SU1310341A1 - Method for flotation extraction of nonferrous metal ions from diluted aqueous solutions - Google Patents

Abstract

The invention relates to methods for purifying dilute aqueous solutions from non-ferrous metal ions and can be used in non-ferrous metallurgy, chemical industry, instrumentation and other enterprises. The aim of the invention is to increase the recovery rate of non-ferrous metal ions. The invention is a method of flotation extraction of non-ferrous metal ions from dilute aqueous solutions, including pretreatment by a precipitator, using soluble salts of N-alkylamino-monopropionate of the general formula R-NH-CHj-CH -COOX, where X is H, Na, K, W, and R - an alkyl radical with the number of carbon atoms from 7 to 27. Table 2. (L: o: o. 1

Description

The invention relates to methods for purifying dilute aqueous solutions from non-ferrous metal ions and can be used in non-ferrous metallurgy, chemical industry, instrument making, etc.

The purpose of the invention is to increase the degree of distant extraction of non-ferrous metal ions from dilute aqueous solutions,

Soluble salts of N-alkylaminomonopropionate of the general formula R — NH — CHj — CH —COOX are used as a precipitator, where X is H, Na +, K, W,

R - alkyl radical with the number of carbon atoms from 7 to 27. The choice of AAMP with the number of carbon atoms in the alkyl radical of molecules from 7 to 27 is due to the fact that when the number of carbon atoms in the alkyl radical of AAMP molecules is less than 7, they do not precipitate metal ions in solution (due to the formation of relatively well soluble compounds with them). When the number of carbon atoms in the hydrocarbon radical of AAMP molecules is greater than 27, AAMP micelles are formed in solution, which do not interact with metal ions and thereby reduce the degree of flotation extraction of ions.

Tab. 1 confirms the optimality of the proposed limit values for the length of the alkyl radical of AAMP molecules.

The method is carried out as follows.

With stirring, a solution of 0.4% AAMP is added to solutions containing 10-100 mg / l of metal, which, together with metal ions, give an insoluble product — a precipitate having a natural flotation rate — 1-2 minutes after adding, to Air bubbles with a diameter of 0.1-1.0 mm are introduced into the test AMPA solutions into them from below. Bubbles, floating up, precipitate particles and carry them to the surface of the solutions.

With the help of AAMP by flotation at pH 8.0, flotation time 8 minutes, collector consumption 2 mol per 1 mol lead up to 93% lead can be extracted: at flotation time 15 min, collector consumption 3.6 mol per 1 mole REE - 75 % Europ (pH 07.0), 80% Samarin (pH 8.5) and 98% Neodymium (pH 9.0).

Example 1. In the chamber of the flotation machine brand 136B-FL placed 1 liter of water containing 30 mg / l of lead and having a pH value of 8.0. A 0.4% aqueous solution of AAMP is added to the water at the rate of -2 mol per 1 mol of lead and the water is stirred for 2-3 minutes. Then the water is blown in for 10 minutes by air at an air flow rate of 0.2 l / min. The sublate skin formed on the surface of the solutions is mechanically removed. As a result of the process, 93% of lead contained in water passes into the foam.

Example 2. In the chamber of the flotation machine is placed 1 liter of water containing 50 mg / l of neodymium and having. pH value 9.0. A 0.4% aqueous solution of AAMP at a rate of 3.6 mol per 1 mol of neodymium is introduced into water and the solution is stirred for 2-3 minutes. The water is then purged with air for 15 minutes. As a result of the process, 98% of neodymium containing water is transferred to the subcoat.

Under the conditions of experiments similar to those shown in examples 1 and 2, flotation metal extraction was carried out.

water from various pH values.

The results of the flotation extraction of metals at various pH values of water are presented in Table 2.

When using AAMP as a precipitator and collector at the same time, the degree of europium recovery increases by 25% to 75% (50% by a known method), and the extraction of samarium and neodymium is respectively 80 and 98%, and the method is simplified.

Claims (1)

Invention Formula A method for flotation extraction of colored ions; metals from dilute aqueous solutions, including pretreatment by precipitating agent, characterized in that, in order to increase the recovery rate, soluble salts of alkylamino monopropionate of the general formula R-NH-CHj-CHj -COOX where X is H, Na, K., W; R is an alkyl radical with a carbon number from 7 to 27. 4-6 7-9 18-20 25-27 28-30 10 76 90 96 25 12 79 89 98 45 PH value The degree of extraction,% 7.0 10.0 6.5 8.5 10.0 5.0 7.0 9.0 7.0 10.0 80 82 42 80 60 43 75 40 58 93 10 76 90 96 25 12 79 89 98 45 table 2