JPH11229051A - Method for removing platinum and palladium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily and efficiently remove Pt and Pd by regulating the pH of a soln. of nitric acid contg. Pt and/or Pd to specified value in an acidic region, thereafter adding potassium permanganate thereto and precipitating and removing these compds. SOLUTION: Since Pt and Pd are dissolved as nitrous acid complex ions in a leach liq. of nitric acid, potassium permanganate is used and the nitrous acid complex ions are oxidized to produce the precipitations of Pt and Pd, and they are separated to remove. The potassium permanganate is added preferably by 6 to 24 molar times quantity to the content of Pt in the soln. and by 4 to 14 molar times quantity to the content of Pd. At the time of the addition, the pH of the soln. of nitric acid is regulated to >=1, preferably, to 2 to 5. Since, ordinarily, the pH of the leach liq. of nitric acid of copper slime is <=1, there is a need of executing the regulation of the pH. In this case, e.g. slaked lime or the like are preferably used. Furthermore, at the time of adding the potassium permanganate, the temp. of the soln. is preferably regulated to >=80 deg.C.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for efficiently removing platinum / palladium from a nitric acid solution containing platinum and / or palladium. More particularly, it relates to a method for efficiently removing and recovering platinum and palladium contained in a nitric acid leaching solution of copper slime.

[0002]

2. Description of the Related Art Platinum and palladium do not dissolve in ordinary nitric acid dissolution, but a small amount of platinum or palladium is dissolved in a nitric acid electrolyte in silver electrolysis operation. Conventional methods for removing and recovering platinum and palladium dissolved in a liquid include a method of removing palladium by precipitation using a precipitant such as dimethylglyoxime (Japanese Patent Publication No. 57-14422), and a method of using an oxime-based solvent. A method in which palladium is extracted and separated by a solvent extraction method, and a method in which platinum and palladium are removed by an anion exchange resin (JP-B-61-44156, JP-B-63-297222)
No. etc.) are known.

However, any of the above methods cannot remove platinum even if palladium can be removed. Moreover, in the method using a precipitant such as dimethylglyoxime, palladium bound to dimethylglyoxime does not dissolve in acids and alkalis, so in order to recover palladium, this palladium compound was first roasted to obtain crude palladium metal. Later, it must be purified by dissolving it in aqua regia. In addition, the solvent extraction method using an oxime-based solvent,
Since solvent extraction, washing, and back extraction steps are required, the equipment becomes large-scale and is not suitable as a method for recovering a trace amount of palladium. On the other hand, in the method using an anion exchange resin, since this resin contains chlorine, silver chloride is generated when a solution containing silver such as a silver electrolyte is passed, so that ion exchange efficiency is greatly reduced and silver Is consumed, resulting in a loss.

[0004] In addition, a method of controlling the current density of the cathode during silver electrolysis to suppress the elution of palladium has been known. This method prevents elution of palladium from the silver plate of the electrode. However, it cannot remove palladium already dissolved in the liquid. In addition, there is a problem that the current density of the cathode is governed by the concentration of palladium.

[0005]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems in the conventional method, and provides a method for efficiently removing platinum and palladium dissolved in a nitric acid aqueous solution by a simple operation. .

[0006]

That is, the present invention provides (1) a method in which a nitrate solution containing platinum and / or palladium is adjusted to pH 1 or more in an acidic region and then potassium permanganate is added. The present invention relates to a method for removing platinum and palladium, which comprises removing the compound by precipitation.

The above-mentioned removal method of the present invention is characterized in that (2) potassium permanganate is added to a nitric acid solution containing platinum or palladium in an amount 6 to 24 times the amount of platinum in the solution or to the amount of palladium. For nitric acid solutions containing platinum and palladium, a removal method in which the total amount of the above molar amount is added, and (3) a nitric acid solution containing platinum, the solution temperature is set to 4 to 16 times the molar amount. (4) Removal method in which the nitric acid solution is adjusted to pH 2 to 5; (5) Removal method in which the nitric acid solution is a nitric acid leaching solution of copper slime; (6) Nitric acid in copper slime Includes a removal method in which slaked lime is added to the leachate to adjust the acidity to pH 1 or more.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to examples. (I) Nitrate Solution The method of the present invention can be applied without particular limitation as long as it is a nitrate solution containing platinum and / or palladium. In particular, it is suitable as a method for removing platinum and / or palladium from a silver-containing nitric acid leaching solution of copper slime in copper smelting. Usually, since a small amount (about 10 to several hundred ppm) of platinum and palladium is dissolved together with a large amount of silver in a nitric acid leaching solution of copper slime, it is necessary to efficiently separate and recover expensive platinum and palladium from the solution. Can be Also, since this nitric acid leachate is used repeatedly as an electrolyte,
If palladium or the like remains dissolved, these will gradually accumulate and lower the electrolysis efficiency. The removal method of the present invention can be used in a step of purifying a nitric acid leaching solution or the like.

