RU2026972C1 - Method for storage and preparation of ores for processing - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: placed in base of dump is impervious layer. Installed in dump upper part are electrodes along base. Inclined layers of rock mass containing useful components are filled. Applied to electrodes is potential with sign opposite to sign of minerals-carriers of useful components. Fine fraction rock mass with high content of useful component is localized in upper part, and coarse fraction rock mass is localized in lower part. Lower part is treated with solution of reagent and potential is applied to electrodes to cause migration of useful components in solution in direction of upper part where useful component is precipitated. Dump is processed selectively. EFFECT: higher quality of rock mass. 1 dwg

Description

 The invention relates to the mining industry and can be used to prepare ores for processing in open pit mining.

 A known method of storage and preparation of the rock mass for processing, including the dumping of rock in successive inclined layers and its subsequent shipment, during which first the upper part of the blade is shipped to a certain level in a small class enriched with a useful component, and the remaining lower part of the pile is shipped in a large class [1].

 When implementing this method, when dividing the formed blade vertically during shipment, a significant amount of pieces of a large fraction is mixed into the rock mass sent to the small class, and vice versa, which reduces the efficiency of subsequent processing.

 There is also a known method of storing rocks, including laying an anti-filtration layer at the base of the dump, forming rock layers containing useful components, treating the surface of the dump with solutions. The upper layer creates a geochemical barrier for migrating useful components, and rock layers have different electrical potentials, or an electrode is laid in the outer layer [2].

 This method does not take into account the segregation of rock mass, which has a significant effect on the redistribution of useful components in the dump mass.

 The closest to the claimed technical essence and the achieved results is a known method of storage and processing of rock mass, in which a dump is formed from the rock containing useful components of the rock mass, the boundary between the upper zone of fine-grained rock mass formed by segregation and the lower zone of coarse-grained rock is isolated and the latter is isolated from upper zone by injection of a hardening mixture. Then, the reagent solution is injected into the upper zone together with the enrichment tailings, wells pass in the lower zone, explosives are charged with ampoules of the reagent, and blasting is carried out, followed by the supply of the reagent solution to both zones [3].

 The disadvantages of this method are the complexity of its implementation, the fuzzy localization of the finely fractional rock mass and, accordingly, the useful component, the high consumption of reagent for processing the entire rock mass of the blade, which reduces the effectiveness of the method.

 The purpose of the invention is to increase the efficiency of the method by increasing the concentration of the useful component in the localized upper part of the blade.

 This goal is achieved by the fact that when implementing the method of storage and preparation of ores for processing, for example, molybdenum-containing ones, including the formation of an anti-filtration base of the dump, dumping containing useful components of the rock mass in inclined layers, laying electrodes in the dump mass array, processing the rock mass with a reagent solution and subsequent mining of the dump. When dumping, in the upper part of the dump, between the inclined layers there are electrodes made, for example, in the form of a metal grid, the charge of which is opposite to the sign of the charge of the main minerals containing minerals of the rock mass, and the electrode is placed along the base of the dump. After filling, the rock mass is treated with a reagent solution by feeding them to the lower part of the dump through drilled wells, then a potential difference is created between the electrodes at the base and upper part of the dump in accordance with the charge sign of the main carriers of useful components in the solutions migrating in the dump array, which determines the direction of migration of useful components to the top of the blade. Dump processing is carried out selectively, directing the rock mass of the upper part of the dump enriched with useful components to processing.

 When dumping rock mass according to the proposed method during segregation, an increased concentration of useful components concentrated in the finely divided rock mass in the upper part of the dump is ensured, which is caused both by mechanical capture of small pieces at the beginning of the trajectory of filling the mesh electrodes with cells, and due to electrical interaction between those containing useful component with minerals and electrodes of the corresponding charge.

 When processing the rock mass of the lower part of the dump with reagent solutions, the compounds of useful components dissolve and migrate under the action of the generated electric potential difference from the bottom up and the concentration of useful components on the minerals of the upper part of the dump that did not go into the solution.

 As a result, with a small consumption of reagents, a localized concentration of useful components is provided in the upper, finely fractional part of the blade, which is sent during further processing of the blade for further processing.

 The essence of the method is illustrated in the drawing.

 The drawing shows a hillside 1, the base of the blade 2, the anti-filtration layer 3, the electrodes 4 in the upper part of the blade, the electrode 5 at the base of the blade, inclined layers 6 of rocks, the upper 7 and lower 8 parts of the blade and the border 9 between them, the shielding layer 10 , adit 11, wells 12.

 The method is as follows.

