SU384911A1 - METHOD OF CLEANING SOUR ACID CADMY AND ZINC SOLUTIONS FROM NICKEL - Google Patents

Description

Inventory / retention relates to the field of non-ferrous metallurgy, in particular, to the methods of och-sources of aqueous solutions of zinc salts and cadmium from nickel mixtures.

The known method for the removal of nickel from sulfate solutions of these metals by selective sorption using an amphoteric ion exchanger, subsequently regenerated with a solution of mineral acid, does not provide a deep and sufficiently selective treatment of zinc sulfate ipacTBOpoB and nickel cadmium from nickel; on nickel.

In the proposed method, copper is first removed from the initial solutions by known methods, after which nickel is sorbed as an amglocarboxylic ion exchanger with simultaneous neutralization of the solution being purified with an acid-soluble substance selected from the group consisting of zinc oxide, cadmium oxide and their mixture.

P | ri me er 1. Oyshtke subjected to a solution containing, g / l: 150.6 cadmium, 32.2 zinc and 1.89 nickel. Copper is removed from this solution, using one of the well-known methods. Amionicarbocoyl 1ONION of ANKB-1 grade is used as an amphoteric ion exchanger, and zinc oxide is consumed as a neutralizer, which is consumed in the amount of 5 g per 100 cm of ion exchanger.

The degree of extraction of nickel from a solution of this composition reaches 94.7%, n, and the working capacity of the ion exchanger for nickel is 5%. Nickel-rich ion exchanger is subjected to regeneration with an aqueous solution of sulfuric acid and in the desorption process, an eluate is obtained with a nickel content of 18.8 g / l.

Example 2. The stock solution after removal; copper contains, g / l: 152.0 cadmium,

35.3 zinc and 1.67 nickel. Neutralization of the solution during the process of nickel ion sorption by ANKB-1, is carried out with cadmium oxide, which is consumed in the amount of 5 g per 100 cm of ion exchanger. The degree of purification of the solution from "ikel 94,8%

when the working capacity of the ion exchanger for nickel is 2.6%. Upon desorption of nickel with sulfuric acid solution, an eluate is obtained with a content of 18.5 g / l nickel.

The method provides the ability to remove nickel not only from solutions containing both cadmium and zinc, but also from individual solutions of salts of these metals. As a neutralizer, you can use separately zinc oxide and cadmium,

as well as their mixture in any ratios and combinations with the initial solution, zrich, zinc oxides and cadmium can be supplied immediately prior to sorption to the initial solution, as well as during the sorption process. Holding

sorption in the presence of a neutralizer. a provides automatic maintenance of pH at a given constant level, thus increasing the working capacity of the ion exchanger. The latter is increased by the preliminary removal of copper from the solution being purified. The regeneration of the ion exchanger can be dried with a solution of a mineral acid, for example sulfuric, after which the ionite can be cleaned differently with water and then sent back to cleaning the original solution from nickel.

As a result of the application of the new method, the nickel content in the solutions is reduced to the limits that ensure the production of branded metals by electrolysis without the use of other more labor-intensive and expensive methods of nickel removal.

4 Item invented, and

The method of purification of cadmium zinc sulfate solutions from nickel, including selective sorption of nickel by an amphoteric ion exchanger followed by its regeneration with a solution of mineral acid, characterized in that, in order to increase the capacity of the ion exchanger on nickel, from the initial solutions first, copper is removed by known methods, after which nickel is sorbed by an amino-carboxylic ion exchanger with simultaneous neutralization of the solution being purified by acid-soluble

a substance selected from the group consisting of zinc oxide, cadmium oxide, and mixtures thereof.