RU2126085C1 - Method for underground lixiviation of metals from waterless rock - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: this can be used for extraction of metals by underground lixiviation from stratified infiltration deposits. According to method, drilled are injection and pumping-out bore-holes. Prior to that, waterless parts of ore horizon is watered. When water level in pumping-out bore-holes reaches elevation mark which corresponds to possible pumping-out conditions, started is withdrawal of water from pumping-out bore-holes and delivery of lixiviation solution into injection bore-holes. Application of aforesaid method solves problem of profitable extraction of metals from waterless deposits. EFFECT: higher efficiency. 1 cl

Description

 The invention relates to the mining industry and can be used for metal mining by underground leaching from reservoir-infiltration deposits ("sandstone" type according to the IAEA classification).

 It is known that during the development of reservoir deposits by underground leaching, one of the most important conditions is the compliance with hydrogeological criteria, which is necessary to establish the optimal hydrotechnological mode of operation (ensuring the injection and pumping of solutions, controlling the speed and direction of movement of solutions and preventing spreading of solutions).

 However, there are deposits or parts of them naturally drained that do not provide the necessary hydrogeological regime.

 Due to these reasons, non-irrigated reservoir-infiltration deposits have until recently been unsuitable for underground leaching and have not yet been prospected and not developed.

 The claimed invention has no analogues.

 The aim of the present invention is the possibility of cost-effective extraction of metals from anhydrous deposits and the expansion of the raw material base by involving in the exploration and development of these deposits.

 This goal is achieved by the fact that the method of underground leaching of metals from anhydrous rocks includes drilling of injection and pumping wells, preliminary flooding of the anhydrous ore horizon and, when the water level in the pumping wells rises to a mark corresponding to the possibility of pumping, pumping water from the pumping wells and feeding the leach solution into injection wells.

 The method is as follows. Wells are drilled from the surface of the earth to an anhydrous ore bed, in the interval of bed power and in underlying rocks and equipped with filters in accordance with the purpose of the wells.

 Water is injected into injection wells from the surface of the earth or from workings under pressure or in a pressureless mode: natural, fresh or slightly mineralized, piped or industrial.

 It is necessary to indicate that the structure of ore bodies of reservoir-infiltration deposits contributes to the filtration of water and leaching solutions mainly in the horizontal direction, which is ensured by the conditions of formation (sedimentation) of reservoir-infiltration deposits.

 When ore bodies occur in highly permeable rocks, barrage wells are drilled along the ore body contour, water is pumped into one of them with pumping it from other wells, thereby creating an anti-filter curtain.

 As water enters the ore bed, the water level in the pumping wells rises and after reaching the marks corresponding to the possibility of pumping to the surface by modern means (airlifts, submerged pumps, etc.), they begin pumping water. At the same time, leaching solution is pumped into injection wells.

 After pumping water from the ore formation and filling it with a leach solution, the leaching process is continued according to known technological schemes.

 Water is supplied to the anhydrous ore body or parts thereof until complete flooding.

 The use of anhydrous deposits or its parts for metal mining allows us to expand the raw materials base of metals (uranium, copper, etc.).

Claims (2)

 1. A method of underground leaching of metals from anhydrous rocks, including the drilling of injection and pumping wells, preliminary flooding of the anhydrous parts of the ore horizon or the entire anhydrous horizon, and when the water level in the pumping wells reaches the mark corresponding to pumping, water is pumped out and pumped out leaching solution into injection wells.  2. The method according to claim 1, characterized in that in order to prevent the spreading of water and solutions along the contour of the ore body or its parts, barrage wells are drilled.