SU717148A1 - Method of precipitating non-ferrous metal sulfides - Google Patents

Description

 . The invention relates to hydrometallurgy of non-ferrous metals, in particular to methods for the recovery of heavy non-ferrous metals, for example copper, nickel and aqueous solutions by precipitating them as sulphides. There is a known method for the precipitation of nonferrous metal sulphides from aqueous solutions and sulphides by sulphidisadium 11. , By this method, the separation of colored sulphides. metals lead sulfur dissolved in any alkali. However, with this method, the content of non-ferrous metals in the final product is reduced, and the consumption of the precipitating reagent is high. The aim of the invention is to increase the content of non-ferrous metals in the final product and to reduce the consumption of the precipitating reagent. This is achieved by the fact that sulfidization is carried out by a mixture of metallic iron and sulfur dissolved in alkali. Metallic iron, which is simultaneously introduced into a solution containing non-ferrous metals with a solution of sulfur in alkali. creates in solution a redox potential that promotes the involvement of low-active forms of dissolved sulfur in the precipitation process. At the same time, the required consumption of jiacTBOpa sulfur in alkali is significantly reduced, and the final product is significantly less polluted by elemental sulfur and other non-sulfide products released during the precipitation process. Example. Deposition is carried out from a nickel sulphate solution with a nickel content of 10.4 g / l, pH 1.85 at 80 ° C and moving for 1 hour. A solution of sulfur in lime milk containing 200 g of dissolved sulfur per 1 l of solution is used as a precipitator. and metallic iron at the rate of 0.75-1.0 g per 1 g of deposited nickel. The deposition rates at 99% nickel extraction into the sediment without the addition of metallic iron and with the addition of iron powder reduced by hydrogen at two different expenses are shown in the table.

The composition differs from the known higher content of non-ferrous metal in the sediment and the mea- surem consumption of the sulfur solution in the oil is very good. Iron mostly goes into the body | He is not very polluted by the sediment.

The proposed method is used to extract copper, nickel, and cobalt from solutions and slurries obtained by riprt processing and refining the nickel containing ores and

concentrates.

The method of nonferrous metal sulphides tiA bland solutions and sulphidization slurries, differing from the fact that, in order to maintain the content of non-ferrous metals in sediment and consumption of reagents, the sulfidization is carried out with a mixture of metal nH4ecfcoro iron h dissolved in alkali

 Sources of information, Take} e into account during the examination 1. USSR author's certificate No. 579745, lbs. From 01 G 1/12. 1972.

Claims (1)

_<5 Formula and I take it and I A method of deposition of colored metal sulphides from aqueous solutions and slurries sulfidiza- tion _h, w u and returns minutes with the I that '· In order to increase the content of colored fishing metal2o the precipitate and fall reagentovosaditeley, sulfidization are a mixture of metallic iron and sulfur, dissolved in alkali • Sources of information taken into account during the examination 1. USSR copyright certificate No. 579745, cl. C 01 6 1/12, 1972.