RU2426595C1 - Method of cavitation-acoustic weakening and disintegration of placers' clay sands - Google Patents

Abstract

FIELD: process engineering. ^ SUBSTANCE: invention relates to mining and may be used in developing natural and technogenic placer deposits of natural resources with increased content of fine and thin gold. Proposed method comprises deposit opening, producing sump, weakening rocks by feeding water and filtration, and mounting pipeline transport of hydraulic mix with pumps with hydrodynamic cavitation agitator. Pre-loosened mined rock arranged in sump first section by bulldozer agitator is subjected to ultrasound at frequency of 20 Hz and intensity of 10 to 20 W/cm2. Water is forced into sump first section in amount making 0.15 to 0.3 of volume content of rocks lumps at porosity of 26 to 40% to act by ultrasound with 20 Hz-frequency and 10 to 20 W/cm2-intensity onto hydraulic mix and feeding said mix to system of jetting and grading with pre-disintegration by hydrodynamic cavitation agitator. Simultaneously with loosening mined rock in first section, second sump section is filled with loosened mined rock. Jetting and grading with barren rock and feeding hydraulic mix in additional sump are performed for additional saturation with water. Water is additionally fed into additional sump with the solid-to-liquid ratio of 3:7 to act by ultrasound with 20 Hz frequency and 10 to 20 W/cm2 intensity onto hydraulic mix solid component in additional sump. ^ EFFECT: higher efficiency and environmental safety. ^ 2 dwg

Description

The invention relates to the mining industry and can be used in the development of natural and industrial high-clay alluvial mineral deposits with a high content of fine and fine gold.

There is a method of destruction of a rock mass, according to which the rock is subjected to rock-cutting tool and ultrasonic vibrations at the point of contact of the latter with the mass, preliminary determine the direction of maximum compressive stress in the mass, and the direction of ultrasonic vibrations is oriented perpendicular to the direction of maximum compressive stress ahead of the impact of the rock-cutting tool / 1 /.

The method is intended for the destruction of rocks of the ore type and cannot be used for the destruction of medium and high plasticity clay sands of placers.

A known method of controlling the process of transformation of gold-bearing rock, including softening the rock by mechanical action, followed by periodic initiation of elastic vibrations in the ultrasonic range with a constant frequency in the sand-clay rock-water system, the initiation of elastic vibrations is carried out at constant external pressure, various time intervals and powers and pre-selection of a controlled range of particle sizes determine the optimal exposure time at which stability of the clay particles precipitate in a system with a constant volume is established, then conditional transformation coefficients are calculated, a graph of the indicated transformation coefficients versus time is plotted, from which the increase in the controlled initial value of the specific surface of softened particles is determined by an order of magnitude, which reduces the ultrasonic radiation power by half / 2 / .

This method does not include the intensification of volumetric areas of compacted and water-saturated sands and can be used to activate the hydraulic mixture and its control.

The closest in technical essence is a method of softening and disintegrating clay sands of alluvial deposits, including opening the placer, digging a water trench with a slope in the direction of falling of the field and a catchment trench with a depth of the bottom marks in trenches from 1.5 to 3 m, filling the water with water trenches with simultaneous filling of the developed placer section with water to a depth that provides installation and installation of equipment in a floating state, and maintaining this level in later for primary softening of clay sands by means of water supply through an adjustable shutter, the process of natural filtration of water into the massif, installation of a pressure hydrotransport installation. At the end of the pressure pulp line, a vortex generator and a hydrodynamic cavitator / 3 / are installed.

The disadvantage of this method is that the main process of disintegration is carried out by acting on the hydraulic mixture. However, at the first stage of natural filtration of water into the massif, the process is not initiated and therefore develops rather slowly, since the clay filtration coefficient is from the fourth to the sixth order of smallness of 0.0005-0.000005 cm / s.

The technical result of the proposed method is to increase the efficiency of destruction and disintegration of clay sands of placers by ultrasonic exposure to radiation in accordance with the properties and condition of pieces of rock mass and solid component of the hydraulic mixture.

The technical result is achieved due to the fact that in the method of cavitation-acoustic softening and disintegration of clay sands of gold placers, including opening the placer, forming a sump, softening the rock mass by means of water supply and the subsequent filtration process, installation of a pressure hydraulic fluid transporting unit with hydrodynamic pump periodic ultrasonic action with a radiation frequency of 20 kHz and an intensity of 10 to 20 W / cm ² on previously mechanically The rock mass, loosened and placed in the first compartment of the sump using a bulldozer-ripping unit, is supplied with water by the hydrotransport system, the volume content of which in pieces of rock with a porosity of 26 to 40% is from 0.15 to 0.3 , followed by sonication frequency of 20 kHz and an intensity of 6 to 10 W / cm ² in the slurry and applying the slurry to erosion and classification system with preliminary disintegration using hydrodynamic cavitator, with one In combination with the process of softening the rock mass in the first compartment of the sump, the second compartment of the sump is filled with mechanically loosened rock mass, erosion and classification are carried out with the separation of waste rock and the hydraulic mixture is supplied to the additional sump for additional water saturation, while additional water is supplied to the additional sump with the ratio t: Well as 3: 7 and the subsequent ultrasonic effect with a radiation frequency of 20 kHz and an intensity of 2 to 5 W / cm ² on the solid component of the slurry in the additional sump.

The combination of new essential features allows us to solve a new technical problem - to intensify the production process by ultrasonic irradiation with powerful radiation on previously mechanically loosened rock mass, intensification of the natural process of water filtration in large-sized rock mass by means of medium-power ultrasonic radiations, subsequent cavitation and sound impact on hydraulic mixture in a low range intensities before enrichment.

