RU2030573C1 - Method for dump leaching of useful minerals - Google Patents

Abstract

FIELD: treatment of nonferrous ores and ores of rare metals. SUBSTANCE: method for dump leaching of useful minerals includes spraying of dump filled on hydraulically impervious base with leaching solution, collection of productive solution and elimination of solution losses. Novelty consists in that cone of influence is formed in underlying rocks and maintained during the entire period of leaching. Within cone of influence parallel to dump base, holes are drilled to catch losses. Upon completion of dump treatment these holes are used as receiving when heap bottom is hydraulically isolated. EFFECT: higher efficiency of leaching due to reduced impoverishment of productive solutions and improved environmental control. 2 cl

Description

 The invention relates to mining, in particular for the processing of non-ferrous and rare metals by dump leaching.

 A known method of heap leaching, including the formation of a dump, feeding the leaching solution, collecting productive solutions and feeding them to a sorption plant, after which the circulating solutions are then further strengthened with a leaching reagent and fed to irrigation [1]. This method has several disadvantages, the main of which are the high capital costs of creating a waterproofing base and the formation of heaps, the need to transport a large amount of ore from dumps to heaps.

 Closest to the proposed is a method of dump leaching of minerals, including the formation of a dump on a water-permeable base, drilling along the perimeter of the dump in water-permeable rocks of pumping wells, the latter being aligned with the general direction of leakage, while drilling pumping wells from the top surface of the dump into the underlying rocks of the dump, moreover, the distance between the wells form no more than twice the steady-state radius of the depression funnel, irrigated leaching of rocks with leaching reagent, selection of productive solutions through pumping wells and their supply for processing [2]. This method has several disadvantages, the main of which are dilution of productive solutions with waters confined to the rocks of a water-permeable base. In addition, residual productive solutions in the dump and water-permeable base infiltrating, for example, together with atmospheric precipitation will pollute groundwater.

 The purpose of the invention is to increase the efficiency of leaching by reducing dilution of productive solutions and environmental protection.

 This method is used for dumps lying on a water-permeable base and subject to leaching without additional work to equip the base, the formation of the dump and is as follows.

 At least two hydrogeological wells are drilled into the water-permeable rocks of the base of the dump, pumped out and the parameters of the aquifer determined. According to standard hydrogeological formulas, the required number of wells is calculated to form a depression funnel over the entire dump area, drill them and create a depression funnel. It is further supported throughout the leaching process, using pumped water to maintain the balance of the solutions. In case of excess water, it is used, for example, for technical needs. After creating a depression funnel, wells are drilled into the underlying water-permeable base, which are parallel to the base of the dump. The receiving wells are parallel to the base of the dump because the pumping efficiency of such a well is higher, since its influence zone is much larger in area than, for example, the influence zone of a vertical well. The grid of wells is selected depending on the texture features of the water-permeable base. Then, through the irrigation system created on the upper surface of the dump, the leaching process is imitated using water to identify the spreading zones of solutions in the heap and leaks into the underlying base. If necessary, in the area of spreading zones near the dump, receiving collectors or mud receivers are created, over the places of maximum leaks in permeable rocks, pumping wells are drilled into the base of the dump, through which productive solution is pumped out, thereby reducing the amount of leakage.

 After simulating the leaching process and creating receiving sumps for productive solutions through the irrigation system, the rocks are irrigated with a leaching reagent. The leach solution is filtered through a waste dump and pumped out using the pumping wells from the zones of maximum leaks, and from the rest of the area, for example, is collected by gravity into the solution receivers from which it is transported for processing. The productive solution filtered into a water-permeable base is captured using receiving wells, for example, by creating a vacuum in them.

 After mining the dump into its base, for example, through pumping holes drilled at the base of the dump, a hydro-impermeable mixture, for example, one of the known hardening mixtures, whose viscosity corresponds to the viscosity of the productive solution, is supplied. Through the wells drilled in the underlying rocks, by creating a vacuum, the remaining productive solutions are pumped out and the hydro-impermeable mixture gets into the wells. After the appearance of this mixture in the wells, the creation of a vacuum in them is stopped and they are evacuated again only after deposition and hardening of the mixture. Such cycles are repeated until the mixture ceases to appear in the wells. This creates a watertight base in the bottom of the blade and the underlying rocks.

 The application of the proposed method of dump leaching can improve the leaching efficiency by reducing dilution of productive solutions by creating a depression funnel and draining water from the underlying rocks and preserving the environment by creating a hydronically impervious base in the bottom of the dump and in the underlying rocks after mining.

Claims (2)

 1. METHOD FOR DUMPING LEACHING OF USEFUL FOSSILS on a water-permeable base, including irrigating the dump with leach solutions, collecting productive solutions and eliminating solution leaks, characterized in that a depression funnel is created under the entire dump area to maintain solution leaks and maintain it throughout the leaching process this is located in the underlying rocks of the well to catch leakages of solutions within the created depression funnel parallel to the base of the dump, and after approx The end of the dump use these wells as receiving wells and fill the leak points of the solutions and the bottom of the dump with a watertight mixture.  2. The method according to claim 1, characterized in that as a hydro-impermeable mixture using a hardening mixture, the viscosity of which corresponds to the viscosity of the productive solution.