RU2065953C1 - Method for underground leaching of metals - Google Patents

Abstract

FIELD: geotechnology. SUBSTANCE: method may be used for in-situ leaching of gold from the bed of permafrost gold-bearing sands. To do it, boreholes are drilled through monolith of cap rock, and into the latter solutions of sodium oxychloride and stabilizing additives (magnesium sulfate, sodium silicate, boric acid, sulfuric acid, etc.) are fed. EFFECT: facilitated metal leaching process.

Description

 The invention relates to geotechnology and can be used for underground leaching of gold from permafrost placers.

 A known solution for the geotechnological leaching of metals from ores (A.S. USSR N 1745906, 1990), including sodium hypochlorite, sodium chloride and water, characterized in that in order to increase the leaching efficiency by reducing the accumulation of ballast impurities and the consumption of sodium hypochlorite, it additionally contains sodium carbonate. The sodium hypochlorite solution is most stable at pH> 11.

 The disadvantage of this method is the instability of the solution. Sodium hypochlorite NaClO decays over time, and heavy metal ions accelerate this decay.

 Closest to the proposed technical essence and the achieved result is a method (A.S. USSR N 632743, 1978), comprising treating the leachable mass with sodium hypochlorite in an acidic medium (ORP NaClO in an acidic medium of 1.63 V).

 This method has the same drawback.

 The purpose of the invention is to increase the efficiency of the process of leaching of metals and environmental protection by increasing the stability of environmentally friendly solutions.

 The goal is achieved by the fact that in the implementation of the proposed method, including drilling, casing, equipping with heads, hydraulic fracturing, thawing and acidification of the permafrost gold-containing sands and supplying a solution of active agents, leaching is carried out with alkali and alkaline-earth metal oxychloride solutions and stabilizing additives.

 The drawing shows a variant of the scheme of underground metal leaching, where the numbers indicate: 1 overburden; 2 layer of permafrost gold-bearing sands; 3 raft; 4 injection well; 5 pumping well. Arrows indicate the direction of migration.

 The method is as follows.

 Initially, in array 1, wells 4 and 5 are drilled, revealing layer 2 of permafrost gold-bearing sands to raft 3. Wells are besieged with siege pipes (not shown), equipped with heads (not shown), fracturing between wells 4 and 5 of formation 2, its thawing and acidification . Then, effective and environmentally friendly solutions of alkali and alkaline earth metal oxychloride are fed into well 4 together with solution stabilizing additives. At the same time, intensive and environmentally friendly leaching of gold from the layer of 2 permafrost sands occurs.

 An example of a specific implementation of the proposed method is the underground leaching of gold from a layer of permafrost sand.

 Initially, wells 4 and 5 with an inner diameter of 155 mm were drilled into massif 1 through layer 2 of permafrost gold-bearing sands to raft 3. Wells are upset with steel pipes, KDF-120-08 filters and heads (not shown). Well drilling is carried out by the BU-20-2VIII installation. The annulus of the well is filled with waterproofing material. Then hydraulic fracturing of the formation is carried out 2. For this, the annulus of the casing (well) is cemented 4. Under the shoe of the column, the whole pillar is opened with a drill bit of 145 MM to a depth of 0.1-0.3 m. Then, a head with a hose is connected to the casing by feeding liquid under pressure above 6 MPa carry out hydraulic fracturing of the formation 2.

After that, it is thawed by supplying NaCl solutions heated to +50 ^° С to the column 4, then the formation 2 is acidified by supplying H ₂ SO ₄ solutions. After that, sodium oxychloride solutions, which are an effective and harmless gold solvent, are fed into well 4 together with solvent stabilizing additives (MgSO ₄ , NaSiO ₃ , H ₃ BO ₃ , H ₂ SO ₄ , etc.).

 The positive effect of the proposed technical solution is to increase the process of underground leaching of metals and environmental protection by increasing the stability of environmentally friendly leaching solutions.

 The proposed invention can be used for heap leaching of gold-bearing ores.

 The application of the invention will expand the field of geotechnology by conducting the process of underground leaching of gold from a layer of permafrost gold-bearing sands.

Claims (5)

 1. A method of underground metal leaching, including opening an ore bed, construction of technological wells, enabling circulation of solutions, feeding and pumping out leach solutions, characterized in that alkaline and alkaline earth metal oxychloride solutions are supplied as leaching solutions in the presence of stabilizing additives.  2. The method according to p. 1, characterized in that as the alkali metal oxychloride for leaching solutions using sodium oxychloride.  3. The method according to PP. 1 and 2, characterized in that as stabilizing additives of a solution of sodium oxychloride use solutions of sulfuric acid.  4. The method according to PP. 1 and 2, characterized in that magnesium sulfate is used as stabilizing additives of sodium oxychloride.  5. The method according to p. 1, characterized in that sodium silicate is used as a stabilizer of sodium oxychloride solutions.