RU2044876C1 - Method for preparation of ores containing finely dispersed gold for leaching - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: method for preparation of ores containing finely dispersed gold for leaching includes uncovering of ore-forming minerals by crushing and grinding and primary concentration of gold. Novelty consists in that after uncovering of ore-forming minerals by crushing and grinding, they are subjected to thermal and electric activation. In this case, gold is concentrated by enlarging intracrystalline segregations of gold in formation of microfissures uncovering these segregations by contact-percussive action in oncoming air flows. EFFECT: higher efficiency.

Description

 The invention relates to the mining industry and can be used at the stage of preparation of ores for leaching.

A known method of preparing ores containing finely divided gold, including the disclosure of ore-forming minerals by crushing and grinding, their leaching with gold transfer and a solution with the receipt, ultimately, a gold head [1]
The disadvantage of this method is the low intensity of the process and low recovery rates.

There is also a method of preparing ores containing finely divided gold, including the disclosure of ore-forming minerals and the primary concentration of gold by gravity or flotation methods, sorption-desorption [2]
The disadvantage of this method is the low degree of opening of gold, due to the impossibility of a full impact on the fine gold hidden inside the crystals of minerals-carriers.

 The aim of the invention is to increase the efficiency of the method by increasing the concentration of gold in the volume of crystals of carrier minerals.

 This is achieved by the fact that in the known method of preparing ores containing finely dispersed gold, ore-forming minerals, including those including finely dispersed gold, are subjected to thermal and electrical activation and contact-impact action in oncoming air flows, providing coarsening of the intracrystalline gold emissions and the formation of opening them microcracks.

 The method is as follows.

 Fine gold ore is crushed and milled. The resulting crushed product is dried and fed through compressed air to the activator, which is a cone-in-cone system, through a feed hopper. Solid mineral particles suspended in a stream of compressed air hit the heated surface of the inner cone and acquire an electric charge (pyro- and tribo-electric effects) or acquire a charge from the corona electrode. After contact interaction with the inner surface, the air-solid mixture is divided into two multidirectional vortex-like flows, which, moving to the top of the cone, periodically collide, which leads to contact charging of solid particles. Since particles of minerals, depending on size, shape, material composition, acquire charges of different signs, when these particles collide, contact discharges occur that lead to direct and indirect (through thermal action) activation of the crystal lattice. As a result of repeated electrical and heat effects on mineral particles containing finely divided gold, directed diffusion and aggregation of atoms of the latter occurs (Konstantinov NN Zolotorudnye provinces of the world. M. Nedra, 1993, p. 230). In addition, due to repeated heating-cooling, mechanical stresses in gold-bearing minerals, cracks are formed that open access to gold by acting agents (heat, reagents, etc.) at subsequent stages of extraction.

Claims (1)

 METHOD FOR PREPARING FOR LEACHING OF ORES CONTAINING THIN-DISPERSED GOLD, including opening of ore-forming minerals by crushing and grinding and a primary concentration of gold, characterized in that after opening the ore-forming minerals during crushing and grinding, they are subjected to thermal and electrical activation of gold, the formation of microcracks opening them by contact impact interaction in oncoming air flows