[0009] Platinum is known to form a complex with nitrite ions, and is considered to be dissolved as nitrite complex ions in the nitric acid leaching solution ([Pt (NO2) 6] 2-). This complex does not hydrolyze even at around pH 1. Also, a small amount of palladium is dissolved in the nitric acid leaching solution, which is considered to be present in the solution as nitrite complex ion ([Pd (NO2) 4] 2-) like platinum. Platinum and palladium dissolved in these liquids do not precipitate even when silver powder is added, and cannot be separated by cementation.

(II) Addition of potassium permanganate The present invention oxidizes these platinum and palladium nitrite complex ions with potassium permanganate to cause precipitation of platinum and palladium to separate and remove. I do. When hydrogen peroxide, which is another general oxidizing agent, is used instead of potassium permanganate, platinum or palladium is not sufficiently removed. Further, even if urea reacting with nitrous acid is used, urea itself is also decomposed, so that the effect of removing platinum and palladium is also low.

The addition amount of potassium permanganate may be any amount that is sufficient to oxidize nitrite ions to nitrate ions. Specifically, the amount is preferably 1 to 4 times the amount required for the oxidation. Nitrite complex ion of platinum and palladium [Pt (NO2)
6] 2- and Pd (NO2) 4] 2- have six or four nitrite ions coordinated to one atom of platinum and palladium, respectively. A minimum of 6 moles of platinum and 4 moles of palladium are required, and preferably 1 to 4 moles of potassium permanganate, that is, 6 to 24 moles of platinum in the solution. The amount of potassium permanganate used is 4 to 16 times the molar amount of palladium.

The removal method of the present invention can be applied to any of a nitric acid solution containing both platinum and palladium or only one of platinum and palladium. The amount may be any amount that results in a molar amount in each of the above ranges with respect to the amount of platinum or palladium contained in. When both platinum and palladium are contained, the total amount of the above molar amounts is added. Here, the total amount means, for example, when X moles of platinum and Y moles of palladium are present in the solution, potassium permanganate is used to oxidize the nitrite complex ions of platinum by 6X moles and the nitrite complex ions of palladium. Since 4Y moles are required to oxidize, the total amount is 1 to 4 mole times (6X + 4Y) to which these are added. If the amount of potassium permanganate is less than the above molar amount, precipitation of platinum and palladium becomes insufficient. If the amount of potassium permanganate added exceeds the above molar amount, permanganate ions in the solution increase, and the potassium concentration also increases, which is not preferable.

(III) Adjustment of Liquid Properties Potassium permanganate is added by adjusting the pH of the nitric acid solution to 1 or more. When the pH of the nitric acid solution is adjusted to 1 or more, the nitrite complex is decomposed and the released platinum or palladium precipitates as a compound. Preferably pH 2
The above is good, and the pH is more preferably 2.5 or more. However, if the pH exceeds 5, silver in the liquid becomes silver oxide, which is not appropriate.

Usually, the pH of the nitric acid leaching solution of copper slime is 0.1 to 1, so that the pH is adjusted. The pH may be adjusted by a step which does not adversely affect the purification step of the nitric acid leachate, the silver electrolysis step, or the isolation of the recovered platinum or palladium. Specifically, for example, slaked lime is used.

The potassium permanganate is preferably added by adjusting the temperature of the nitric acid solution to 80 ° C. or higher. When platinum is contained, precipitation of platinum does not sufficiently occur at a liquid temperature of 60 ° C. or lower.

(IV) Separation and Recovery of Precipitate The above-mentioned precipitate formed in the nitric acid solution is subjected to solid-liquid separation, whereby the platinum and palladium compounds can be separated and recovered from the solution. After dissolving the recovered precipitate with hydrochloric acid, both can be separated and recovered by a known method. Further, by heating to 300 ° C. or more, a metal in which platinum and palladium are mixed can be recovered.

[0017]

According to the method of the present invention, platinum and palladium can be easily and efficiently separated and removed from a nitrate solution containing platinum and / or palladium. Therefore, it is suitable as a method for purifying a nitric acid leachate of copper slime. Furthermore, the method of the present invention is economical because no extraction solvent or ion exchange resin is used, and can recover platinum and palladium at low cost.

[0018]

Examples and Comparative Examples Hereinafter, the present invention will be specifically described with reference to Examples and Comparative Examples. Note that these examples do not limit the present invention.

