RU2704946C1 - Method of extracting gold from copper-containing sulphide material via cyanidation - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention relates to metallurgy of noble metals and is used for extraction of gold from copper-containing sulphide raw material by cyanidation while stirring. In leaching reagent (NaCN or other cyanide) is fed into head units of cyanidation, then conditioning is carried out by pulp agitation for 4–72 hours without supply of reagents with subsequent scalding of liquid phase of pulp.

EFFECT: considerable increase of weight ratio of gold in saturated sorbents, productive cement and cathode sediments, and also reduction of consumption of reagents for neutralization of cyanide wastes.

3 cl, 2 tbl, 2 ex

Description

The invention relates to the metallurgy of noble metals and can be used to extract gold from copper-containing sulfide raw materials by cyanidation with stirring.

A known method is an analogue to the extraction of gold from copper-containing pulps and solutions by the method of coal sorption [1], according to which in the liquid phase of the pulp maintain a concentration of sodium cyanide of at least 0.5 g / L. The method cannot be applied in the case of gold leaching at a concentration of sodium cyanide in the liquid phase of the pulp less than 0.5 g / l for reasons of economic feasibility.

Closest to the proposed invention is a prototype method for the extraction of gold from copper ores at a low concentration of NaCN at the level of 0.1-0.2 g / l [2]. The disadvantage of the prototype is the concomitant extraction of copper into the liquid phase of the pulp, which causes difficulties in the subsequent desoldering of the pulps (or solutions) by known methods, such as coal and ion exchange sorption, as well as cementation deposition. In the case of sorption of gold, copper is simultaneously extracted to the sorbent, reducing its capacity, which requires an increase in the general factory flow of the sorbent and, as a result, an increase in the loss of sorbent for attrition. In the case of gold cementation, copper is simultaneously deposited on the metal-cement, causing its increased consumption. In addition to these circumstances, in both cases, cathodic and cement deposits of poor quality — with an increased copper content — ultimately form, which reduces the efficiency of smelting gold-containing intermediates on Dore metal.

The main objective of the invention is to reduce the cost of decontamination of productive pulps and solutions, as well as improving the quality of precipitation, usually directed to smelting.

The technical result is achieved by the fact that NaCN is fed only to the preliminary cyanidation operation, as a result of which gold and copper are extracted into the liquid phase of the pulp, then the pulp is conditioned by agitation for 6-72 hours without supplying reagents (cyanide). In this case, the residual free cyanide present in the liquid phase of the pulp is gradually and inevitably spent on inappropriate chemical reactions, in particular with the formation of thiocyanates (SCN ^- ), cyanates (CNO ^- ), etc. As a result of a decrease in the concentration of free cyanide, copper cyanide complexes are gradually destroyed , copper goes into an insoluble form (for example, in the form of CuCN and CuSCN), and its concentration in the liquid phase of the pulp decreases. Gold remains in the liquid phase of the pulp. With a decrease in the concentration of copper in the liquid phase of the pulp, its extraction by the sorbent also decreases, which leads to an increase in the quality of the saturated sorbent, cathode and cement deposits, and in some cases to an increase in gold recovery.

An additional technical result of the proposed method is to reduce the consumption of reagents for the neutralization of the liquid phase of the pulp of the tail of cyanidation, due to the deposition of toxic impurities into the solid phase during conditioning.

The invention is confirmed by the following examples.

EXAMPLE 1

Example 1.1 according to the prototype method, continuous countercurrent dynamic tests of the process of hydrometallurgical processing of stale tailings of flotation processing of copper-zinc pyrite ore were carried out. The size of stale tails was minus 0.16 mm, the mass fraction of copper was 0.13%, sulfide sulfur was 28.2%, and the gold content was 1.23 g / t. The tests were carried out according to the scheme, including the operations of preliminary calc-air treatment, cyanidation and neutralization by chlorination.

Lime-air treatment was carried out in a gravity four-chamber installation with pneumatic mixing at a ratio of W: T = 1: 1, duration 6 hours, pH 12 and air flow 0.1 m ³ / m ³ ⋅ min.

