RU2002951C1 - Method for intradump concentration of mined bulk - Google Patents

Abstract

SUBSTANCE: invention is intended for intra-mine enrichment of rock mass. It includes forming from bottom up spraying leachable m leachable layers of the mass and laying between the upper layers of the psoriotic pipe In the last section. containing metal ions precipitate leached from the upper layer of metals. As a result, the penetration of leaching solutions from the upper layer into the enrichment intensifies the deposition of metals from solutions of 1 silt

Description

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The invention relates to the mining industry and can be used when folding rocks into dumps and tailings.

There is a method of intra-dump plecochemical enrichment, including layer-by-layer laying of metal-bearing rocks with different content of motuplov and electric potential, creating a system of electrochemical decomposition, migration and reprecipitation of metals

The disadvantage of this method is the low efficiency of the subsequent involvement of enriched rocks in processing due to their refractibility.

There is a known method for intra-mine enrichment of rock mass, according to which the rock is laid in layers, "enrichment zones" are formed, otaal is treated with leaching solutions, as a result, redistribution of metals in the dump mass occurs.

The disadvantage of this method is the disadvantage indicated above.

An object of the invention is to increase the efficiency of landfill enrichment by precipitation of metals in readily soluble form.

This is achieved by the fact that in the implementation of the proposed method, which includes the formation of drainage, enrichment and leachable layers, treatment of rocks with solutions, solutions are deposited in the enrichment area, precipitating metals in a form easily processed at enrichment plants.

When treating the dump with leaching solutions, metals are dissolved from the metal-bearing rocks of the leached layer, the metal-bearing radars are migrated to the enrichment layer, where upon encountering solutions precipitating metal. If they are in loose form, they precipitate in readily enriched form.

On the drawing shows a variant of the blade when implementing the proposed method.

The blade includes drainage 1, enriched 2, leached 4 layers, perforated pipe 3, source 5.

The method is carried out as follows. Initially form a drain

METHOD FOR INTERNAL DEPOSIT ENRICHMENT OF MOUNTAIN WEIGHT, including the formation of drainage, enriched and leached layers by laying them

layer 1, then sequentially enriched 2 based on off-balance ores and leached 4 based on metal-bearing rocks. Moreover, on the surface of the enriched layer 2, a perforated pipe 3 is formed. When leaching solutions are supplied from the source 5, the metals dissolve in layer 4 and the metal-bearing solutions migrate to

layer 2, where when meeting with the besiegers

with solutions supplied to pipeline 3, metals precipitate in a form that is easily processed in the future, for example, in loose form. Metal free

water is removed through layer 1.

An example of a specific implementation of the proposed method is the storage of copper-containing ores and rocks.

Initially, a drainage layer 1 of crushed stone with a thickness of 1 m is formed on the planned surface. Then, layer 2 of a thickness of 2-3 m is formed from copper-containing substandard ores (copper content 1 conventional unit), for example, copper sulfates, on the surface of which a network of perforated pipeline 3 is assembled, after which layer 4 is formed with a thickness of 6-8 m from copper-bearing rocks (copper content less than 0.4 conventional units).

When mineral-acid solutions are supplied from source 5, copper dissolves in layer 4 and copper-containing solutions migrate to layer 2, where, when meeting with copper-containing solutions supplied to pipeline 3, copper is precipitated. Water containing ferric ions is used as precipitating solutions. , which leads to the formation of a loose technogenic deposit of copper in the enrichment layer 2.

The positive effect of the invention is to increase the efficiency of landfill enrichment by precipitation of metals in an easily processed form.

The proposed method can be used for storing metal ores and metal-bearing rocks.

(56) Vorobiev A.E. et al. Methods and methods of forming technogenic mineral objects in the open development of complex structural deposits. M .: 1990, p.23.

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from top to bottom one on top of the other, placing between the enrichable and leachable layers of a perforated pipeline, treating the leachable layer with solvent solutions and creating conditions

for deposition of metals from solutions in an enrichment layer, characterized in that, in order to increase the efficiency of intra-dump enrichment by intensifying the deposition of metals from solutions into a perforated pipe

solutions containing ions of metal precipitators of leached metals from leach solutions are supplied, while ferric ions are used as precipitating metals.