RU2083703C1 - Method of gold recovery from copper-containing cyanogen solutions - Google Patents

Abstract

FIELD: recovery of gold from cyanogen solutions containing high amount of copper. SUBSTANCE: prior to cementation, cyanide concentration is changed in proportion to concentration of copper according to the offered relationship. EFFECT: increased recovery of gold from cyanogen copper-containing solutions, simplified technology and equipment. 1 tbl

Description

 The invention relates to hydrometallurgy of precious metals and can be used, in particular, for the extraction of gold from cyanide solutions containing significant amounts of copper.

In the practice of gold mining, copper ores (with a copper content of 0.1 to 0.5%) are preferred to be processed by cyanidation by special methods, preventing the transfer of copper into solution. Subsequent extraction of gold from cyanide solutions containing copper is carried out mainly by deposition in two stages, with the first used unleaded zinc as a precipitant (for copper deposition), and the second lead zinc (for gold deposition) [1]
Gold-rich gold-containing concentrates (with a copper content of 0.5 - 5.0% and above) are processed mainly by pyrometallurgical methods, since their cyanidation is associated with the problem of complete and selective dissolution of gold and its precipitation from cyanide solutions / Ibid. p. 284 /.

 Complete and selective extraction of gold by cementation onto metallic zinc from cyanide solutions containing 1 5 g / l copper is difficult due to the formation of a dense copper film on the metal precipitator, which prevents the deposition of gold.

 The closest in technical essence to the proposed one is a method for extracting gold from cyanide copper-containing solutions, in which two-stage cementation is carried out, the first stage being mainly the deposition of copper on unleaded zinc, and on the second gold on leaded zinc [1] In this case, gold is partially deposited as in the first and second stages of cementation.

 The disadvantage of this method is the loss of gold associated with the need to process products of both the copper and gold stages of cementation and, as a result, the low recovery of gold from the solution into the precipitate, as well as the complexity of the technology and equipment.

 The objective of the invention is to reduce the loss of gold during its cementation deposition from cyanide solutions with any copper content by selective extraction, as well as the simplification of technology and hardware design.

This technical result is ensured by the fact that in the known method for extracting gold from cyanide solutions, including cementation by zinc, the concentration of cyanide before cementation is adjusted to a value determined by the dependence
C _NaCN C _Cu + a,
where C _{NaCN is the} concentration of cyanide before cementation;
C _{Cu is the} concentration of copper in solution;
a correction factor of 0.5 1.5 g / l
The correction factor is directly proportional to the concentration of metals in the solution (Au, Ag, Zn, Pb, etc.) and is selected for each specific solution. So, for a solution obtained by cyanidation of pure quartz ores containing small amounts of metals, it is preferable to use values of the correction factor less than 1, and when processing solutions obtained by cyanidation of sulfide flotation concentrates, it is preferable to use the coefficient 1 1.5.

The difference between the proposed technical solution from the prototype is to bring the concentration of cyanide before cementation to a value determined by the dependence
C _NaCN C _Cu + a,
which indicates compliance with the criterion of "novelty."

При значительных концентрациях меди в растворе несмотря на более электроотрицательный потенциал осаждения золота (Y $\genfrac{}{}{0ex}{}{\text{°}}{\text{Au}}$ = -0,54B) в процессе проведения цементации медь в первую очередь осаждается на поверхности цинка, блокируя поверхность и замедляя осаждение золота.In cyanide solutions, part of the copper is in the form of Cu (CN) complexes $\genfrac{}{}{0ex}{}{\text{3-}}{\text{4}}$ and Cu (CN) $\genfrac{}{}{0ex}{}{\text{2-}}{\text{3}}$ These complexes readily interact with the cement metal in reactions

At significant copper concentrations in solution, despite the more electronegative potential for the deposition of gold (Y $\genfrac{}{}{0ex}{}{\text{°}}{\text{Au}}$ = -0.54B) in the process of cementation, copper is primarily deposited on the surface of zinc, blocking the surface and slowing down the deposition of gold.

