RU2092688C1 - Method for bore-hole leaching of high-clayly ores - Google Patents

Abstract

FIELD: geological technology. SUBSTANCE: this can be used for lixiviation of gold from high-clayly ores. Method implies opening of ore beds, creation of technological bore-holes, establishing circulation of solutions, delivery and withdrawal of productive solutions. At leaching of multiple-bed deposits with insufficiently impregnated ore beds, injection bore-holes are drilled through entire depth of deposit, and withdrawal bore-holes are drilled only down to foot of insufficiently impregnated bed. EFFECT: high efficiency. 2 cl, 1 dwg

Description

 The invention relates to the field of geotechnology and can be used for underground leaching of gold from highly clay ores.

A known method of underground leaching of metals, including the opening of deposits by a system of wells, the supply of solvent to them, the leaching of metals and pumping solutions [1]
The disadvantage of this method is its low efficiency in the leaching of highly clay gold-bearing ores.

The closest to the expected technical essence and the achieved result is the method of underground leaching of two adjacent ore bodies, when one body is opened by injection wells, and the other only by pumping wells. As a result, despite the different permeability of ore bodies, high economic development indicators are achieved [2]
The purpose of the invention is to increase the efficiency of the process of leaching gold from highly clay gold-bearing ores by increasing the extraction of metal from low-permeability ore layers.

 This goal is achieved by the fact that in the implementation of the proposed method, including drilling, casing, equipment with filters and heads, hydraulic fracturing and acidification of highly clay gold-bearing ores and the supply of a solution of active agents, the solutions are fed into well-permeable ores, and pumped from a layer of poor-permeable ores, hydraulic fracturing they are also carried out in a layer of poorly permeable ores, the formed cavity is filled with an inert, well-permeable material, and the filter is placed in this cavity in accordance with its power.

 The drawing shows a variant of the scheme of underground leaching of metals.

The following notation is used in the diagram:
1 layer of soil; 2 anti-filtration layer; 3, 4 layer of gold-bearing rocks, with good permeability; 5 layer of poorly permeable gold; 6 fracturing cavity; 7 injection wells; 8 pumping well; 9 - filter. Arrows indicate the direction of migration.

 The method is as follows. Initially, a deposit of clay gold-bearing ores is opened by injection 7 and pumping 8 wells. Moreover, injection wells 7 are being built at full capacity (layers 3, 4 and 5) of the deposit, and pumping wells only by the power of the poorly permeable high clay layer 5 of gold-bearing ores. Wells are cased with casing pipes (not shown), equipped with heads (not shown), hydraulic explosion of layer 5 is carried out with filling of the formed cavity 6 with material that prevents its closure. Wells 7 are equipped with filters 9 for the power of layers 3 and 4, and well 8 only for the power of the fracture cavity 6 within layer 5.

 After that, gold-bearing ores are acidified, and then effective and environmentally friendly solutions of sodium oxychloride are fed into wells 7. This ensures acceptable permeability of the gold-containing layers (with approximately the same filtration rates in layers 3, 4 and 5), which causes intensive leaching of gold from layers 3, 4 and 5 for an approximately equal period of time and with an equal degree of its extraction.

 An example of a specific implementation of the proposed method is the underground leaching of gold from formations with different permeability of highly clay gold-bearing ores.

The “weathering crust” type deposit has the following parameters: length 440 m, width 170 m, total area 6750 m ² , thickness 30 m. Gold-bearing rocks (covered with soil layer 1) are represented by lateritized high-clay deluvial-proluvial deposits. The vertical zoning of the weathering crust (superimposed on these deposits) has the following structure. Below the upper 2 horizon (0.5-2 m), represented by weakly cemented cuirass, horizon 3 is located with a thickness of 3-4 m and represented by lateritic moss, cemented by loose brown clay. Below is horizon 5 with a thickness of 3-4 m, consisting of spotty with worm-shaped sand clay clays. Layer 4 of high clay ores with a thickness of more than 7 m lies even lower. The average gold grade in layers of 3.4 and 5 is 7.1 g / t. Gold is free, belongs to the dust and small class (0.005-0.5 mm). The morphology of zolotins is complex, bryophytes predominate.

 Initially, the massif of the field is opened with boreholes 7 and 8 with an internal diameter of 155 mm. Moreover, the well 8 is drilled only until the passage of the low permeability layer. Wells are cased with steel pipes and heads (not shown).

 Drilling of wells is carried out by the installation of BU-20-2VIII. The annulus of the well is filled with waterproofing material. Then hydraulic fracturing of the formation is carried out 5. For this, the annular space of the casing string (well) is cemented 8. Under the shoe of the column, the whole pillar is opened with a 145 mm bit to a depth of 0.1-0.3 m. Then, a head with a hose is connected to the casing string and by supplying fluid under pressure above 6 MPa carry out hydraulic explosion of the reservoir 5.

 After that, material is formed in the formed cavity 6, which prevents its closure, for example, sand. Wells are equipped with filters 9 of the type KDF-120-08, and wells 7 are equipped with filters according to the thickness of the layer (layer) 3 and 5, and wells 8 by the power of the cavity 6.

Then provide acidification of formations 3, 4 and 5 by supplying solutions of H ₂ SO ₄ . And after that, sodium oxychloride solutions are supplied to the wells 7.

 The positive effect of the proposed technical solution is to increase the process of underground leaching of metals by increasing the permeability of high clay layers and ensuring the simultaneous development of layers with different permeability.

 The proposed invention can be used for underground leaching of highly clay gold-bearing ores.

 The application of the invention will expand the field of geotechnology by conducting the process of underground leaching of gold from deposits such as weathering mountains.

Claims (3)

 1. The method of downhole leaching of high clay ores, including the opening of ore seams, the construction of technological wells, ensuring the circulation of solutions, the supply of leaching and pumping of productive solutions, characterized in that when leaching multilayer deposits with poorly permeable ore layers, injection wells pass through the entire thickness of the deposit, and pumped to the soil poorly permeable layer.  2. The method according to claim 1, characterized in that in a poorly permeable layer, hydraulic fracturing is performed with filling the formed cavity with permeable material.  3. The method according to claims 1 and 2, characterized in that the injection wells are equipped with filters within the power of the well-permeable layers, and the pumping wells are equipped with filters within the power of the fracturing cavity.