RU2089635C1 - Method of recovering silver, gold, platinum, and palladium from secondary material containing precious metals - Google Patents

Abstract

FIELD: precious metals production. SUBSTANCE: secondary precious metal waste, prior to be dissolved in hot aqua regia, is melted in melting pot and granulated, and slurry obtained after dissolution in aqua regia is neutralized with sodium carbonate and filtered under vacuum. Resultant silver chloride precipitate is washed with weak hydrochloric acid solution and hot water followed by melting to form metal silver, whereas solution containing gold, platinum, and palladium is poured into precipitating reactor to precipitate gold. To this solution, ferric sulfate is added under stirring and heating, solution is filtered, and gold-containing precipitate is washed with hot water, dehydrated, and melted. Platinoids remaining in solution are further precipitated as metals or sulfides, filtered off, washed with hot water, dried, and melted. EFFECT: separate isolation of silver, gold, and platinoid concentrate provided. 7 cl

Description

 The invention relates to metallurgy and can be used in the extraction of precious metals from secondary raw materials.

There is a known hydrometallurgical method for extracting silver from anode sludge of copper electrolysis, in which an anode sludge containing silver, gold, platinum group metals is suspended in hydrochloric acid, followed by sodium hypochlorite thereto to produce chlorine and its compounds, the suspension is filtered and the solid filtered phase containing silver in the form of precipitated AgCl, is separated, and the specified phase is extracted with ammonia to extract the extract containing silver and dissolved lead. During the interaction of the third filtrate with calcium hydroxide, ammonia is released, and the silver precipitate is melted to obtain a product enriched in silver [1]
The disadvantage of this method is that all attention is focused on obtaining silver and products enriched with silver, and the remaining precious metals are not allocated. Another disadvantage is the release of ammonia, which leads to the formation of ammonia mists in the workrooms, and therefore, to the deterioration of the environment.

The closest in technical essence to the invention is a hydrometallurgical method for the separation and enrichment of gold, platinum and palladium simultaneously with the extraction of selenium from the anode sludge of copper electrolysis, including the dissolution of gold, platinum and palladium, filtering the resulting solution, the separation of silver chloride, the deposition of gold, platinum and palladium Filtration of a precipitate of a second filter using heated hydrochloric acid [2]
The disadvantage of this method is that it is impossible to obtain separately gold and platinoids, and also in the process of chlorination, the environmental ecology worsens, because chlorine gas is difficult to capture in sewage treatment plants.

 The technical result of the invention is the separate production of silver, gold and a concentrate of platinoids from secondary precious raw materials, as well as improving the ecology of the environment through the use of organic components in the processing of raw materials.

This is achieved by the fact that the secondary waste of precious metals before their dissolution, which is carried out in a solution of aqua regia with stirring and heating, is melted in a melting crucible and granulated, and the pulp obtained after dissolution in aqua regia is neutralized with sodium carbonate and filtered under vacuum, then it is obtained the silver chloride precipitate is washed with a weak solution of hydrochloric acid and hot water, followed by melting the precipitate on metallic silver, and the solution containing gold, platinum and palladium is poured ferrous sulfate is added to it with stirring and heating, after which the solution is filtered and the precipitate with gold is washed with hot water, dehydrated and melted, and the platinoids contained in the anhydrous solution are precipitated in the form of metals or sulfides, the solution is filtered and the obtained concentrate of platinoids is washed with hot water, dried and melted, and the dissolution of precious metals in aqua regia is carried out at 60-100 ^o C, and the precipitate of silver chloride after filtering the pulp is washed twice with a weak a solution of hydrochloric acid / 1: 10 / and hot water, the temperature of which is 75-90 ^o C, while cooling the gold, stirring the solution is carried out at a speed of 60-100 rpm and at a temperature of the solution 50-70 ^o C, and platinoids precipitate from the solution in the form of metals with base metals, namely zinc or aluminum, or iron, platinoids in the form of sulfides are precipitated using sodium thiosulfate, and the anhydrous solution is heated to 90-100 ^o C and sodium thiosulfate is added to it with constant stirring, then after filtration it is dehydrated solution of a concentrate of platinoids is dried at 500-700 ^o C and melted at 1100-1200 ^o C.

 Example 1. Ingots containing Au, Ag, Pt and Pd and ingots poor in silver content are loaded into a melting crucible and melt them, mixing the melt with a stirrer throughout the volume.

 A granulation unit is prepared for operation, including filling the granulation tank with water, installing a receiving container at the bottom of the granulation tank, and installing a support structure with a granulator on the granulation tank. The melt is mixed and poured through an intermediate crucible into an underwater container through a granulator, and after the water has drained, the granules are poured, which are transferred to the dissolution site, where the metal granules or bulk raw materials are loaded into the reactor with mechanical stirring, the solution of aqua regia is added 1: 3/4 / and lead the process with stirring and heating until the end of the reaction. During the leaching process, gold, platinum and palladium pass into solution, while silver in the form of a silver chloride salt remains in an insoluble residue. The dissolution process is considered complete if there is no reaction when the next portion of aqua regia is added.

При растворении сырья, содержащего благородные металлы, в царской водке образуется парогазовая смесь, которая улавливается при перемешивании водой.

Upon dissolution of raw materials containing noble metals, a vapor-gas mixture is formed in aqua regia, which is captured with stirring with water.