Cyanization was carried out in a similar eight-chamber pre-installation (2 chambers) and sorption leaching (6 chambers). Active sorbent from coconut shell was used as a sorbent; the specific sorbent flow was 1.0 kg / t. Leaching was carried out at a ratio of W: T = 1: 1, the total duration of cyanidation was 8 hours (of which: preliminary - 2 hours, sorption - 6 hours), air flow - 0.05 m ³ / m ³ min, pH = 10, 5-11.0 and NaCN concentrations of 100-150 mg / l.

During the tests, cyanidation tails were obtained with a gold concentration of 0.02 mg / l in the pulp liquid phase and 0.78 g / t in the solid phase, which ensured metal recovery of 35.0% at a NaCN flow rate of 1.40 kg / t. The concentration of copper in the liquid phase of cyanidation tails was 193 mg / l, and in saturated carbon, 20.1 mg / g.

The cyanidation tails for the purpose of neutralization were subjected to countercurrent decantation washing, the resulting tail waters were continuously chlorinated in a chain of three mechanical agitators at pH = 11.8 and ORP at the level of 200-220 mV, the consumption of “active chlorine” was 2.7 kg / t.

The obtained coal was subjected to autoclave-alkaline desorption at a temperature of 165 ° C and a pressure of 0.6 MPa. The eluates were subjected to electrolysis with a duration of 1 h, a current density of 25 A / m ² and a voltage of 4.5 V. The mass fraction of gold in the cathode deposit was 1.8% with an operational metal recovery of 99%.

Example 1.2 by the proposed method. The same stale tails were processed, the calc-air treatment operation was carried out under identical conditions. Processing was carried out under similar conditions with a total duration of 14 hours (of which: cyanidation - 2 hours, conditioning - 4 hours, sorption demetalization - 6 hours).

During the tests, cyanidation tails were obtained with a gold concentration of 0.02 mg / l in the pulp liquid phase and 0.78 g / t in the solid phase, which ensured metal recovery of 35.0%. The concentration of copper in the liquid phase of cyanidation tails was 130 mg / l, in saturated carbon - 14.2 mg / g.

The neutralization of cyanidation tails was carried out under identical conditions, the consumption of “active chlorine” was 2.5 kg / t.

Desorption and electrolysis were carried out under similar conditions. The mass fraction of gold in the cathode deposit was 2.6%.

Example 1.3 by the proposed method. The same stale tails were processed, the calc-air treatment operation was carried out under identical conditions. Hydrometallurgical processing was carried out under similar conditions with a total duration of 32 hours (of which: cyanide - 2 hours, conditioning - 24 hours, sorption demetalization - 6 hours). The specific sorbent flux was 0.8 kg / t.

During the tests, cyanidation tails were obtained with a gold concentration of 0.01 mg / l in the pulp liquid phase and 0.78 g / t in the solid phase, which ensured metal recovery of 35.8%. The concentration of copper in the liquid phase of cyanidation tails was 58 mg / l, and in saturated carbon, 5.4 mg / g.

The neutralization of cyanidation tails was carried out under identical conditions, the consumption of “active chlorine” was 2.4 kg / t.

Desorption and electrolysis were carried out under similar conditions. The mass fraction of gold in the cathode deposit was 8.3%.

Example 1.4 by the proposed method. The same stale tails were processed, the calc-air treatment operation was carried out under identical conditions. Processing was carried out under similar conditions with a total duration of 80 hours (of which: cyanidation - 2 hours, conditioning - 72 hours, sorption demetalization - 6 hours). The specific sorbent flux was 0.8 kg / t.

During the tests, cyanidation tails were obtained with a gold concentration of 0.01 mg / l in the pulp liquid phase and 0.78 g / t in the solid phase, which ensured metal recovery of 35.8%. The concentration of copper in the liquid phase of cyanidation tails was 4.1 mg / l, and in saturated carbon, 0.46 mg / g.

The neutralization of cyanidation tails was carried out under identical conditions, the consumption of “active chlorine” was 2.1 kg / t.

Desorption and electrolysis were carried out under similar conditions. The mass fraction of gold in the cathode deposit was 65.8%.

