SU588760A1 - Method of extracting gold and silver from cyanide solutions - Google Patents

Description

The invention relates to hydrometallurgy of noble metals and can be used in the sorption extraction of gold and silver from cyanide industrial solutions and ore pulps.

A known method of extracting gold and silver from cyanide solutions and ore pulps is sorption by a polymer sorbent based on a chloromethylated styrene-divinylbenzene copolymer and a tertiary diamine (AM-2B). Sorption is carried out at pH 8-11.

The disadvantages of this method; are low gold and silver capacities (3, -6.7 mg / g), cue selectivity coefficient (0.080, 2). In addition, anion-exchange resin AM-2B, although it intensifies leaching. noble metals, but has a low selectivity, which is said to occur on the kinetics of dissolution and sorption of gold and silver.

The purpose of the invention is to increase the efficiency of extracting gold and silver from cyanide solutions and ore pulps. This is achieved by the fact that sorption is carried out on N-polyvinylbenzyl3 {5) methylpyrazole crosslinked by macroporous copolymer.

The sorbent has the following link structure

nsn nn

g

NA

SNG-K: t-

and obtained by amine formation of chloromethylated styrene copolymer of macroporous structure and divinylbenzene (20% divinylbenzene, C1 content 16%) 3 (5) -methyl pyrazole (98% of the main substance, ToKip. 20f-205 С Sorbent is spherical granules (granule size 0, 8-2 mm), mechanically strong, steady in acid and alkaline solutions, and also when heating.

The proposed method of extracting gold and silver with a chelating sorbent has the following characteristics: gold and silver capacity, k, k, 7.1 mg / l, selectivity coefficient, 0.6–1.04. The starting compounds for sorbent synthesis are marketable products.

The described method for the extraction of gold and silver using the N-polyvinylbenzyl-3 (5) methylpyrazole chelating sorbent can be used for industrial solutions and ore slurries with different contents of noble and non-precious metals.

Example 1. Experiments on the recovery of noble metals with the use of a new N-polivi chelate sorbent NJL benzyl-3 (5) -methylpyru ash are carried out by the method of constant concentrations of the target component and salt solution (with solution change) under static conditions. 1 g of sorbent is poured 1000 ml of a production solution of the following composition, mg / l: gold 1, i2, silver Q, 0, copper 13.3 zinc 13.1, iron 10.9, nickel 0.99 cobalt 0.12, calcium oxide 20, cyanide. The solution with the sorbent is altered at a constant temperature - (l8 + 3 s) on a mechanical agitator.

with a rotation speed of 60 rpm.

Comparative data on the kinetics of sorption of gold, silver and non-ferrous metals from working cyanide solutions are given in the table.

The determination of gold, silver and other metals in the solution after sorption is carried out, for example, by the atomic absorption method. The sorbent is regenerated by one of the known

ways.

As can be seen from the table, the sorbent

K-polyvinylbenzyl-3 (5) -methylpyrazo; has a capacity of silver and gold j 1.3 times and coefficient of selectivity

1.6 times, and for industrial solutions rich in gold and silver, the selectivity coefficient is 10 times higher compared with AM-2B sorbent. In addition, the specified

the sorbent practically does not sorb copper, zinc and cobalt, which simplifies the process; regeneration of the saturated sorbent. I Use of the proposed method of extracting gold and silver from

production solutions and ore: slurries with the use of a new chelating sorbent polyvinylbenzyl-ZSZ) methylpyrazole, in comparison with the known method, provide the following advantages:

the possibility of obtaining regenerators rich in gold and silver,

mechanical strength of the described sorbent and the possibility of its application in both static and dynamic conditions.

Claims (1)

A METHOD FOR EXTRACTING GOLD AND SILVER FROM CYANIDE SOLUTIONS AND PULP SORPTION on a polymer sorbent with subsequent desorption of the extracted metals, characterized in that, in order to increase the efficiency of the process, sorption is carried out on a crosslinked macroporous copolymer of q-polyvinyl benzyl-zy-zl-zy-zan-zan-zan-zan-zan-zan-zan-zan-zan-Zn-Zn-Zn-Zn-Zn-Zn-Zn-Zn-Zn-Zn-Zn.