From 1 to 2, reactions can be prevented from left to right by adding free cyanide to the cyanide solution before cementation. In this case, reactions (1 and 2) will be shifted to the left, i.e. copper will be retained in solution when zinc is added, while the gold precipitation reaction will predominantly occur
2Au (CN) + Zn 2Au + Zn (CN)
with the formation of a pure gold precipitate containing a minimum amount of copper.

 This assumption was confirmed by experiments on real cyanidation solutions during the extraction of gold from them by cementation.

The concentrations of free cyanide in solution were also experimentally determined at which copper cementation to metallic zinc practically does not proceed. The relationship between the concentrations of free cyanide, copper and the correction coefficient in solution is expressed by a linear function and corresponds to the empirical formula
C _NaCN C _Cu + a
Thus, by bringing the concentration of free cyanide to the values determined by the above ratio, it becomes possible to selectively extract gold from a solution containing any amount of copper, and in one stage.

 Due to this, the loss of gold associated with the processing of industrial products is reduced and, consequently, the extraction of gold in the precipitate also increases. The proposed technical solution contradicts the view that it is impossible to fully and selectively extract gold from cyanide solutions with a high copper content while simplifying the technology and hardware design.

 Based on the foregoing, we can conclude that the proposed technical solution meets the criterion of "inventive step".

 The proposed method can be illustrated by the following examples.

Example 1 (prototype). Used real solutions of leaching of flotation concentrates containing, g / l: NaCN 1,2; Cu 3.4; Au 0.12; Zn 0.040; Ag 0.026. A solution with a volume of 10 l was passed through a glass column with a diameter of 2 cm, into which 20 g of unleaded zinc shavings were preliminarily placed at a rate of 0.4 l in 1 h (1 stage of cementation). The concentration of Cu in solution after cementation was 0.2 g / l, and the concentration of Au is 0.11 g / l. The extraction of Au was 8.3% Cu 94.1%. Then the same solution was passed through the same column, filled with 20 g of lead zinc shavings (stage II cementation). The concentration of gold in the solution at the outlet was 0.007 g / l, 0.16 g / l. Recovery at stages I and II of cementation 94.2%. The experimental results are shown in the table. It illustrates the dependence of gold recovery on the concentration of copper and cyanide during cementation.
Example 2 (by the proposed method). In a solution (composition as in example 1) of 10 l was added cyanide for a concentration of 4.4 g / l. After that, the solution was passed through a column with leaded zinc chips (20 g) at a rate of 0.4 l / h. The concentration of gold in the solution after cementation was 0.0002 g / l, copper 3.38 g / l. The extraction of gold in the cement slurry was 99.7%. Similarly, experiments were carried out according to the proposed method, when the copper content in the solution before cementation was, g / l: 0.3 and 1.2; as well as with outrageous values of the correction coefficient at a constant concentration of copper in solution. The experimental results are shown in the table.

 According to the data given in the table, when the cyanide concentration is determined according to the dependence proposed in this technical solution, the gold recovery reaches high values (99.8%). It is also seen that, subject to the claimed dependence, gold can be effectively precipitated from solutions with any initial copper concentration. The values of the correction factor (a) in this case are 0.5 to 1.5 (g / l). When the correction factor is below 0.5, a high degree of gold recovery is not achieved. With a correction factor greater than 1.5, a further increase in the concentration of cyanide is impractical due to its inefficient consumption without increasing gold recovery.

 During cementation under the claimed conditions, copper mainly remains in solution, i.e. selective deposition of gold from copper-containing cyanide solutions is realized.

 In addition, cementation is carried out in one stage, which greatly simplifies the technology, while reducing the number of equipment used.

Claims (1)

The method of extracting gold from copper-containing cyanide solutions, including cementation by zinc, characterized in that before the cementation, the concentration of cyanide is changed in proportion to the concentration of copper according to the formula:
C _{N a C N} C _{C u} + a,
where C _{N a C N the} concentration of cyanide before cementation, g / l;
C _{Cu the} concentration of copper in the solution before cementation, g / l;
a correction factor of 0.5 1.5 g / l.

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