EXAMPLE 2

According to the prototype method, direct cyanidation of a copper-containing concentrate of flotation concentration of primary low-sulfide gold-quartz ore was carried out. The size of the concentrate was minus 0.16 mm, the mass fraction of copper - 0.97%, sulfide sulfur - 16.3%, gold - 28.8 g / t.

Leaching was carried out in a reactor with mechanical stirring at a ratio of W: T = 2: 1, duration of cyanidation - 16 hours, air flow rate - 0.05 m ³ / m ³ min, pH = 11.0-11.5 and Ca concentration (CN ) ₂ - 0.5-1.0 g / l.

The concentration of gold in the liquid phase of the pulp of cyanide tailings was 13.4 mg / l, in the solid phase - 2.48 g / t, which ensured the extraction of metal in the liquid phase of the pulp of 91.4% at a consumption of Ca (CN) _{2 of} 5.3 kg / t The concentration of copper in the liquid phase of the tail pulp was 3200 mg / l, thiocyanates - 3370 mg / l.

The resulting pulp was filtered on a vacuum filter, the cake on the filter was washed with water at a flow rate of 1 m ³ / t. The main and washing filtrates were combined, the combined solution was divided into 3 equal portions and each portion was sent to de-soak under static conditions in three parallel versions: cementation on zinc (loading of zinc chips 3 kg per 1 m ³ solution), sorption on coal Norit RO 3515 and sorption on AM-2B resin (loading of sorbents at 2 vol.%). A cement cake was obtained with a mass content of gold - 5.1%, copper - 28.0%, saturated coal with a gold content of 2.2 mg / g, copper - 3.6 mg / g, a saturated resin with a gold content of 2, 8 mg / g, copper - 1.9 mg / g.

An anhydrous solution was chlorinated at pH = 12.0 and an ORP of 200–220 mV; the consumption of “active chlorine” was 18.9 kg / t.

According to the proposed method, the same concentrate was planned under identical conditions, and then the pulp was agitated (conditioned) for 32 hours without the addition of reagents.

The concentration of gold in the liquid phase of the pulp of cyanide tailings was 13.4 mg / l, in the solid phase - 2.48 g / t, which ensured the extraction of metal in the liquid phase of the pulp of 91.4% at a consumption of Ca (CN) _{2 of} 5.3 kg / t The concentration of copper in the liquid phase of the tail pulp was 520 mg / l, thiocyanates - 1850 mg / l.

The pulp was dehydrated, and the resulting solution was dehydrated under identical conditions. A cement deposit was obtained with a mass gold content of 13.4%, copper 22.7%, saturated coal with a gold content of 2.5 mg / g, copper 0.7 mg / g, a saturated resin with a gold content of 3, 9 mg / g, copper - 1.8 mg / g.

The considered examples show that, in comparison with known methods, the present invention allowed to increase the mass fraction of gold in saturated sorbents and productive cement and cathode deposits by 1.1-36.4 times, as well as reduce the consumption of "active chlorine" (calcium hypochlorite) for disposal cyanide waste 1.1-1.4 times.

BIBLIOGRAPHY

1. RF patent No. 2223060, IPC С22В 11/00, з.97116590, filed 10/02/97, publ. 12/10/98, bull. Number 34

2. Metallurgy of noble metals / Ed. L.V. Chugaev. 2nd ed., Revised. and add. M .: Metallurgy, 1987.432 s.

Claims (3)

1. The method of extracting gold from copper-containing sulfide raw materials, including cyanidation with stirring and subsequent demetalization of the liquid phase of the pulp, characterized in that after the cyanidation operation, the pulp is conditioned by agitation for 4-72 hours without supplying reagents with a multiple decrease in the concentration of free cyanide and copper in the liquid phase of the pulp. 2. The method according to p. 1, characterized in that after conditioning the pulp is sent to sorption demetalization using activated carbon or ion-exchange resin without the addition of free cyanide. 3. The method according to p. 1, characterized in that after conditioning the pulp is separated into a leached solid phase and a gold-containing solution, which is subjected to dezolation by sorption or cementation method.