RU2404269C1 - Method for processing mixed copper ores containing precious metals - Google Patents

Abstract

FIELD: metallurgy. ^ SUBSTANCE: method involves crushing of initial ore to fraction size of 3080 mm. Then there performed is heap leaching, extraction, re-extraction and electric extraction of cathode copper from liquid phase of leachant. After leaching the final crushing of solid leachant phase and floatation of finally crushed solid phase is performed at pH=7-8 created with caustic soda so that copper concentrate is obtained and gold is extracted to it. ^ EFFECT: development of high-effective processing method of mixed copper ores, which allows reducing operating costs and achieving optimum extraction properties of copper and precious metals. ^ 1 ex

Description

The invention relates to methods for processing mixed copper ores containing oxidized copper minerals, various forms of copper sulfide minerals, and also noble metals.

A feature of this type of ores is the fact that their processing by one method only, for example, hydrometallurgy or flotation, does not allow to obtain a high degree of extraction (see Mitrofanov S.I., Kurochkina A.V. et al. Combined processes for processing non-ferrous metal ores. M. Nedra, 1984, p. 216).

The closest analogue to the alleged invention is a method for processing copper-containing products (RF No. 2179589, IPC С22В 3/00, С22В 15/00 publ. 02.20.2002).

According to the known method, the initial product (oxidized copper ores, mixed sulfide-oxidized copper ores) is crushed and ground to a particle size exceeding the required particle size for flotation, leached with sulfuric acid, followed by separation of the product into liquid and solid phases, after which the solid part of the product is crushed and carried out flotation, and the liquid phase is subjected to electroextraction with the release of cathode copper and raffinate, repeatedly used for leaching and washing.

However, the known method is intended for the processing of copper ores, without indicating the content of noble metals in them. In addition, the need to separate the relatively finely divided (-3 + 0 mm) solid and liquid phases of the pulp after sulfuric acid leaching negatively affects the efficiency of the process, especially in conditions of large-scale ore production (10-20 million tons of ore per year). Experiments conducted under the conditions of this method showed that operating costs in this case reach up to $ 2 / t.

The claimed invention is directed to the development of an economical method of processing mixed copper ores containing noble metals, which allows to achieve optimal indicators for the extraction of copper and noble metals.

The specified technical result is achieved by a method of processing mixed copper ores containing precious metals, in which the initial ore is crushed to a particle size of 30-80 mm, heap leaching, extraction, reextraction and electroextraction of cathode copper from the liquid phase of the leaching product, regrinding of the solid phase of the leaching product, regrinding of the solid phase of the leaching product and flotation of the crushed solid phase at pH 7-8, created by caustic soda to obtain copper concentrate and with the extraction of ash ta.

The essence of the proposed method is as follows.

Studies have shown that heap leaching of the original ore, crushed to a particle size of 30-80 mm, provides optimal conditions for the separation of the solid and liquid phases of the product while minimizing operating costs.

It was also found that flotation of the micronized solid phase of the leachate in the experimentally established range of pH 7.0-8.0 created by caustic soda, has a significant impact on the efficiency of the process.

So, failure to achieve the claimed pH value of 7.0 determines the conduct of the process in an acidic environment, which leads to premature failure of the equipment.

When the claimed pH value is exceeded 8.0, an increase in the duration of the process is observed, which is not economically feasible.

Experiments have shown that the use of caustic soda ensures an optimal process at lower costs than other reagents (e.g. lime).

The following is an example confirming the possibility of implementing the claimed invention to obtain the above technical result.

Example

The research involved mixed copper ore from the Udokan deposit containing Cu 1.4%; Au 0.1 g / t.

After crushing to a particle size of 30-80 mm, the initial ore is fed to heap leaching, which was carried out using the column leaching method, during which solid and liquid phases are separated when passing through the ore layer. Copper cathode and raffinate are isolated from the liquid phase of the leachate by extraction, reextraction and electroextraction, which are sent for re-leaching as a source of sulfuric acid. The solid phase containing copper sulfide minerals and noble metals is refined to flotation size and fed to flotation at pH 7-8 created by caustic soda when used as the main collector of alkyl dithiophosphate (aeroflot).

The total recovery of copper (Cu) (cathode copper + copper concentrate) was 90%. The recovery of gold (Au) in copper concentrate was 85%. Operating costs (including the preparation of the heap, its cleaning (transfer to grinding and flotation), the preparation of a new heap for leaching) amounted to 0.7 $ / t.

Thus, the claimed invention successfully solves the problem of creating a highly economical method for processing mixed copper ores containing precious metals, which allows not only to significantly reduce operating costs, but also to achieve high recovery of valuable components.

Claims (1)

A method of processing mixed copper ores containing precious metals, including crushing the initial ore to a particle size of 30 ÷ 80 mm, heap leaching, extraction, reextraction and electroextraction of cathode copper from the liquid phase of the leachate, regrinding of the solid phase of the leachate and flotation of the crushed solid phase at pH 7 -8, created by caustic soda to obtain copper concentrate and with the extraction of gold in it.