At the end of dissolution, the pulp is neutralized with sodium carbonate to a pH of 1-2, then it is poured onto a filter and filtered. The precipitate is washed first twice with a weak solution of hydrochloric acid / 1: 10 /, then with hot water / t = 75 ^o C / until there is no gold in the washings, and the solution containing gold, platinum and palladium is sent to separate them.

Gold can be separated from platinum metals with chamois iron, for this a solution containing noble metals is poured into the precipitation solution to precipitate gold and added to it with constant stirring and heating / t = 50 ^o C / saturated solution of iron sulfate. After settling, the pulp is poured onto a suction filter, the filtrate is separated from the gold sludge, which is washed with hot water / t ^o = 50 ^o C / until neutral. Gold sludge is dehydrated, dried / t ^o = 100 ^o C / and sent to the smelting / t ^o = 1100 ^o C /. The dehydrated solution is transferred to the extraction of platinoids from it.

 Platinum metals are displaced from acidic solutions by base metals, such as iron. The precipitates obtained in this case almost always contain in significant quantities the metal used in the deposition. Precipitation can also be contaminated with other precipitated metals contained in the solution.

 In this case, metallic iron was used in the form of a powder to precipitate platinoids. To do this, an anhydrous solution containing platinoids is poured into a reactor with mechanical stirring. High demands are made on iron powder. It should have maximum activity and a developed surface, because the quality of the concentrate obtained depends on this.

Полученной пульпе дают отстояться, затем сливают на нутч-фильтр, отделяют фильтрат от концентрата платиноидов, который промывают горячей водой /t= 70^oC/ до нейтральной реакции. Концентрат обезвоживают, сушат при 500^oC и плавят при 1100^oC.Good precipitation of platinoids is achieved by quickly and uniformly interfering with iron powder, for this the reactor is filled with a solution of 50-60% immediately after turning on the mixer, about 25% of the powder is poured, and the remaining 75% is set uniformly throughout the mixing time

The resulting pulp is allowed to settle, then poured onto a suction filter, the filtrate is separated from the platinoid concentrate, which is washed with hot water / t = 70 ^° C / until neutral. The concentrate is dried, dried at 500 ^o C and melted at 1100 ^o C.

Example 2. It is carried out analogously to example 1, but the deposition of platinoids from an anhydrous solution in the form of sulfides is carried out due to sodium thiosulfate. For this, the reactor is filled with a 60-70% desalted solution, which is heated to 90 ^° C, and a saturated solution of sodium thiosulfate is added to it with stirring.

Пульпе дают отстояться, затем сливают на нутч-фильтр, отделяют фильтрат от концентрата платиноидов, который промывают горячей водой до нейтральной реакции. Концентрат обезвоживают, сушат при 500^oC и плавят при 1100^oC.

The pulp is allowed to settle, then poured onto a suction filter, the filtrate is separated from the platinoid concentrate, which is washed with hot water until neutral. The concentrate is dried, dried at 500 ^o C and melted at 1100 ^o C.

Example 3. It is carried out analogously to example 1, but when gold is precipitated, the golden slurry is washed with hot water t = 70 ^o C, then it is dehydrated, dried at 120 ^o C and melted at 1200 ^o C, and when platinum deposits are deposited, the platinum concentrate is dried at 700 ^o C and melted at 1200 ^o C.

Claims (7)

 1. The method of extraction of silver, gold, platinum and palladium from secondary raw materials containing precious metals, including processing with a reagent to obtain a solution containing gold, platinum and palladium, and a precipitate containing silver chloride, separation of the solution by filtration, precipitation of gold, platinum and palladium with the separation of metal precipitation by filtration, characterized in that before processing the reagent, the starting material is melted, followed by granulation of the melt, the granulated product is subjected to treatment with the reagent, and it is carried out using a solution of aqua regia as a reagent with stirring and heating to obtain pulp, the resulting pulp is neutralized with sodium carbonate, followed by filtration of the pulp under vacuum to separate the silver chloride precipitate from the solution containing gold, platinum and palladium, the silver chloride precipitate is washed a weak solution of hydrochloric acid and hot water, followed by melting the precipitate on metallic silver, a solution containing gold, platinum and palladium is treated with saturated a solution of iron sulfate with stirring and heating, followed by separation of the solution containing platinum and palladium, from the precipitate containing gold, washing the precipitate of gold with hot water, dehydration and smelting, and platinum is precipitated from the solution in the form of metals or sulfides, followed by separation of the platinum concentrate filtration, washing it with hot water, drying and melting. 2. The method according to claim 1, characterized in that the processing of the granular product in aqua regia is carried out at 60 100 ^o C. 3. The method according to claim 1 or 2, characterized in that the washing of the precipitate of silver chloride is carried out twice with a weak solution of hydrochloric acid at T W equal to 1 10, and then with hot water at 75 90 ^o C. 4. The method according to any one of claims 1 to 3, characterized in that the deposition of gold is carried out with stirring the solution with a frequency of 60 to 100 min ^-1 at a temperature of the solution of 50 70 ^o C.  5. The method according to any one of claims 1 to 4, characterized in that the deposition of platinum and palladium in the form of a metal is carried out by base metals, namely, zinc, or aluminum, or iron.  6. The method according to any one of claims 1 to 5, characterized in that the precipitation of platinum and palladium in the form of sulfides is carried out with sodium thiosulfate with constant stirring. 7. The method according to any one of claims 1 to 6, characterized in that the drying of the platinoid concentrate is carried out at 500 700 ^o C, and melting at 1100 1200 ^o C.