid in the jetted funnel 3 is given a direction opposite to that of the free jet 2. This can be done by various methods.

The simplest of them is the tangent-1D1 supply of liquid to the zone of impact of the jet 2 with the surface of the section, and the liquid is tangentially supplied to the funnel 3. This input can be made with the aid of a cylinder with a bottom in the form of a truncated cone 4, facing downwards with a smaller base, with a tangential tube 5, whose input is directed in the direction opposite to the downstream side

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jet two. Another variant of the device with which the flow can be swirled in the funnel can be a truncated cone, turned downwards with a smaller base and buried under the gas-liquid section, the inner surface of which is provided with a spiral-shaped guide the flow in the funnel 3 rotation in the direction opposite to the rotation of the strings. There are other options for the device. It is essential that the fluid flow in the funnel 3 should rotate in the direction indicated above. When a jet collides in one direction with a stream in a funnel 3 rotating in the other direction, a larger amount of air is captured both by the most rotating jet 2 during its free flow and at the moment of impact as compared to a conventional jet. At the same time, when the strings 2 enter the liquid in the boundary layer, between the jet 2 and the rotation in the opposite direction, effective dispersion of air occurs due to a higher level of turbulence in this boundary layer compared to the boundary layer. The pulp-air emulsion formed with the smallest bubbles formed by mixing the flows and the volume of the flotation cell, where the material flotation takes place.

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VNIIPI Order 515oll

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Random polygons pr-tie, Uzhgorod, st. Project, 4

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Claims (1)

METHOD OF LIQUID AERATION FOR FLOTATION, including supplying a free stream of liquid to a gas-liquid interface with the formation of a funnel of aerated liquid around the zone of impact of a stream with a specified surface, characterized in that, in order to increase the gas saturation of the liquid, the free stream gives a rotational movement, and the liquid rotates in the funnel give direction Fig. D> and 1260026