Example 1 Nitric acid solution (Ag: 100 g / l, Cu: 2 g / l, Pt: 50 ppm, Pd: 350 pp)
m), the pH was adjusted to 3, and 0.2 g of potassium permanganate was added to 50 ml of the nitric acid solution (KMnO ₄ amount: 1 molar time with respect to the total molar amount of nitrite ions coordinated to Pt and Pd). amount),
Stirred at 80 ° C. for 1 hour. A black-brown precipitate was formed. This was separated by filtration, and the concentration of each element in the filtrate was measured.
g: 100 g / l, Cu: 2 g / l, Pt: <1 ppm, Pd: <1p
pm. When the precipitate was analyzed by X-ray diffraction, it was a mixture of manganese dioxide, palladium hydroxide, and platinum hydroxide, and the platinum content of palladium was 0.1% each.
0175 g and 0.002 g.

Example 2 Nitric acid solution (Ag: 400 g / l, Cu: 8 g / l, Pt: 190 ppm, Pd: 1.1 g)
/ l) was adjusted to pH 3, and then 0.8 g of potassium permanganate was added to 50 ml of the nitric acid solution (the amount of KMnO _{4 based on} the total molar amount of nitrite ions coordinated to Pt and Pd: 1 mol) Double),
Stirred at 80 ° C. for 1 hour. A black-brown precipitate was formed. This was separated by filtration, and the concentration of each element in the filtrate was measured.
g: 400 g / l, Cu: 8 g / l, Pt: <1 ppm, Pd: <1 p
pm. The contents of platinum and palladium in the precipitate were 0.067 g and 0.008 g, respectively.

Example 3 0.8 g of potassium permanganate was added to 50 ml of the nitric acid solution of Example 1 (KMnO ₄ amount: 4 mole times the total mole amount of nitrite ions coordinated to Pt and Pd) Except for using, potassium permanganate was added in the same manner as in Example 1, and the formed precipitate was separated by filtration. When the concentration of each element in the filtrate was measured, A
g: 400 g / l, Cu: 8 g / l, Pt: <1 ppm, Pd: <1 p
pm. The contents of platinum and palladium in the precipitate were 0.0175 g and 0.002 g, respectively.

COMPARATIVE EXAMPLE 1 Potassium permanganate was added to the nitric acid solution under the same conditions as in Example 1 except that the temperature of the nitric acid solution was changed to 60 ° C., and the formed precipitate was filtered off. When the concentration of each element in the filtrate was measured, Ag: 100 g / l, Cu: 2 g / l, Pt: 2
0 ppm, Pd: <1 ppm.

COMPARATIVE EXAMPLE 2 Potassium permanganate was added to the nitric acid solution under the same conditions as in Example 1 except that the pH of the nitric acid solution was adjusted to 0.5 and the temperature of the solution was adjusted to 60 ° C. The generated precipitate was separated by filtration.
When the concentration of each element in the filtrate was measured, Ag: 100 g /
1, Cu: 2 g / l, Pt: 20 ppm, Pd: 30 ppm.

Comparative Example 3 The pH of the nitric acid solution was adjusted to 0.5, and the amount of potassium permanganate added was 0.05 g (the amount of KMnO _{4 based on} the total molar amount of nitrite ions coordinated to Pt and Pd: Under the same conditions as in Example 1, potassium permanganate was added to the nitric acid solution except that the amount was 0.25 mol times), and the formed precipitate was separated by filtration. When the concentration of each element in the filtrate was measured, Ag: 100 g / l, C
u: 2 g / l, Pt: 10 ppm, Pd: 60 ppm.

Comparative Example 4 Nitric acid solution (Ag: 100 g / l, Cu: 2 g / l, Pt: 500 ppm, Pd; 350 ppm)
After adjusting the pH of the solution to 3, 3 ml of hydrogen peroxide (35%) (the amount of hydrogen peroxide: 60 mole times the total mole amount of nitrite ions coordinated to Pt and Pd) was added to 50 ml of the nitric acid solution. The mixture was added and stirred at 80 ° C. for 1 hour. No precipitation occurred, and the concentration of each element in the solution was measured. No change was found in the concentration.

As is clear from the above Examples and Comparative Examples, the method of the present invention effectively removes platinum and palladium dissolved in the silver-containing nitric acid solution. On the other hand, in Comparative Examples 1 to 3 in which the amount of addition of potassium permanganate, the liquid temperature, and the pH value are out of the ranges of the present invention, the effect of separating platinum or palladium (formation of precipitate) is low, and these are sufficiently removed. Can not do.

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[Procedure amendment]

[Submission date] March 8, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0006

[Correction method] Change

[Correction contents]

That is, the present invention relates to (1) platinum and / or
Alternatively, in a nitric acid solution containing palladium, pH 1-5
The present invention relates to a method for removing platinum and palladium, characterized in that potassium permanganate is added under acidic conditions to remove these compounds as hydroxide precipitate.

