RU2258564C2 - Method of floatation concentration of minerals - Google Patents

Abstract

FIELD: concentration of minerals; floatation of non-ferrous, ferrous, rare-earth and noble metals and non-metallic minerals.

SUBSTANCE: proposed method includes classification of pulp in hydraulic cyclone for obtaining sands and effluents, delivery of effluents of hydraulic cyclone for floatation separation at liberation of foam and chamber products. Hydraulic cyclone sands are divided into additional foam and chamber products in additional floatation chamber. Chamber product obtained from hydraulic cyclone sands is additionally ground and is returned for pulp classification. Additional foam product is liberated in form of independent concentrate or is directed for floatation separation. Delivery of hydraulic cyclone sands for their separation into additional foam and chamber products is performed from sand packing of hydraulic cyclone mounted vertically above additional floatation chamber along its axis in form of widening jet directly onto surface of pulp of additional floatation chamber. Sands may be delivered in form of hollow jet made by means of taper disperser. Air may be fed to this jet for control of its cone angle.

EFFECT: reduced degree of sledging of minerals.

4 cl, 1 dwg

Description

The invention relates to mineral processing and can be used in the flotation of non-ferrous, ferrous, rare and noble metals, as well as non-metallic minerals.

A known method of flotation beneficiation of minerals, including grinding crushed ore, classification of pulp in a hydrocyclone to obtain sand and discharge, the discharge of the hydrocyclone to flotation separation with the release of foam and chamber products, the return of hydrocyclone sands to the classification of pulp [1].

The disadvantage of this method is the low degree of extraction of the valuable component, due to the high degree of sludge minerals and the loss of the valuable component in the tails.

Closest to the proposed method is a flotation enrichment of minerals, including the classification of pulp in a hydrocyclone to produce sand and a drain, the discharge of a hydrocyclone to a flotation separation with the release of foam and chamber products, the separation of hydrocyclone sands into additional foam and chamber products in an additional flotation chamber, grinding of the chamber product obtained from the sands of a hydrocyclone, with its return to the classification of pulp [2].

The disadvantage of this method is the insufficient degree of extraction of a valuable component due to the incomplete extraction of thin classes of valuable minerals in an additional foam product and the return of up to 30% of small open particles to the mill. As a result of this, the load on the mill increases and, accordingly, the energy consumption, small particles are crushed, which leads to a decrease in the degree of extraction of a valuable component.

The objective of the invention is to increase the degree of extraction of a valuable component.

The technical result is a reduction in the degree of mineralization of minerals.

The technical result is achieved by the fact that in the flotation method of mineral processing, including the classification of pulp in a hydrocyclone to produce sand and discharge, the discharge of a hydrocyclone to flotation separation with the release of foam and chamber products, the separation of hydrocyclone sands into additional foam and chamber products in an additional flotation chamber, regrinding of the chamber product obtained from the sands of a hydrocyclone, with its return to the classification of pulp, the allocation of additional foam product in de independent concentrate or its direction for flotation separation, according to the invention, the supply of hydrocyclone sands for their separation into additional foam and chamber products is carried out from the sand nozzle of the hydrocyclone mounted vertically above the additional photocamera along its axis in the form of a free expanding stream directly to the pulp surface of the additional photocamera .

The supply of hydrocyclone sands can be carried out in the form of a hollow jet.

To obtain a hollow stream, you can use a conical diffuser.

Air can be introduced into the jet from below to control the angle of its taper.

The supply of hydrocyclone sands to their separation into additional foam and chamber products from the hydrocyclone sand nozzle mounted vertically above the additional photocamera along its axis in the form of a free expanding jet directly on the pulp surface of the additional photocamera allows reducing valuable component losses due to better pulp aeration. The expanding conical shape of the jet has a large contact surface with air and falls at an optimal angle, which allows for maximum ejection of air into the pulp volume and, therefore, a large degree of pulp aeration, uniform aeration over the area and height of the camera. These advantages will allow to increase the degree of extraction of a valuable component by reducing losses with sludge, which leads to an increase in the extraction of small particle size classes from hydrocyclone sands.

Feeding the sands of a hydrocyclone in the form of a hollow jet using a conical diffuser and supplying air to the jet from below can increase the degree of extraction of a valuable component by increasing the degree of aeration of the pulp volume during flotation.

The method is illustrated by a circuit diagram of the apparatus of the installation for its implementation.

The installation includes a hydrocyclone 1 or a battery of hydrocyclones, a camera 2, a ball mill 3, sump 4, pump 5. The points of supply of the reagents are indicated by the positions 6 - collector and 7 - foaming agent. The hydrocyclone 1 is mounted vertically above the additional camera 2 along its axis. To obtain a hollow jet in the direction of its movement, a conical diffuser 8 can be installed, under which a tube 9 for supplying air from below can be brought in to regulate the taper angle of the expanding jet.

The method is as follows.

The source material, for example, finely divided sands of hydrocyclones, with flotation reagents, is fed to pulp classification in hydrocyclone 1, where they are separated into a discharge directed to flotation separation into foam and chamber products (floatation machines are not shown in the drawing). The sands of hydrocyclone 1 are fed to the separation of additional foam and chamber products into the flotation chamber 2 from the sand nozzle of the hydrocyclone 1, in the form of a free expanding jet directly to the surface of the pulp of the additional flotation chamber 2. As a result of this supply of sand, the jet is pulverized aerated in the volume of the flotation chamber and the most complete surfacing of small fractions of a valuable component under-extracted in a hydrocyclone and their output into an additional foam product, which is released as an independent con entrata or routed to flotation in a flotation separation in the head main flotation or flotation operation control. An additional chamber product of the flotation chamber 2 is fed to a ball mill 3, where it is refined and pumped into the hydrocyclone 1 for classification by pump 5 through a sump 4.

Using the proposed method in comparison with the prototype will increase the extraction of a valuable component by 5%, reduce the energy consumption for grinding by 2%, eliminate the additional equipment between the hydrocyclone and the camera for receiving hydrocyclone sands and mixing them with reagents, as well as the cost of air supply flotokamera.

Sources of information

1. Handbook of ore dressing, vol. 2, part 1, Moscow, Nedra, 1974, p. 389.

2. Ore dressing, 2000, No. 1, pp. 11-12.

Claims (4)

1. A method of flotation enrichment of minerals, including the classification of pulp in a hydrocyclone to obtain sand and drain, feeding the hydrocyclone to flotation separation with the separation of foam and chamber products, separation of hydrocyclone sands into additional foam and chamber products in an additional flotation chamber, grinding of the chamber product obtained from the sands of a hydrocyclone, with its return to the classification of pulp, the allocation of additional foam product in the form of an independent concentrate or ix on its flotation separation, characterized in that the supply of sand to the hydrocyclone their separation into the additional chamber and foam products is carried out hydrocyclone sand fitting mounted vertically above additional flotation cell along its axis, in the form of a free-expanding jet directly to the surface of the pulp additional flotation cell. 2. The method according to claim 1, characterized in that the supply of hydrocyclone sands is carried out in the form of a hollow jet. 3. The method according to claim 2, characterized in that a conical diffuser is used to obtain a hollow jet. 4. The method according to any one of claims 1 to 3, characterized in that air is supplied into the jet from below to control the angle of its taper.