SU56694A1 - Method for separating alkali sulfates and their double salts, nitrates and beads from other alkali and alkaline earth salts by flotation - Google Patents

Description

The invention concerns a process for the separation of alkali sulfates and their double salts (for example, glaserite), nitrates and borates from other alkali and alkaline earth salts by flotation.

In industrial extraction or from natural deposits, it is known to separate these salts by the method of fractional crystallization of the components when they are dissolved.

The inventor proposes to isolate glaserite, nitrates and borates from the whole mass of alkali and alkaline earth crystals without dissolving the crystals, i.e. mechanically by flotation.

The separation of these components from other salts is carried out from a saturated stock solution of the respective mixture of them. The divided mixture should be fine-grained, which is achieved by conditions of crystallization or crushing (for example, salts of natural sediments). A fine-grained mixture of salts is fed to

a flotation unit, where flotation reagents are added, which enter into a physicochemical interaction only with sulphates (and double salts of sulphates), nitrates and borates of alkaline medals and leave t concentrate in the concentrate. The other components of the mixture are concentrated in the tails.

As selective contact-foam reagents for the separation of these salts, it is proposed to use sulfuric acid (of the general formula R-O-SOsH) and sulfonic acid (R-CHj-SOsH)

aliphatic and naphthenic hydrocarbons with 4 carbon atoms in the radical and above. The amount of reagent consumed per 1 m of salt varies from 3UO to 25 g, depending on the medium, conditions and composition of the component to be separated.

As floating reagents, products from processing H2S64 of various oil runs, sulphurized production wastes (for example, bottoms from synthetic rubber, containing relevant hydrocarbons, with or without alcohols, etc.) can also be used.

The acid and alkaline environment of the mother liquors does not have a significant effect on the process of extracting these components.

When isolating components from natural deposits (for example, glaserite ores), insoluble impurities do not float with this reagent and remain mostly () in the tails.

If these salts (for example, potash salts are intended for agricultural fertilizers, where the rates are determined by the percentage of QA,

m

 2

This can be achieved by floatation by means of an appropriate commercial product, since the purity of the salt produced can be easily increased to 98 "/ o.

To obtain a chemical salt: flotation is the main preliminary operation to separate these components from the whole amount of crystals, which will greatly simplify the subsequent chemical operation, since other impurities will be in very small quantities.

The table below shows the results of four experiments on flotation of glaerite from a mixture of glaserite -fNaCl.

Stable content of KzNa (5O4) 2- glaserite in concentrate; (about) at different consumption of reagent indicates the absence of flotation of NaCl.

It should be indicated that it is possible with this group of reagents to float in acidic (with the addition of H2SO4) and alkaline (with the addition of NaOH) medium without much influence on the results.

The described method is of great importance for agricultural practice, as in the case of agricultural crops, potassium sulfates have a significant advantage over sylvite (KC1).

The subject matter of the invention.

The method of separation of alkali sulfates and their double salts, nitrates and borates from other alkali and alkaline earth salts by flotation, characterized in that ether-sulfur and sulfonic acids of aliphatic and naphthenic hydrocarbons with 4 or more carbon atoms are added as a contacting agent. the radical