SU1593704A1 - Method of flotation - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to the flotation of minerals. The goal is to increase the performance of the flotation process by optimizing its aerodynamic and hydrodynamic conditions. To do this, above the surface of the pulp (P) in the chamber of the photomachine (FM) create a pressure below atmospheric. At the same time inside the volume P create a gas-liquid interface, the difference between the pressure over which and the atmospheric pressure is 0.05-0.09 MPa. The pressure above the gas-liquid interface created inside the volume P is equal to the sum of the pressure above surface P and the pressure of column P from the gas-liquid interface formed inside the volume P to the surface P in the FM chamber. ON THE SURFACE OF THE SECTION THE PHASES ARE GIVEN A DEPLOYED JETS WHICH ARE SUBJECT TO FLOTS. DUE TO REDUCTION OF PRESSURE RELATING TO THE ATMOSPHERIC FROM THE JET P REMOVING THE GAS MICROBUBS. JETS, PASSING IN A GAS MEDIUM, EJECT ON A GAS SURFACE, WHICH ARE DISPERSED ON A SURFACE OF A SECTION, ON ITS SURFACE. HYDROPHOBIC PARTICLES TOGETHER WITH MICROPOSITIONS AND LARGE BUBBLES FORMED FLOTCOMPLEXES, WHICH RISE UP TO THE SURFACE AND WALKING DOWN THE FROZEN PRODUCT. The flotation product chamber accumulates in the lower part of the FM chamber and is removed from it. 1 il.

Description

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The pressure above the gas-liquid interface created inside the volume P is equal to the sum of the pressure above the surface P and the pressure of column P from the gas-liquid interface formed inside the volume P to the surface P in the FM chamber. Separate jets P are supplied to the interface that are flotation. By reducing the pressure relative to atmospheric pressure from the streams of the invention, the invention relates to the flotation enrichment of minerals and can be used in the processing of ore or nonmetallic raw materials, the extraction of molecules and ions from solutions during industrial wastewater treatment.

The purpose of the invention is to improve the performance of the flotation process by optimizing its aerodynamic and hydrodynamic conditions.

The flotation method is as follows.

A subpressure is created above the pulp surface of the flotation cell chamber. At the same time, inside the pulp volume, a gas-liquid interface is created, the pressure over which is equal to the sum of the pressure above the pulp surface in the flotation chamber and the pressure of the pulp from the gas-liquid interface formed inside the pulp. pulp surfaces in the flotation chamber. In this case, the difference between the pressure above the gas-liquid interface created within the volume of the pulp and the atmospheric pressure is 0.05-0.09 MPa. To this gas-liquid interface formed inside the volume of the pulp due to the existing pressure drop, pulp (or solution) is fed by gravity in the form of jets, which is subjected to flotation. At that, pulp jets of 0 / li solution pass through the gaseous medium under the gas-liquid interface formed inside the pulp volume, in which micro-bubbles of gas are released due to pressure drops from atmospheric 0.05-0.09 MPa . In addition, the pulp jets when passing through the gaseous medium carry with them the gas surrounding them through the gas-liquid interface formed inside the pulp volume.

The pulp jets hit the interfacial surface and are crushed, which contributes to the dispersion of the gas that is entrained by the jets and released from them due to the reduction of the microbubbles of the gas. The jets P, the passage in the gaseous medium, zhejktiruet gas on its surface, which is dispersed upon impact on the interface. Hydrophobic particles, together with microbubbles and large bubbles, form float complexes, which float to the surface II and are removed as a frothy product. The flotation chamber product accumulates in the lower part of the FM chamber and is removed from it. 1 yl.

neither pressure. Microbubbles of gas, together with larger bubbles formed mainly due to ejection by jets and hydrophobic particles, form float complexes that float to the surface of the pulp, forming a foam layer, and are removed. The flotation chamber product is also removed from the flotation machine.

The drawing shows a flotation machine for the implementation of the proposed method.

The flotation machine contains a chamber 1, inside of which a cap 2 is located, in the upper part of which a distributor is mounted.

3 with nozzles 4 for jetting. With the help of the nozzle 5, the cap 2 is connected with the atmosphere. The upper part of the cap 2 above the distributor is connected to the nozzle 6 for feeding the pulp. On top of the camera 1 is closed by a lid 7 with a pipe 8. The lid 7 is tightly connected to the foam container 9. At the bottom of the chamber 1 there is a discharge pipe 10.

Flotation machine works as follows.

The nozzle 8 is connected to a vacuum pump, after which the pressure above the pulp surface is reduced until the pressure above the gas-liquid interface within the pulp volume, namely in the cap 2, is 0.05-0.09 below atmospheric MPa. Due to this pressure drop through the nozzle 6, the distributor 3 and the nozzle 4 to the interface of the gas gas inside the cap 2, the pulp enters the form of jets, which draw air from the cavity of the cap 2, communicated with the atmosphere by means of the nozzle 5. The jets eject a gas which is dispersed upon striking

interface. In addition, due to the reduced pressure in the cavity of the cap, before the jets hit the interface, the microbubbles of gas are released in them. Formed flotation complexes

float to the surface of the pulp, from where they are removed to the foam collector 9. Chamber pro5 15937046

flotation is removed from the chamber of the four-jets to the interface, removing

cut discharge pipe 10. The ends of the product and chamber product

discharge port 10 and branch pipe flotation, characterized in that. what. with

to remove the frothy product are placed to improve process performance

in hydraulic locks 11. which allow ger-5 flotation by optimizing its air and

Claims (1)

metirovat chamber 1 of the flotation machine. hydrodynamic conditions, above the surface of the invention of the pulp in the chamber of the flotation machine, create a flotation method that includes creating a pressure below atmospheric, while in the chamber of the photomachine and in the volume of the bullet the difference between the pressure above the surface of the gas-liquid interface 10. The gas-liquid phase separation the formation of the original pulp in the form of the volume of the pulp and atmospheric pressure collected jets, the flow of detached is 0.05 - 0.09 MPa.