SU1030540A1 - Method for underground leaching of minerals - Google Patents

Abstract

1. THE METHOD OF UNDERGROUND EXENDING OF USEFUL FOSSILS including the opening of the ore body by at least two wells, supplying the extractant reagent through injection wells, increasing the productive ones. solutions through pumping wells and: ..- l - .. vj JV: - -.:I | i№ ON. i-fij 4 i TE..G 1 SHYLY01E1 A. The effect is not a leached ore body with the energy of BonHoUiQc. fields, that is, with the aim of increasing the efficiency of the leaching process by reducing the time of mining Hip and reduction of costs for drilling | pa6o1% 1, the ore body is affected by radiation from pulses from stubble stones with a periodically changing wave form and asymmetrical energy distribution during the time of zero hours. 2. Oyusob under item 1, about tl and h a ush, and with the fact that the iron teyo in the direction of injected squeezers are affected by pulses of tension, which l emit from pumped-out wells. 3. Oyusob under item 1, about tl and.ch a y i and also with the fact that on an ore body in the direction of pumping wells - are influenced by compression pulses, radiate from injection wells

Description

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The invention relates to a mining depot and can be used for the extraction of minerals through boreholes or a system of mine workings during leaching. There is a method of underground mining of minerals, including the opening of ore heat by a system of mine workings, the breaking of ore with its subsequent storage in the block, the creation of a cavity under the bottom, opened by the pumping well, in which the material of the litter layer is stirred, Hanpiimer sand, feed into the gel, which is treated. thief, pumping out productive solutions, and intensifying the pumping process by acting on the material of the litter layer with ultrasonic vibrations by a source of ultrasonic vibrations, in the bottom of an uphole ClJ borehole. The disadvantage of this method is that the radiation source of the waves is located under the selective medium and the amount of movement imparted by the waves to the solution is directed along the length of one half wave against its natural 4 and 1 action by gravity, which slows the movement of the solution. . The closest to the invention in technical essence and the achieved result is the method of underground gelation of minerals, including opening the ore body by at least two wells, supplying the leached reagent through injection wells, lifting productive solutions through pumping wells and influencing the ore energy source to generate energy. C27 The disadvantages of this method are low efficiency and significant costs for the drilling work of non-directional impact. Energy Wave fields on the ore body. The purpose of the invention is to increase the efficiency of the leaching process at the expense of reducing the time of ore mining and reducing drilling costs. The goal is achieved by agreeing a method involving the incorporation of an ore body with at least two wells, supplying a leaching agent through injection wells, extracting productive solutions through the pumped wells, and affecting the leached ore body with the energy of wave fields on the ore body and affecting the wells. The wavelets are pulses with a periodically varying waveform and asymmetric distribution of energy in a mesh1 with respect to zero amplitude. In addition, the ore body in the direction of the injection wells is affected by tensile pulses that radiate from the pumping wells. Also, the ore body in the direction of the pumped wells is subjected to compression pulses that emit from the injection wells. The drawing shows a leaching scheme and wave field shapes. The method is carried out as follows. Ore body 1 is opened by at least two wells: injecting 2 and pumping 3. Into injection well 1, emitter 4 is installed, providing radiation pattern of radiation 5. After that, leaching reagent is injected through injection wells 1 and the productive solutions are discharged through pumping wells 2. In order to intensify the leaching process, the ore body is subjected to pulses with a periodically varying waveform and asymmetrical distribution of energy over time with respect to: its 71 amplitude. The drawing shows various waveforms in the coordinates voltage (d) - time (t) (ti 1 ti), represented by dependences 6, 7 and 8 with a period T j of the quality of emitters using, for example, measures electromagnetic emitters working on a single membrane on the scheme of that scheme, or mechanical wave generators - shock. The impact on the ore body by the above wave disturbances provides an asymmetrical relative to the equilibrium state of the array, the mixing of the array occurs with a larger amplitude or a longer time, or with a greater rate 9 of the direction of mass transfer of the liquid phase, which is the condition of vibrotransporting of the solution. In this case, the wave displacement of the mass fluid and the liquid is used interchangeably for the mass transfer of the liquid phase, which sharply improves the efficiency of the process. The direction of the velocity of the particles in the volva (the direction of the disturbance) in this case must coincide with the direction of mass scattering, with the maximum amplitude of the pulse, the bolt, or equal to the differential pressure over the distance, including the length of the seSMi

to obtain a given massnep ocf speed, which is not too low elastic limit of the medium.

When the ore body is exposed to asymmetrical wave fields of the liquid phase in the direction of mass transfer more lepme than in the opposite direction, therefore, the distance is shifted from the lateral phase to the direction of mass transfer more than in the opposite direction, which provides a directional movement of the liquid & phase.

To mix the liquid phase, it is mainly in the same direction that the ore bodies are subjected to wave fields with a pulsed structure. At the same time, often | Tu repetitions of pulses determined kAg with | taking into account the magnitude of the ratio of waves in the ore body between pumping and pumping wells.

Depending on the technology adopted, the intensification of the extrusion process and the size of the process wells on the ore body in the direction of injection wells are affected by a very stretched radiation, which emit from the pumped wells, or on the ore body, in the direction of the pumped wells, are impacted by compression pulses that emit from the pump wells.

The application of the proposed method of underground leaching will significantly reduce the time spent on mining ore deposits, the cost of the extracted component by reducing losses and solvent consumption, reducing wells, and also reduce the value of the filtration coefficient, insufficient leaching of ore bodies.

Claims (3)

1. A METHOD FOR UNDERGROUND LEACHING OF USEFUL EXPLORE, including opening the ore body with at least two wells, feeding the leach reagent through injection wells, and producing productive ones. solutions through pumping wells and the impact on the leached ore body with wave energy. 'fields, with the fact that, in order to increase the efficiency of the leaching process by reducing the time spent on the ore body and reducing the cost of drilling, the ore body is affected by pulses emitted from the wells with periodically variable waveform and asymmetric energy distribution in time with respect to zero amplitude'd. 2. The method according to claim 1, characterized in that the ore body in the direction of the injection wells is subjected to tensile pulses that emit from the pumping wells. 3. The method according to π. 1, the fact that the ore body in the direction of the pumping wells is affected by compression pulses that radiate from the injection wells.