RU2771077C1 - Method for extracting gold from loaded carbon - Google Patents

Abstract

FIELD: metallurgy.SUBSTANCE: invention relates to hydrometallurgy of precious metals, in particular, pertains to extraction of precious metals from loaded activated carbons by desorption. Extraction of gold from loaded carbon includes pre-conditioning of loaded carbon in an alkaline cyanide solution and subsequent desorption of gold with hot water. Pre-conditioning is executed in an alkaline cyanide alcohol solution at a concentration of NaCN 0.065%, NaOH 0.02%, alcohol-benzene mixture (ABM) 0.02 to 0.04% with a ratio of alcohol and benzene in the ABM of 1/1.EFFECT: method reduces the duration of the operation of gold desorption.1 cl, 2 tbl, 2 ex

Description

The invention relates to the hydrometallurgy of precious metals, in particular the extraction of gold by desorption from activated carbons.

A known method of extracting precious metals from saturated activated carbon, including pre-conditioning of saturated coal with an alkaline solution of 5% NaOH and 1% NaCN and subsequent desorption with hot distilled water in an autoclave. According to the invention, desorption is carried out at a temperature of 165-175°C with 7-10 volumes of eluent per volume of coal and the flow time of one volume of eluent is 5-10 minutes. The desorption operation time is 1-1.5 hours [RU 2044085 C1. A method for extracting noble metals from saturated active carbon].

The disadvantages of this method include high capital and operating costs associated with the high temperature and pressure of the process. High-pressure equipment is required, since the process is carried out at a pressure of 8-10 atm.

Also known is a method for extracting precious metals from saturated coal with a solution containing 70-80 (vol.%) H20 and 20-30 (vol.%) alcohol (ethanol, methanol, propanol and isopropanol), containing NaOH 0.1% at a temperature of 80 -90°C and atmospheric pressure. Desorption time 5 hours [No. 4208378 US Patent 1980 DESORPTION OF GOLD FROM ACTIVATED CARBON].

The disadvantages of the method include the low productivity of the process due to the long duration of the desorption cycle and the high fire hazard of the process.

Closest to the invention is the method described in the article R. J. DAVIDSON, M. Sc., Ph. D. ELUTION OF GOLD FROM ACTIVATED CARBON USING DEIONIZED WATER July 2, 1977 JOURNAL OF THE SOUTH AFRICAN INSTITUTE OF MINING AND METALLURGY selected as prototype. This method for extracting precious metals from saturated active carbon includes preconditioning the saturated coal with a solution containing 1% NaOH and 10% NaCN and subsequent desorption of gold with hot distilled water at a temperature of 90°C and atmospheric pressure. The desorption operation time is 14 hours.

The disadvantages of the prototype include the low productivity of the process due to the long duration of the desorption of gold.

The objective of the invention is to reduce the duration of the desorption of gold from saturated active carbon.

The technical result is achieved by the fact that in the proposed method of extracting gold from saturated active carbon, before the desorption operation, the saturated coal is pre-conditioned with an alkali-cyanide solution with an alcohol-benzene mixture (SBS), with a NaCN concentration of 0.065%; NaOH - 0.02%; SBS - 0.02-0.04% (alcohol-benzene mixture at a ratio of 1/1), then gold is extracted from coal thus conditioned with hot distilled water (90°C).

Compliance of the claimed invention with the requirement of the inventive step is due to the fact that the totality of its distinctive features makes it possible to intensify the process of desorption of gold from saturated coal due to the addition of an alcohol-benzene mixture to the alkaline-cyanide solution for preliminary conditioning, which in turn is sorbed on saturated coal, which leads to a reduction in time subsequent desorption operation.

The above is confirmed, but not limited to examples of implementation of the proposed method.

Example 1 (by prototype)

Activated carbon saturated with noble metals (gold content on saturated carbon 3 kg/t) was treated in a column with a volume of 50 cm ³ with a solution containing 1% NaOH and 10% NaCN at the rate of 0.5 volume of solution per 1 volume of coal. Then gold was desorbed from coal with deionized water at 90°C. The gold content on gold-free coal was 0.03-0.06 kg/t. Extraction of gold from coal - 98-99%.

Example 2 (according to the proposed method)

Activated carbon 50 cm ³ saturated with noble metals from alkaline cyanide solutions, with a gold content of 3.5 kg/t, was conditioned with an alkaline cyanide solution with a concentration of NaCN - 0.065%, NaOH - 0.02% and SBS (alcohol benzene mixture with a concentration of 0.02-0.04 wt.%), at a temperature of 20°C at the rate of 0.5 volume of solution per 1 volume of coal, then the coal thus conditioned was treated for three hours in a column of hot distilled water at a temperature of 90°C. Extraction of gold from coal was 90.5-93.7%, respectively. The residual content of gold on coal is 0.33-0.22 kg/t.

Table 1 presents the parameters and indicators of the compared methods.

Table 2 shows the comparative recovery of gold from saturated coal at different concentrations of SBS in the preconditioning solution.

It has been experimentally established that preliminary conditioning of gold-saturated coal with an alkaline cyanide solution with SBS (alcohol-benzene mixture) leads to a simplification of the subsequent operation of desorption of gold from saturated coal and to a decrease in the operation time.

The optimal concentration of SBS in the conditioning solution for subsequent desorption is 0.02-0.04%, an increase in the concentration of SBS in the conditioning solution leads to an increase in SBS consumption with a comparable recovery of the valuable component.

Thus, the use of the proposed method for the desorption of gold from a saturated carbon sorbent reduces the time of the desorption operation from 14 hours to 3 hours.

In turn, the optimal amounts and flow rates of the desorbing solution will depend on the amount of gold adsorbed on the initial saturated carbon, the composition of the eluent, and the process temperature.

Claims (1)

A method for extracting gold from saturated coal, including preconditioning saturated coal in an alkaline cyanide solution and subsequent desorption of gold with hot water, characterized in that the saturated coal is subjected to preconditioning in an alkaline cyanide alcohol solution with a concentration of NaCN - 0.065%, NaOH - 0, 02%, alcohol-benzene mixture (SBS) - 0.02-0.04% at a ratio of alcohol and benzene in SBS 1/1.