SU1247092A1 - Impeller of flotation machine - Google Patents

Description

The invention relates to devices for flotation of various materials and can be used in the enrichment of mineral resources, in the treatment of waste and industrial waters, as well as in various chemical processes.

The purpose of the invention is to increase the efficiency of the impeller by reducing its energy intensity and increasing its projection capacity.

FIG. 1 shows part of an impeller; in fig. 2 -, the location. Holes relative to the blades.

The impeller consists of a shaft 1 with a disk 2 fixed on it, equipped with radial blades 3 and 4 arranged in pairs on two sides of disk 2. Blades 3 and 4 of each pair. displaced one relative to the other in the horizontal plane, and in the disk 2 circumferentially, the blades 3 and 4 each hole made holes 5, the latter being made to the disk plane at an acute angle, in the direction of rotation of the disk.

Impeller works as follows.

When the impeller rotates in the volume of the flotation cell, air cavities 6 and 7 are formed behind the radial blades 3 and 4 when air is supplied to the impeller. Vortexes are broken from air cavity 6 to form a Karman track and dispersed into bubbles. Part of the pulp thrown on the peripheral part of the impeller enters the hole. 5 and, forming into jets, expire with considerable speed into the air cavities 7. When the jets outflow and when they collide with the gas-liquid air (cavitation) section of the cavities, there is an additional and significant gas saturation of the pulp; jets in the traces of cavities instantaneous destruction of traces into the smallest bubbles occurs, and the size of the bubbles formed in this case is smaller than the size of the bubbles with spontaneous destruction of the cavity trail.

For the most optimal direction of the jet into the air cavity, the orifice is made inclined. In order to increase the surface area of the jet in order to increase the amount of air trapped by the jet, the holes are made slit-shaped, and to increase the jet speed, compared to the flow rate around the air cavity, the holes are confused. This makes it possible to use the effect of jet aeration to the fullest extent, since the jets contribute to the effective rejection of the gas – liquid mixture from the pripepellern zone. At the same size of the formed bubbles of flotation size and impeller rotational speeds, the ejection coefficient when using the prototype aerator is 1.1, and when applying the proposed impeller, it is 2.9. The ejection coefficient of 1.1 in the proposed impeller is achieved at significantly lower revolutions of the latter,

which reduces the electricity consumption for aeration and mixing by 50%.

Thus, the pre-impeller impeller can significantly reduce the energy consumption of the aeration process and mixing and increase the ejection coefficient of the aerator. . .

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Fi9. 2

Claims (4)

1. IMPELLER OF A FLOTATION MACHINE, comprising a shaft with a disk fixed to it, provided with radial blades arranged in pairs on both sides of the disk, characterized in that, in order to increase the efficiency of Phi. " d impeller bots by increasing the ejection ability and reducing its energy intensity, the blades of each pair are displaced one relative to the other in the horizontal plane, while holes are made in the disk around the circumference between the blades of each pair. · 2. The impeller according to claim 1, wherein the holes are made with an inclination to the plane of the disk at an acute angle directed to the direction of rotation of the disk. 3. Impeller pop. 1, it is distinguished by the fact that the holes are slit-like with a slot located along the blades. 4. The impeller according to claim 1, with respect to the fact that the holes are made confused. sewage and industrial waters, in various chemical about inventions - increase .ef1 1247092