RU2522921C1 - Gold extraction from ores and concentrates - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: proposed method comprises loading initial ground stock into reactor and its processing by cyanide solution with pulp circulation and dispersion by compressed air. Note here that pulp processing involves application two-beam opposite hydroacoustic radiator with opposite fan-shaped radiation of wide-band continuous-spectrum acoustic oscillations and fan-shaped spray of air micro bubble clouds inside the reactor, air being active sucked in rarefaction zone developed by said radiator.

EFFECT: high-intensity extraction.

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Description

The invention relates to the field of hydrometallurgy of precious metals and is directed, in particular, to the intensification of the process of extracting gold from ores and concentrates. The result is achieved in that the pulp is processed in the field of mechanical vibrations of a wide continuous frequency spectrum of the acoustic range created by the hydrodynamic transducer, while fine air bubbles are introduced into the treatment zone due to the rarefaction created by the same hydrodynamic transducer.

The intensification of the processes of the extraction of valuable metals, in particular gold, from ore mass is a very urgent problem, which has constantly attracted the attention of researchers [1, 2] developing new methods for accelerated and more complete extraction of gold.

Known methods of intensifying the processes of leaching of precious metals by the influence of infra-low-frequency electric current [3, 4, 5, 6], pulse-wave exposure with the imposition of electric fields [7, 8, 9, 10, 11, 12].

The disadvantages of these methods are the complexity of the hardware of technological processes, high energy consumption, high consumption of reagents, and also the relatively low extraction of individual elements.

Among the methods for intensifying leaching processes, methods using ultrasonic influences are very attractive, since the use of ultrasound in enrichment and flotation technology is associated with a number of nonlinear specific phenomena accompanied by the propagation of ultrasonic vibrations in liquid media. Among these phenomena, the main thing is cavitation, which causes energetic small-scale flows with large velocity gradients, hydrodynamic pulses during the collapse of cavitation cavities, etc. Ultrasonic treatment allows you to free the surface of ore particles from all kinds of mineral coatings, reduce diffusion resistance in solutions, accelerate the renewal of solutions around particles, intensively acidify solutions (with special use), and in a number of cases significantly reduce the leaching duration [13, 14, fifteen].

Due to the dispersion and increased viscosity of the pulp, the solubility of oxygen in it is reduced and its diffusion is difficult. In addition, finely ground pyrites easily oxidize, absorb oxygen and thereby slow down the process of gold dissolution. Therefore, in the leaching of pulps of particular importance is the continuous saturation of their oxygen. Usually this is done by vigorously mixing the pulp, blowing it with air or pure oxygen [16, 17].

Known methods for extracting gold from poor ores, intensified by ultrasound with a frequency of 35 kHz and an ultrasonic power of 300 W [18], as well as an electromagnetic field with an ultrasonic frequency of at least 2 · 10 ¹¹ Hz [19] (which lies outside the ultrasonic range [20] ), however, the designs of both high-frequency and low-frequency ultrasound generators that provide radiation in a narrow frequency range are not intended to solve additional functions, aeration, for example, nor the high-frequency ultrasound that is unable to cause cavitation Nor dedicated low frequency ultrasound, which by definition can not be resonant particles and cavitation for gas bubbles of different sizes, do not provide the approximation to the theoretically possible limit intensification of the leaching process and only lead to degassing of the solution [14, 15, 20].

There is also known a method (the closest prototype) for accelerating the leaching of rich gold-bearing concentrates by intensive oxygenation of the gold-containing concentrate in a cyanide solution in a pulp circulation apparatus [21].

The present invention is directed to the intensification of leaching processes by combining broadband acoustic exposure with intense aeration. The indicated result is achieved by using the opposed hydroacoustic emitter with the opposed broadband fan radiation with a continuous spectrum of acoustic vibrations, as well as the fan distribution of microbubbles of air actively sucked into the spray zone in the working volume of clouds due to the design features of hydroacoustic emitters.