Figure 1 - General view of the development system of the placer, ensuring the implementation of the method; figure 2 - mining hydromechanical complex using a cavitator and an ultrasonic installation.

The method is carried out using a hydromechanical mining complex, which includes a bulldozer-ripping unit 1, two ultrasonic units 2, a sump 3. The sump 3 has a first compartment 4 and a second compartment 5. A pressure hydraulic fluid mixture installation 6 connects the first compartment 4 and the second compartment 5 of the sump 3 with a washout and classification system 7 and is equipped with a hydrodynamic cavitator 8. In addition to sump 3, an additional sump 9 is made, into which a classified slurry enters after separation of gangue in the size system of discharge and classification 7. The complex is equipped with a hydrotransport system 10 for supplying water to the first compartment 4, the second compartment 5 of the sump 3 to the erosion and classification system 7 and an additional sump 9. An additional sump 9 is connected to the enrichment complex 11 through the installation of pressure hydraulic transport of the hydraulic mixture 12.

The method of cavitation-acoustic softening and disintegration of clay sands of gold placers is as follows.

The placer is opened and a sump 3 is formed with a first compartment 4 and a second compartment 5 and an additional sump 9. An installation is made of a pressure hydrotransport unit for a hydraulic mixture 6 with a hydrodynamic cavitator 8, a unit for a pressure hydrotransport of a hydraulic mixture 12 and an erosion and classification system 7. Using a bulldozer-ripping unit 1 rock mass is previously mechanically loosened and placed in the first compartment 4 of the sump 3. Using an ultrasonic installation 2 produce periodic ultrasonic operation at 20 kHz and the intensity of radiation from 10 to 20 W / cm ² for mechanically loosened and placed in the first compartment 4, the sump 3 rock mass. Then the softening of the rock mass and the subsequent filtration process are carried out in the first compartment 4 of the sump 3 by means of a water supply by the hydrotransport system 10. Upon reaching a volumetric water content in pieces of rock mass with a porosity from 26 to 40% of a value from 0.15 to 0.3, the following sonication frequency of 20 kHz and an intensity of 6 to 10 watts / cm ² on the slurry in the first compartment 4, the sump 3 and the slurry supply to the system and erosion of the labeling with the provisional 7 disintegration using hydrodynamic kavitato a 8. Simultaneously with the process of softening the rock mass in the first compartment 4 of the sump 3, the second compartment 5 of the sump 3 is mechanically loosened by the rock mass. The process of processing the rock mass in the second compartment 5 of the sump 3 is repeated similarly to the process carried out in the first compartment 4. Installation of pressure head hydraulic transport of the hydraulic mixture 6 conveys the slurry to the erosion and classification system 7. Using the erosion and classification system 7, the slurry is eroded and classified with separation of waste rock. The slurry is supplied to an additional sump 9 for additional water saturation. Using the hydrotransport system 10, additional water is supplied to the additional sump 9 with a ratio of t: w as 3: 7 and the subsequent ultrasonic treatment with a radiation frequency of 20 kHz and an intensity of 2 to 5 W / cm ² on the solid component of the hydraulic mixture in the additional sump 9. From additional sump 9 dispersed slurry using the installation of pressure hydraulic transport of slurry 12 enters the beneficiation complex 11, which may consist of classification units.

The method provides effective environmental safety and allows for the effective directional conversion of both highly plastic and weak plastic clay sands in open pit mining. The process of active disintegration of clay sands using ultrasound in open cast mining can be carried out at depths of up to 30 meters.

Information sources

1. A.S. RF 1666707. Method of destruction of a mountain range / L.M. Zinker et al. - 07.30.1991. - Bull. No. 28.

2. Pat. RF 2276727. A method of controlling the process of transformation of a gold-bearing rock / N.P. Khrunina, Yu.A. Mamaev. - May 20, 2006. - Bull. No. 14.

3. Pat. RF 2288361. A method of softening and disintegrating clay sands of placer deposits / A.M. Pulyaevsky et al. - 11.27.2006. - [Electronic resource]. - Access mode: www.fips.ru.

Claims (1)

The method of cavitation-acoustic softening and disintegration of clay sands of gold-bearing placers, including opening the placer, forming a sump, softening the rock mass by means of water supply and the subsequent filtration process, installation of a pressure hydrotransport unit for a hydraulic mixture with a hydrodynamic cavitator, characterized in that the radiation is produced by periodic ultrasound 20 kHz and an intensity of 10 to 20 W / cm ² on previously mechanically loosened and placed in in the sump compartment using a bulldozer-ripping aggregate, the mass of water is supplied to the first sump compartment by a hydrotransport system, the volume content of which in pieces of rock mass at a porosity of 26 to 40% is from 0.15 to 0.3, followed by ultrasonic exposure frequency of 20 kHz and an intensity of 6 to 10 W / cm ² in the slurry and applying the slurry to erosion and classification system with preliminary disintegration using hydrodynamic cavitator, at the same time with the process razuprochnen the rock mass in the first compartment of the sump is filled with mechanically loosened rock mass the second compartment of the sump is washed and classified with separation of waste rock and the slurry is fed into an additional sump for additional water saturation, while additional water is supplied to the additional sump with a ratio of t: w as 3 : 7 and the subsequent ultrasonic effect with a radiation frequency of 20 kHz and an intensity of 2 to 5 W / cm ² on the solid component of the slurry in the additional sump.

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