JP2011208249A - Method for separating platinum group element - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for separating a platinum group element in which a separation effect of the platinum group element by ion exchange is heightened when the platinum group element is separated from a platinum group element-including solution by an ion exchange method.SOLUTION: The method for separating the platinum group element comprises the steps of: adjusting the ratio (M1/M2) of the total molar concentration (M1) of coexistent metals of Bi, Sn and Pb to the total molar concentration (M2) of the platinum group elements to ≤1; and adsorbing/separating the platinum group elements. As the platinum group element-including solution, a liquid is used which is obtained by subjecting copper electrolysis slime to hydrochloric acid leaching, separating gold from an obtained leachate, introducing sulfurous acid gas into a gold-separated solution to perform reduction treatment and produce a solid and leaching the produced solid with an acid and an oxidizer.

Description

The present invention relates to a method for efficiently separating a platinum group metal in a solution from a coexisting metal by solvent extraction. The method of the present invention can be used as a method for separating and recovering a platinum group element from a processed product by-produced in a precious metal smelting step or the like.

Platinum group metals are rare elements, and since there are few productions of natural minerals containing platinum group metals in high quality, they are industrially recovered from non-ferrous metal smelting byproducts and spent catalysts. For example, anodic slime produced in the copper and nickel scouring process or extraction residue produced in the nickel scouring process contains gold, silver, platinum, palladium, etc. Of precious metals have been recovered.

Conventionally, platinum group elements have been separated and recovered from such smelting residues and the like. For example, leaching copper-free slime and recovering silver and lead from the leachate, while recovering gold from the leachate by solvent extraction, the gold-extracted solution contains platinum group elements and selenium. Therefore, platinum group elements are recovered from the solution after gold extraction.

As a method for recovering a platinum group element from a solution containing a platinum group element, a solvent extraction method using dialkyl sulfide (DAS) or tributyl phosphoric acid (TBP) is known (Patent Document 1: Japanese Patent Laid-Open No. 63-14824). Gazette, patent document 2: JP 2000-178664 A). The method of Patent Document 2 describes that platinum group elements can be collected and extracted and separated by using octylmethylammonium together with TBP.

Methods for separating and recovering platinum group elements by adsorbing them on ion exchange resins are also known (Patent Document 3: Japanese Patent Laid-Open No. 2004-131745, Patent Document 4: Japanese Patent Laid-Open No. 2007-302944). Patent Document 3 describes that a relatively low concentration of a platinum group element can be adsorbed and separated by using a polyamine type anion exchange resin. Patent Document 4 discloses that an ion exchange resin adsorbing a platinum group element is roasted in an oxidation-reduction atmosphere to alloy the platinum group element, and the roasted product is leached with hydrochloric acid in the presence of an oxidizing agent, and chlorinated in the leachate. A method is described in which platinum group elements with few impurities are recovered by adding potassium to form and separate platinum group element chloro complex crystals.

JP-A-63-14824 JP 2000-178664 A Japanese Patent Laid-Open No. 2004-131745 JP 2007-302944 A

A weak base commonly used as an ion exchange resin that selectively adsorbs platinum group elements when the platinum group elements are selectively separated by ion exchange from a solution containing platinum group elements and other metals (impurity metals). When the type ion exchange resin is used, depending on the type of the impurity metal, if the concentration of the impurity metal is high, the impurity metal is adsorbed on the functional group of the ion exchange resin and hinders the adsorption of the platinum group element. There is a problem that it accumulates in the exchange resin to reduce the adsorption capacity and shorten the life.

If the separation of the platinum group element by the ion exchange resin becomes insufficient, the platinum group element remains in the solution, and when recovering selenium etc. from the liquid after extraction, the platinum group element is mixed in the recovered selenium, Cause the problem of reducing the purity of.