In sonar sources, acoustic vibrations are excited by the interaction of a fluid stream with a solid emitting system. These emitters allow you to generate acoustic vibrations with frequencies from units of Hz to 45 kHz, with approximately 70% of the radiation energy falling in the range of 0.5-10 kHz. Increases in the energy density in the medium are achieved by matching the frequency of self-oscillations in the flowing stream and the frequency of the natural oscillations of the obstacle. Plants with sonar emitters in general are a device for supplying liquid under pressure and a sonar transducer. The design of the device is fundamentally similar to injectors and has the property of spraying gas into a liquid, in particular, air sucked in due to the vacuum created in the converter.

As a result of the analysis of the level of technology for intensifying the leaching of gold-bearing ores, a source characterized by features identical to all the essential features of the claimed invention was not found, therefore, the claimed invention meets the condition of "novelty."

An additional search for known solutions showed that the claimed invention does not follow explicitly from the prior art for a specialist, since the proposed method uses acoustic exposure with a wide continuous spectrum of frequencies, among which there are always frequencies resonant with the natural frequencies of gas cavitation bubbles of various sizes, as well as the ability of hydroacoustic emitters to inject microbubbles of gas (in this case, air) into a liquid medium. Therefore, the claimed invention meets the condition of "inventive step".

Information confirming the possibility of carrying out the invention with obtaining the above technical result.

As a source of broadband acoustic exposure, an opposed “fan” type sonar emitter is used that is most suitable for implementing the proposed method.

The hydro-acoustic emitter is characterized by the following parameters:

configuration: double, opposed;

frequency range 3 Hz to 45 kHz;

energy density - 0.5-2 W · s / cm ³ ;

the main part (0.7) of the radiation energy is in the range of 0.5-10 kHz.

The invention is illustrated by the following examples.

Example 1. (according to the prototype in the optimal embodiment) The intensive cyanidation unit is equipped with a ceramic dispersant installed in front of the reaction zone. The reactor is loaded with concentrate, the cyanide leaching solution is fed to the cyanidation reactor, the solution is circulated, compressed oxygen is supplied through the ceramic dispersant, its flow rate is measured and adjusted so that the oxygen content in the solution is 5-10 mg / l, after which hourly evaluate the gold content in the solution. The process is conducted until the concentration of gold in the solution ceases to change within an hour. According to the authors, in the optimal mode, the duration of the process is 10 hours.

Example 2. Installation for intensive cyanidation is provided with a two-beam opposed sonar emitter installed in front of the reaction zone. The reactor is loaded with concentrate, the cyanide leach solution is fed into the cyanidation reactor, the solution is circulated, the sonic emitter is turned on, which is also an air injector, and then the gold content in the solution is estimated hourly. The process is conducted until the concentration of gold in the solution ceases to change within an hour. Studies show that in this case, the duration of the process does not exceed 6 hours

The above examples illustrate that the opposed sonar emitter with the specified parameters provided when pumping a working leach solution through it at a pressure of 4 atm, is a source of acoustic action on the suspension, accelerating the leaching process, and in parallel provides active aeration of the working area, which can further intensify the leaching process metal from pre-ground gold ore. Thus, the above information indicates that the claimed invention, intended for use in hydrometallurgy, has the properties stated above. For the claimed method in the form as described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed. Therefore, the claimed invention meets the condition of "industrial applicability".

Literature.

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Claims (1)

A method of extracting gold from ores and concentrates, including loading into the reactor a pre-ground feedstock and processing it with a cyanide solution with pulp circulation and dispersion by supplying compressed air, characterized in that the pulp processing is carried out using a two-beam opposed sonar emitter with opposed broadband fan radiation with a continuous spectrum of acoustic vibrations and fan spraying in the working volume of the reactor of clouds of air microbubbles, asset about sucked into the vacuum zone created by the emitter.