RU2356957C1 - Method of extraction of gold, silver and copper from waste electrolytes - Google Patents

Abstract

FIELD: metallurgy. ^ SUBSTANCE: invention relates to extraction method and utilisation of gold, silver and copper from waste electrolytes, containing thiourea, sulfuric acid, water and sludge. Method includes addition to waste electrolyte 33.0-67.5% hydrogen peroxide and blending with transferring of gold and silver into sediment. After appearance of green colouring in solution it is cooled and filtered. Sediment is annealed and it is received an ally of gold and silver. ^ EFFECT: receiving of the ability of quantitative isolation from waste electrolyte of gold and silver in the form of metals, which in what follows can be used industrial. ^ 1 ex

Description

Technical field

The invention relates to the chemical industry, and in particular to a technology for utilizing gold, silver, and copper from spent electrolytes.

State of the art

A method for recovering silver and possibly gold from solid materials containing these elements in low concentrations, for example 1-1.5%, partially in the form of metal sulfides, and possibly containing free sulfur, is known from the patent literature. The material is treated with thiourea, followed by cementation of the resulting solution of the complex compound to extract more than 90% silver in the precipitate (UK Pat. No. 1,534485, IPC С22В 11/04, publ. December 6, 1978). The disadvantage of the analogue method is the insufficiently effective extraction of gold.

In order to improve the quality of precious metal products containing gold, silver and copper, electro polishing is used in the electrolyte of the composition: thiourea, sulfuric acid, water (1 liter of electrolyte contains 90 g of thiourea, 20 g

H ₂ SO ₄ concentrated, water). The spent electrolyte consists of a solution and a precipitate (sludge) and contains up to 10% gold, silver and copper. To utilize this electrolyte, the cementation method is used in practice, which consists in adding zinc powder to the electrolyte, which ensures the restoration of noble metal ions from their complexes with thiourea to metals in a free state. At the same time, the latter are distinguished on a zinc basis (Handbook of the probiere / comp .: Candidate of Technical Sciences E.A. Marenkov. Edited by engineer D.G. Grebenkin. - M.: Gosfinizdat, 1953. - 230 p.).

2T ₂ MeHSO ₄ + Zn = 2Me + Zn (HSO ₄ ) ₂ + 4T,

where T is thiourea (NF ₂ ) ₂ CS.

This method is taken as a prototype.

The disadvantage of the prototype method is the insufficiently efficient utilization of gold and silver from the electrolyte.

Disclosure of invention

The objective of the invention is to develop a method for the extraction of gold, silver and copper from spent electrolytes for electropolishing products, which would provide a technical result - the possibility of quantitative separation from the electrolyte (solution and precipitate) of gold and silver in the form of free metals, which can later be used in industrial purposes.

This technical result is achieved thanks to the present invention, which provides a method for extracting gold, silver and copper from spent electrolytes containing thiourea, sulfuric acid, water and sludge, including the destruction of a complex of gold, silver and copper. To destroy the complexes of gold, silver and copper, 33.0-67.5% hydrogen peroxide is added to the spent electrolyte, with stirring, with the transfer of gold and silver to the precipitate, and the copper in the solution, after the green color of the solution appears, is cooled, filtered, the precipitate is heated to obtain an alloy of gold and silver.

In the proposed method, instead of zinc powder, 33.0-67.5% hydrogen peroxide is introduced, which destroys the complexes of gold, silver and copper with thiourea. In this case, gold and silver are released in a free state, copper goes into solution, and thiourea decomposes with the release of sulfur, carbon dioxide and ammonium sulfate. The end of the reaction is fixed by the appearance of a green color of the solution.

The implementation of the invention

The following example confirms the feasibility of the invention.

Example.

The alloy with a gold content of 58.5%, silver 8.0%, copper 33.5% is electropolished in an electrolyte of 1 l composition: 90 g of thiourea, 20 g of H ₂ SO ₄ 96-98% and 890-900 ml of water. To the spent electrolyte (solution and precipitate), 300 ml of 67.5% or 600 ml of 33% hydrogen peroxide are gradually added in small portions with stirring. As a result of the decomposition reaction of gold, silver, and copper complexes with thiourea, strong heating with the release of carbon dioxide is observed.

T ₂ AuHSO ₄ + H ₂ O ₂ = Au + 2T + H ₂ SO ₄ + H ₂ O

T ₂ AgHSO ₄ + H ₂ O ₂ = Ag + 2T + H ₂ SO ₄ + H ₂ O

2T + 2H ₂ O ₂ + 2H ₂ SO ₄ = 2S + 2CO ₂ +2 (NH ₄ ) ₂ SO ₄

2T ₂ CuHSO ₄ + H ₂ O ₂ = ₂ CuSO ₄ + 4T + 2H ₂ O

The appearance of a green color of the solution indicates the end of the reaction. After cooling, the precipitate of gold, silver and sulfur is filtered through a filter with a blue ribbon. The precipitate is placed in a muffle and heated to a temperature of 800 ° C, sulfur burns out, and gold and silver form an alloy (2.66 g), which is then used for industrial purposes.

The proposed method can find wide application for the disposal of precious metals in the manufacture of products, jewelry containing gold.

Although the present invention has been described by way of example, the scope of the present invention is not limited to these examples, but is defined only by the claims taking into account possible equivalents.

Claims (1)

The method of extracting gold, silver and copper from spent electrolytes containing thiourea, sulfuric acid, water and sludge, including the destruction of complexes of gold, silver and copper, characterized in that for the destruction of complexes of gold, silver and copper, 33.0- are added to the spent electrolyte 67.5% hydrogen peroxide with stirring with the transfer of gold and silver into a precipitate, and copper into a solution, after the appearance of a green color of the solution, it is cooled, filtered, the precipitate is heated to obtain an alloy of gold and silver.