 The dump is formed on a mountain slope 1. At the base of the dump 2, an antifiltration layer 3 is laid. In the upper part, along the slope 1, are placed electrodes 4, for example, in the form of a metal mesh, along the base 2, electrodes 5. The inclined layers 6 containing useful components are filled in rocks, for example substandard ores or metal-bearing rocks from contact zones. In the process of dumping, segregation of the rock mass by size occurs - in the upper part of the dump 7 there is a finely fractional mass, and in the lower 8 - a large-fraction rock mass. Preliminarily, according to experimental data, the content of useful components is determined by fractions: for example, fine-grained rock mass has a high content of useful components. A potential with a sign opposite the sign of the charge of minerals, the main carriers of useful components in stored rocks, is supplied to the electrodes 4. As a result, the small-fraction rock mass with a high content of useful components is more clearly localized in the upper part of the blade 7. This is also facilitated by the implementation of the electrodes 4 in the form of a metal mesh that also holds small pieces of rock mass. The border 9 between the upper and lower parts of the blade is fixed. Upon completion of the formation of the blade, a shielding layer is laid 10. Then, the lower part of the blade 8 is treated with a reagent solution supplied, for example, through wells 12 drilled from the adit 11. The compounds of useful components contained in the rocks of the lower part of the blade 8 dissolve and migrate in the dump array. In this case, if the main carriers of useful components in the solution have a positive charge sign, the corresponding potentials are applied to electrodes 4 and 5 to ensure the migration of useful components from the bottom up, towards the upper part of the blade 7. Entering the upper part of the blade 7, they are deposited on minerals that have not passed into a solution containing useful components. The result is an increased localized in the upper part of the blade 7 concentration of useful components. Then, in accordance with the border 9, separate mining of the upper 7 and lower 8 parts of the blade is performed. Enriched with useful components, the rock mass of the upper part of the blade 7 (during its development, the electrodes 4 are sequentially removed) are sent for processing, which ensures an increase in the extraction of useful components while reducing the cost of storing and processing the rock mass.

 An example of a specific implementation of the proposed method can serve as storage and preparation for processing molybdenum-containing rocks (substandard ores).

 Dumping of the rock mass is carried out, for example, by dump trucks on a hillside 1 of a height of 50 m. Preliminarily, an anti-filtration layer of rocks 3, for example clay, with a thickness of 0.5 - 1 m is laid in the base 2. Electrodes made in the form of a metal mesh are installed in the upper part along the slope 1 4, and along the base of the blade 2, electrodes 5. Since the intrinsic potential of molybdenite is +0.20 V (see Karavayko G.I. et al. The role of microorganisms in the leaching of metals from ores. M: Nauka, 1976, p. 97 ), negative electrodes potential of. When the inclined layers 6 are formed during segregation of the rock mass, this leads to an increased retention of the finely fractioned rock mass, rich in molybdenite content, in the upper part of the blade 7. At a level of 25-30 m from the bottom of the blade in accordance with surveying measurements, fractions of -100 mm s are deposited the molybdenite content of 0.05 - 0.09% (the thickness of the upper part of the blade 7, thus, 20 - 25 m). The molybdenite content in the rock mass of the lower, lumpy part of the blade 8 (below the fixed boundary 9) is, for example, 0.03% or less. Upon completion of the dumping of the layers 6 of the rock mass, a shielding layer 10 is formed, for example, of clay rocks, spent by surface-active substances, with a thickness of 0.5 m.

 A solution of a reagent, for example, sodium hypochlorite NaClO, is fed into the lower part of the blade 8 through drilled holes 11 from a well 12 with a diameter of, for example, 100 mm. Molybdenite dissolves and migrates, for example, in ionic form. Since the main metal carriers in the solution have a positive sign, create the corresponding potential difference between the electrodes 4 in the upper part (-) and 5 at the base of the blade (+). Under the action of the electric potentials created by the difference, the useful component migrates from the bottom up and, as solutions penetrate the upper part of the blade 7, it is deposited on molybdenite minerals that have not converted to the dissolved form.

 Then a selective mining of the dump is carried out: by removing the electrodes 4, the rock mass of the upper part of the dump 7 (above boundary 9), enriched with a useful component, corresponding to the molybdenite content, for example, conditioned ores, is sequentially worked out and sent for processing.

 The result is a localized increased concentration of useful components in the rock mass of the processed upper part of the dump, which leads to an increase in the recovery of the useful component while reducing costs.

 The invention may find application in the open development of ore deposits.

Claims (1)

 METHOD FOR STORAGE AND PREPARATION OF ORES FOR PROCESSING, including formation of an anti-filtration base, filling of rock containing minerals of useful components, inclined layers with the formation of a dump, processing of rock with a solution of reagents by feeding them through drilled wells in the dump to produce a productive solution of useful components, characterized in that place the electrodes, made in the form of a metal mesh, along the base of the blade in its lower part and between the inclined layers in the upper part, while a charge opposite the sign of the charge of the main minerals containing useful components of minerals is fed to the electrodes of the top, reagent solutions are fed through wells drilled in the lower part of the dump, a potential difference is created between the electrodes of the upper and lower parts of the dump, providing a direction for the migration of useful components of the productive solution from below in the upper part of the dump to enrich its rock mass, which, after enrichment, is selectively sent for processing.

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