The present invention solves the above-mentioned problem when the platinum group element is separated from the solution containing the platinum group element by an ion exchange method, and identifies the type of impurity metal that hinders the adsorption of the platinum group element by the ion exchange resin. And the density | concentration is restrict | limited, The separation method of the platinum group element which improved the separation effect by ion exchange of a platinum group element is provided.

The present invention relates to a platinum group element separation method that solves the above problems by the following configuration.
[1] When the platinum group element is selectively adsorbed and separated from the solution containing the platinum group element using an ion exchange resin, the total molar concentration (M1) of the coexisting metals Bi, Sn, and Pb and the platinum group element A platinum group element separation method comprising adsorbing and separating a platinum group element by adjusting a ratio (M1 / M2) of the total molar concentration (M2) to 1 or less.
[2] A solution containing a platinum group element leaches copper electrolytic slime with hydrochloric acid, separates gold from the leached solution, introduces sulfurous acid gas into the solution, and reduces the resulting solid. The resulting solid is leached with an acid and an oxidizing agent. The method according to [1] above, which is a liquid obtained.

According to the separation method of the present invention, Bi, Sn, and Pb are specified as coexisting metals having a large influence on hindering the adsorption of platinum group elements by the ion exchange resin, and the total molar concentration (M1) thereof is limited to perform ion exchange. As a result, the effect of adsorption and separation of platinum group elements is high.

Specifically, the ratio (M1 / M2) of the total molar concentration (M1) of Bi, Sn, and Pb to the total molar concentration (M2) of the platinum group elements (Pt, Pd, Ru, Rh, Ir). By limiting the amount to 1 or less, the amount of Bi or the like adsorbed to the functional group of the ion exchange resin is limited to ensure the adsorption ability of the ion exchange resin to the platinum group element, and the ion exchange resin in the elution washing process after the adsorption There is little residue in

Further, since the separation method of the present invention has a high adsorption effect for the platinum group element, the amount used for the ion exchange resin is relatively small, and the concentration of the platinum group element adsorbed to the ion exchange resin is high, so that the recovery rate is high. Will improve.

The graph which shows the adsorption rate of the platinum group element with respect to M1 / M2 ratio

Hereinafter, the present invention will be specifically described based on embodiments.
In the method of the present invention, [1] when the platinum group element is selectively adsorbed and separated from the solution containing the platinum group element using an ion exchange resin, the total molar concentration of the coexisting metals Bi, Sn, and Pb (M1 ) And the total molar concentration (M2) of platinum group elements (M1 / M2) is adjusted to 1 or less, and the platinum group elements are adsorbed and separated.

General ion exchange resin (weak base ion) that adsorbs platinum group elements when the platinum group elements are selectively adsorbed and separated by ion exchange from a solution containing other metals (impurity metals) together with platinum group elements. When an exchange resin is used, the adsorption of platinum group elements is greatly hindered depending on the type of impurity metal. In particular, the influence of Bi, Sn, and Pb is large. Cu, Se, As, etc. have little influence.

Therefore, in the separation method of the present invention, the concentration of Bi, Sn, and Pb is limited for impurity metals that coexist with the platinum group element, and the total molar concentration (M1) of Bi, Sn, and Pb is changed to the platinum group element (Pt, Ion exchange is performed by controlling the M1 / M2 ratio to 1 or less with respect to the total molar concentration (M2) of Pd, Ru, Rh, Ir).

By performing ion exchange while controlling the molar concentration ratio (M1 / M2) to 1 or less, as shown in FIG. 1, a platinum group element adsorption rate of 85% or more can be obtained. When the molar concentration ratio (M1 / M2) exceeds about 1, the adsorption rate of the platinum group element decreases in proportion to the molar concentration ratio. When the M1 / M2 ratio is 1.5, the adsorption rate of the platinum group element is about When the M1 / M2 ratio is 2.0, the platinum group element adsorption rate is about 10% or less.