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0007

[Correction method] Change

[Correction contents]

In the above-mentioned removal method of the present invention, it is preferable that (2) the amount of potassium permanganate added is 6 to 24 mol times the amount of platinum in the nitrate solution containing platinum and the amount of palladium contained in the solution. The nitric acid solution to be removed is 4 to 16 mole times the amount of palladium in the solution, and the nitric acid solution containing platinum and palladium is the total amount of the above mole times of the nitric acid solution. About nitric acid solution containing
(4) A nitric acid solution is a copper slime nitric acid leaching solution, slaked lime is added to the solution to adjust the pH to 1 to 5, and then potassium permanganate is added. Including methods.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0009

[Correction method] Change

[Correction contents]

[0009] Platinum is known to form a complex with nitrite ions.
([Pt (NO ₂ ) ₆ ] ^2- ). This complex does not hydrolyze even at around pH 1. Also, a small amount of palladium is dissolved in the nitric acid leaching solution, which is considered to be present as nitrite complex ion ([Pd (NO ₂ ) ₄ ] ²⁻ ) in the solution, similarly to platinum. Platinum and palladium dissolved in these liquids do not precipitate even if silver powder having a higher ionization tendency is added, and cannot be separated by cementation.

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0010

[Correction method] Change

[Correction contents]

(II) Addition of potassium permanganate The present invention provides a method for oxidizing platinum and palladium nitrite complex ions contained in a nitric acid leaching solution with potassium permanganate under acidic conditions of pH 1 to 5 to obtain platinum and potassium permanganate. Palladium is separated and removed from the liquid as a hydroxide precipitate. When hydrogen peroxide, which is another general oxidizing agent, is used instead of potassium permanganate, platinum or palladium is not sufficiently removed. Further, even if urea reacting with nitrous acid is used, urea itself is also decomposed, so that the effect of removing platinum and palladium is also low.

[Procedure amendment 6]

[Document name to be amended] Statement

[Correction target item name] 0011

[Correction method] Change

[Correction contents]

The addition amount of potassium permanganate may be any amount that is sufficient to oxidize nitrite ions to nitrate ions. Specifically, the amount is preferably 1 to 4 times the amount required for the oxidation. Nitrite complex ion of platinum and palladium [Pt (NO ₂ )
₆ ] ^2- and [Pd (NO ₂ ) ₄ ] ^2- have six and four nitrite ions coordinated to one atom of platinum and palladium, respectively, and oxidize them to nitrate ions. Requires a minimum of 6 moles of platinum and 4 moles of palladium, and preferably 1 to 4 moles of potassium permanganate, that is, 6 to 5 moles of platinum in the solution. Potassium permanganate is used in a molar amount of 24 moles or 4 to 16 moles relative to the amount of palladium.

[Procedure amendment 7]

[Document name to be amended] Statement

[Correction target item name] 0013

[Correction method] Change

[Correction contents]

(III) Adjustment of Liquid Properties Potassium permanganate is added by adjusting the pH of the nitric acid solution to 1 or more. However, if the pH exceeds 5, silver in the liquid becomes silver oxide, which is not appropriate. Therefore, potassium permanganate is preferably added to the nitric acid solution in the pH range of 1-5. Preferably, pH 2 or more is appropriate.
H2.5 or more is more preferable. PH of nitric acid solution is pH
In 1 to 5, the nitrite complex of platinum or palladium in the liquid is decomposed by potassium permanganate, and the released platinum or palladium precipitates as a hydroxide as shown in Examples.

Claims (6)

[Claims] 1. A nitric acid solution containing platinum and / or palladium is adjusted to pH 1 or more in an acidic region, and then potassium permanganate is added to precipitate and remove these compounds. A method for removing platinum and palladium, characterized in that: 2. A nitrate solution containing platinum or palladium, wherein potassium permanganate is used in an amount of 6 to 24 moles per mol of platinum in the solution, or 4 to 16 moles per mol of palladium in the solution. 2. The removal method according to claim 1, wherein a total amount of the molar amount of the nitric acid solution containing platinum and palladium is added. 3. The method according to claim 1, wherein the pH of the nitric acid solution is adjusted to 2 to 5. 4. The nitric acid solution containing platinum has a liquid temperature of 8%.
The removal method according to claim 1, 2 or 3, wherein the treatment is performed at 0 ° C or higher. 5. The removal method according to claim 1, wherein the nitric acid solution is a copper slime nitric acid leaching solution. 6. The removal method according to claim 5, wherein slaked lime is added to the nitric acid leaching solution of copper slime to adjust the acidity to pH 1 or more.