RU2044085C1 - Method of noble metals extraction from saturated active coal - Google Patents

Abstract

FIELD: noble metals extraction from coal saturated by desorption. SUBSTANCE: method provides or treatment of noble metals saturated coal by sodium cyanide-alkaline solution wit following desorption of metals by hot water in autoclave. Desorption is exercised under temperature of 165 175 C by 7 10 volumes of elutriating agent per volume of coal and wit time of one volume of elutriating agent flow through 5 10 minutes. EFFECT: method allows to facilitate extraction of noble metals from saturated active coal.

Description

 The invention relates to hydrometallurgy of precious metals, in particular the extraction of gold and silver by desorption.

The method for extracting gold and desorption of active coal silver alkali solution in an autoclave, wherein the activated carbon treatment is carried out with 0.4% alkaline solution at 150-165 ^{° C,} pressure 4-6 psig for 2-6 h [1]
The disadvantages of this method include the significant process time and high operating costs associated with the low operational stability of electric heaters in an alkaline environment at elevated temperature and pressure.

Closest to the invention is, selected as a prototype, a method for extracting precious metals from saturated activated carbon, comprising preconditioning saturated carbon for 1 hour with a solution containing 5% NaOH and 1% NaCN and subsequent desorption of gold with hot water for 9 hours at a temperature of 110-120 ^C and a pressure of 50-100 kPa at a rate of 5 volumes of water to 1 volume of coal [2]
The disadvantages of the prototype include low productivity due to the long duration of the gold desorption cycle.

 The objective of the invention is to reduce the duration of desorption of metals from saturated activated carbon.

This is achieved in that a method of extracting precious metals from the saturated active carbon, comprising treating the coal with an alkaline solution of saturated sodium cyanide and subsequent desorption with hot water in an autoclave, according to the invention the desorption is carried out at a temperature of 165-175 ^C 7-10 volumes of eluent volume for coal and the flow time of one volume of eluent 5-10 minutes

 The conformity of the claimed invention to the requirement of the inventive step is determined by the fact that the combination of its distinctive features allows, by increasing the desorption temperature, to increase the duration of its flow through the treated coal by 20 times with increasing eluent volume by coal volume and thereby intensify the process of desorption of gold and / or silver from saturated coal, which clearly does not follow from the prior art.

PRI me R 1 (prototype). Activated carbon TAI KO CW 814G saturated with noble metals from industrial cyanide pulps and containing 2.1 g / kg of gold, 1.27 g / kg of silver was treated in a 50 cm ³ column with a solution containing 5% NaOH and 1% NaCN at the rate of 0 , 5 volumes of solution per 1 volume of coal and kept in solution for 60 minutes.

 Then, after alkaline-cyanide treatment, the coal in the column was placed in an autoclave and gold was desorbed.

Coal treated with 5 volumes of hot water at a temperature of 120 ^C, a pressure of 0.2 MPa and the flow time through a water volume of coal 108 min.

 The residual content of gold in coal after desorption was 0.05 g / kg, silver 0.13 g / kg.

PRI me R 2 (by the proposed method). Activated carbon TAIKOCW 814G, saturated in the "coal in the pulp" process and containing 2.1 g / kg of gold, 1.27 g / kg of silver was loaded into a 50 cm ³ column and treated with an alkaline solution of sodium cyanide containing 50 g / l NaOH and 10 g / l NaCN based on 0.5 volume of solution per 1 volume of coal. Processing time 60 minutes

After treatment with alkaline solution of sodium cyanide was carried gold desorption 8 volumes of hot water per volume of coal at a water temperature ^of 170 C, a pressure of 0.79 MPa and a flow time through a water volume of coal 5-10 min.

 The residual content of gold in coal after desorption was 0.05 g / kg, silver 0.02 g / kg.

It was established experimentally that the reduction in the desorption temperature less than 165 ^{° C} increases the elution process and the number of volumes of eluant per volume of more than 10 carbon.

Increased desorption temperature than 175 ^{° C} leads to decomposition of cyanide complexes of gold and silver in the coal phase to form insoluble compounds, and, consequently, to an increase in the residual coal after desorption capacity.

 Passing through a volume of coal less than 7 volumes of eluent reduces the degree of desorption of metals from coal.

 An increase in the flow time of the volume of the eluent through coal above 10 min also reduces the recovery of metals, and a decrease of less than 5 min leads to a decrease in the concentration of gold in the eluate.

 Thus, the use of the proposed method for the extraction of precious metals from saturated activated carbon provides the restoration of the sorption properties of activated carbon with a 20-fold reduction in the duration of the flow of eluent through the treated carbon and thereby the process of desorption of gold and silver from activated carbon is intensified.

Claims (1)

METHOD FOR REMOVING NOBLE METALS FROM SATURATED ACTIVE COAL, including treating saturated coal with an alkaline solution of sodium cyanide and subsequent desorption with hot water in an autoclave, characterized in that the desorption is carried out at 165-175 ^o With 7-10 volumes of eluent per volume of coal and breakthrough time of one volume eluent 5-10 min.