As a solution containing a platinum group element, copper electrolytic slime is leached with hydrochloric acid, gold is separated from the leached solution, sulfur dioxide gas is introduced into the solution, reduction treatment is performed, and the resulting solid is leached with an acid and an oxidizing agent. Can be used.

Specifically, for example, the copper removal refining slime is processed as follows. First, the decopper refining slime is slurried with hydrochloric acid and hydrogen peroxide, and is filtered to separate into a leach cake containing mainly silver and a leach solution containing gold, platinum group elements, selenium and tellurium. Next, the liquid property of the leachate is adjusted, and gold is separated from the leachate by solvent extraction using DBC or the like. In the extraction residual liquid from which gold is thus separated, platinum group elements, selenium, tellurium, Bi, Sn, Pb, and the like are dissolved in the liquid. Therefore, sulfurous acid gas is introduced into the extraction residual liquid to reduce and precipitate selenium and separate from the extraction residual liquid. Sulfurous acid gas is further introduced into the filtrate from which selenium has been separated, and tellurium is reduced and precipitated together with the remaining selenium. The platinum group element is precipitated together with selenium and tellurium, and Bi, Sn, and Pb remain in the liquid. This can be filtered off to obtain a platinum group containing selenium tellurium.

To this selenium tellurium group-containing material, hydrochloric acid is added in the presence of an oxidant to dissolve the platinum group element, followed by solid-liquid separation and selective separation of the platinum group element from the filtered platinum group-containing solution by the separation method of the present invention. Can be separated. In this platinum group-containing solution, Bi, Sn, and Pb remain in the liquid when sulfurous acid gas is introduced in the previous step to precipitate the platinum group element, so that M1 / M2 <1.

Examples of the present invention are shown below together with comparative examples.
[Examples 1-2]
For a solution containing Bi, Sn, and Pb as impurities together with the platinum group element, the platinum group element was separated by ion exchange. As the ion exchange resin, a weak base type ion exchange resin (trade name: Diaion WA-30) was used. The platinum group element-containing solution was passed through the ion exchange resin at a flow rate of SV = 1, and the adsorption rate was examined after the adsorption operation 10BD.
Platinum group element with respect to M1 / M2 ratio for samples with a ratio (M1 / M2) of the total molar concentration (M1) of Bi + Sn + Pb to the total molar concentration (M2) of platinum group (Pt + Pd + Rh + Ru + Ir) (M1 / M2) of about 0.1 The adsorption rate is shown in FIG.

[Comparative Examples 1-2]
Samples having an M1 / M2 ratio of 1.5 and 2.0 were subjected to ion exchange in the same manner as in Examples 1 and 2, and the adsorption rate of platinum group elements with respect to the M1 / M2 ratio is shown in FIG.

As shown in FIG. 1, the samples of Example 1 and Example 2 have an M1 / M2 ratio smaller than 1, and the adsorption rate of platinum group elements is about 95% to about 85%, so that a high extraction effect is obtained. . On the other hand, the samples of Comparative Example 1 and Comparative Example 2 have an M1 / M2 ratio larger than 1, and the adsorption rate of the platinum group element rapidly decreases in proportion to the increase of this ratio, and the M1 / M2 ratio is 1.5. Then, the adsorption rate is about 40% or less, and when the M1 / M2 ratio is 2.0, the adsorption rate of the platinum group element is about 10% or less.

Claims (2)

When the platinum group element is selectively adsorbed and separated from the solution containing the platinum group element using an ion exchange resin, the total molar concentration (M1) of the coexisting metals Bi, Sn, and Pb and the total mole of the platinum group element A platinum group element separation method, wherein the ratio (M1 / M2) of the concentration (M2) is adjusted to 1 or less to adsorb and separate platinum group elements.
A solution containing a platinum group element is a solution obtained by leaching copper electrolytic slime with hydrochloric acid, separating gold from the leached solution, introducing sulfurous acid gas into the solution, and reducing the solution, and leaching the resulting solid with an acid and an oxidizing agent. The method according to claim 1.

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