RU2089634C1 - Method for isolation of precious metals from material containing the latter - Google Patents

Abstract

FIELD: precious metals production. SUBSTANCE: invention relates to isolation of gold, silver, and platinum mainly in finishing operations when concentrating gold-containing material. Concentrate is mixed with gallium-based collector in presence of alkali at 25-40 C. Collector additionally contains 6-8% tin lowering its melting temperature and limiting wetting angle. Components are mixed at 5:1 to 1:1 ratio. Obtained mixture, prior to be washed with water, is cooled to 0-17 C - its hardening temperature - in order to avoid entrainment of precious metal particles and their irretrievable loss, and heated before filtration to melting temperature of collector. EFFECT: increased degree of recovery. 1 tbl

Description

 The invention relates to the metallurgy of precious metals and can be used to extract gold, silver and platinum metals from materials containing them.

 It is mainly used in finishing operations in the enrichment of gold-containing raw materials.

 Known recovery methods using the following reagents for dissolving gold: alkaline solutions of sodium or potassium cyanide, acid solutions of thiourea, chlorine water / 1 /.

 There is also known a method of extraction using mercury for selective wetting in the process of extraction of gold particles / 2 /.

 However, the reagents used are the strongest poison and have a very harmful effect on the environment and especially on the human body.

 The closest set of essential features to the proposed one is the extraction method, according to which liquid gallium / 3 / is used as a collector for extracting silver from materials containing it.

The interaction of silver with gallium occurs when heated to a temperature of 40-60 ^o C for 30 minutes, then carry out the separation of silver from the collector by washing and filtering.

 Thus, the extraction of silver using gallium requires heating, which makes it difficult to use this collector in various climatic conditions. In addition, a relatively high contact angle reduces the solubility of the gallium collector with respect to precious metals, which in turn reduces the recovery of precious metals. The washing operation is accompanied by mechanical losses of precious metal particles loosely coupled to the collector, which also leads to a decrease in the recovery of precious metals.

 The essence of the invention is to create a method for the extraction of precious metals, including mixing the concentrate with a collector based on gallium with the addition of tin, cooling the resulting mixture before washing and heating to the melting temperature of the collector before filtering. Mixing with the collector by adding tin and at the indicated ratio reduces the melting point at the wetting angle and thereby increases the solubility of the collector with respect to precious metals and their recovery. The cooling of the mixture before washing contributes to its hardening, which excludes the removal of particles of precious metals and their irretrievable losses, which also leads to increased recovery of precious metals.

The invention is characterized by a combination of essential features, including the operation of mixing the concentrate with a gallium-based collector in the presence of alkali at a temperature of 25-40 ^o C. The collector additionally contains tin, which lowers its melting temperature and wetting angle. The concentrate is mixed with the collector in a ratio of 5: 1 1: 1, selected from the following considerations: greater extraction speed and completeness of extraction of gold and precious metals.

 The introduction of less than 6 and more than 8 tin into the collector increases the melting temperature of the collector and reduces the extraction of gold, increases energy consumption.

Cooling the mixture to 0-17 ^o C before washing and heating to the melting temperature of the collector before filtering occurs by washing the mixture with water at the appropriate temperature.

 The possibility of carrying out the invention is given below.

For the experiments, a gravitational gold concentrate was used, the weight of the samples was 500 g, and their gold content was 10 g. In the prototype experiment, a weighed collector with respect to the gravity concentrate 5.5 5.5 was placed in a glass flask where 0.05 m sodium hydroxide solution was added. The flask with the solution was fixed on the shaker, and then shaken. The process was conducted at a temperature of 50 ^o C for 30 minutes After the termination of the process, gold was separated from the collector by washing and filtration and analysis of the gold content. Gold recovery totaled 82
In the experiments on the proposed method, a sample of a gravity concentrate of the same composition as in the prototype is mixed with a collector in an amount of from 100 to 500 g and containing in addition to tin gallium from 6 to 8
The resulting mixture was placed in a glass container and stirred for 15 minutes, rotating it on rolls. Then, 0.3 L of a 0.2% sodium hydroxide solution is added and stirring is continued for another 20 minutes. The temperature of the experiments varied from 25 to 40 ^o C. The resulting mixture was cooled to 0-17 ^o C for 10 and 30 minutes, respectively.

Then the mixture is washed with water at a temperature to which the mixture was cooled in an amount of 1 liter. The waste rock is mechanically separated from the hardened collector, which is placed in a glass container and 0.4 L of a 0.2% sodium hydroxide solution heated to 40 ^° C is added. The collector is melted, the resulting mixture is filtered through two layers of dense fabric. The filtrate of the collector is weighed and used in subsequent experiments. The precipitate is poured with a solution of nitric acid, while the reservoir dissolves, adhering to the spools. The resulting gold precipitate is washed with water at room temperature, dried and weighed.

 The results of the experiments are shown in the table, the extraction of gold ranged from 96 to 99.3 (average 97). Loss of collector amounted to 0.5 from the initial load.

Claims (1)

The method of extracting precious metals from the material containing them, including the allocation of precious metals to a collector containing gallium in the presence of alkali, characterized in that the concentrate containing precious metals is used as the starting material, the precious metals are extracted using an alloy based on gallium containing 6 to 8 wt. tin by mixing the source material with the collector in a ratio of 5 1 1 at 25 40 ^o C, then the resulting mixture is cooled to 0 17 ^o C, washed with water, heated to the melting temperature of the collector, followed by filtration of the resulting mixture and purification of precious metal particles from collector.

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