RU2175680C2 - Method of recovery of noble metals from solutions - Google Patents

Abstract

FIELD: recovery of noble metals from processing solutions. SUBSTANCE: noble metals are recovered from solutions by combined precipitation of silver, palladium and platinum with precipitating mixture consisting of alkali metal chloride and sulfide at chloride consumption per 100% of precipitation of silver, and 450-500% of sulfide of theoretically required to bind platinum, palladium sulfides and residual silver content. EFFECT: simplified production process and greater recovery of noble metals from solutions. 3 tbl

Description

 The invention relates to the field of hydrometallurgy of precious metals and can be used in the processing of technological solutions containing noble metals.

 A known method for the separation of precious metals from sulfate solutions, including their precipitation with alkali metal sulfides, followed by processing of the resulting precipitate (RZ Metallurgy, 1973, abstract 12 G505).

The disadvantage of this method is the incomplete extraction of precious metals from solutions and the need to use expensive autoclave processes, since the deposition of sulfides is carried out at a temperature of the solution = 165-170 ^o C.

 The technical result in this invention is to simplify and reduce the cost of the process of processing solutions and increase the extraction of precious metals from them.

 The technical result is achieved by the method of separation of precious metals from solutions, including their precipitation with alkali metal sulfides and subsequent processing of the precipitate, while the precious metals are deposited with a mixture of alkali metal sulfides and chlorides, supplied at the rate of 100% silver deposition by alkali metal chloride, and the amount supplied in the mixture sulfide of an alkaline reagent not less than 450% of theoretically necessary for the deposition of platinum metals in the form of sulfides.

The method is as follows:
A precipitation mixture consisting of sodium chloride and sodium sulfide is fed into the solution to isolate noble metals from it at room temperature, the sodium chloride consumption being calculated from the silver content in the solution, and sodium sulfide from the total content of palladium, platinum and part of silver.

 After feeding the precipitator, the pulp is mixed for 30-40 minutes and filtered.

 The filtrate (effluent solution) is discharged, and the precipitate containing silver, platinum, palladium is recycled by a known method, for example, by melting to obtain soluble anodes.

 Tables 1, 2, 3 show the results of the separation of silver, platinum, palladium from technological solutions by precipitation with sodium chloride (Table 1), sodium sulfide (Table 2) and a precipitation mixture consisting of sodium chloride and sodium sulfide (Table 3). .

 As follows from the above results, only precipitation with a mixture of chloride and sodium sulfide allows practically completely isolating silver, palladium from the solution and extracting platinum by more than 95%.

 Thus, the proposed method in comparison with the known, improves the efficiency and degree of extraction of precious metals.

Claims (1)

 A method of separating precious metals from solutions, including their precipitation with alkali metal sulfides followed by processing of the precipitate, characterized in that the precipitation is carried out with a mixture of alkali metal sulfides and chlorides, supplied at the rate of 100% silver deposition by alkali metal chloride, and the amount of alkali metal sulfide in the mixture. not less than 450% of theoretically necessary for the deposition of platinum metals in the form of sulfides.

Images