SU1039576A1 - Potassium containing ore concentration method - Google Patents

Abstract

A method of enriching potassium-containing Ruy, including crushing, mixing ore in a nastoyenny saline solution, conditioning with a modifier, introducing a cat collector and foaming the plant, and flotation of potassium chloride, characterized in that, in order to increase the extraction of chlorine, flooding of potassium chloride, characterized in that, in order to increase the extraction of chlorine, flooding potassium chloride, characterized in that, in order to increase the extraction of chlorine, flooding potassium chloride, characterized in that, in order to increase the extraction of chlorine, flooding potassium chloride, characterized in that, in order to increase the extraction of chlorine, flooding potassium chloride, which is aimed at increasing the extraction of calcium chloride in the production of potassium chloride, which is designed to increase the extraction of calcium chloride by flooding the potassium chloride with potassium chloride; mixed cellulose ethers are introduced, containing tertiary amino groups and / or quaternary ammonium bases of the total forlula XV oo 2 with SP where R, RjH Rj - aliphatic saturated an unsaturated and / or unsaturated radical of a normal or branched structure; n is the number of cellulose units not containing the R group; m is the number of cellulose units containing R groups; p + m - the degree of polymerization of cellulose, 1001000 cu; 1 - the degree of substitution in the groups K, 0.5-1.2, HE -, s-to-DoUc (-OCHN2-CH) e-in J m CHO -

Description

The invention relates to the enrichment of potash ores containing clay-to-carbonate slimes and can be used in the flotation of sylvinite ores. Known methods of flotation of potassium ores, carried out using m collectors and modifiers. The latter reduce the sorption of collectors and hydrophilize the surface of sludge particles, which ensures the flotation selectivity of useful components of potash ores. Polyacrylamide Cl, acidic liquid glass mixed with polyacrylamide, urea-formaldehyde resins, and other reagents are used as modifiers. The sodium carboxymethylcellulose sodium salt is widely used in industry. The disadvantages of these methods are reduced efficiency, low recovery of potassium minerals into the finished product, and large consumption of reagents (Na-CMC on the order of 600 g / ton of ore). The closest in technical essence and the achieved result to the proposed is the method, -f CftH702 (OH) 5.klOR) K4-f Ce LJnl (1-, 02 {OH 1 (о R) - water-soluble cellulose derivative; R - hydroxyethyl, hydroxypropyl methyl and / or carboxyl radical; K - degree of cellulose etherization, (0-2.1); R - groups of quaternary ammonium base Ri. and / or amine groups Ri.. where R., R - and R-1 is an aliphatic saturated and / or unsaturated radical of normal or branched structure; n is the number of cellulose units not containing 1 group R of potassium-containing enrichment d, including crushing, mixing ore in brine, conditioning with a modifier, introducing a cation collector and foaming agent and flotation of potassium chloride Gs. The disadvantage of this method is low recovery of potassium chloride in the concentrate. The purpose of the invention is the continuous extraction of potassium chloride in the concentrate less consumption of the reagent modifier. The goal is achieved by that. that, according to the Oubeisy method, of potassium-containing LABs, including crushing, mixing ore in brine, conditioning with a modifier, introducing a cationic collector and foaming agent, and potassium flotation, tertiary amine groups and / are given in the conditioning as a modifiertorg1. Quaternary aJvI o monium bases of the general formula vJU. -1 Wi-K-llOK) l-O-CHj-CHle4 .tiH- J m is the number of cellulose units containing Rl,. n + m is the degree of polymerization of cellulose (100-1000 cu;;) 1 is the degree of substitution in the K 0.5-1.2 groups. The method of enriching potassium-containing ores is carried out in the following manner. The original ore is crushed, mixed: in a saturated salt solution, then a CMC modifier reagent is added, a collector reagent is added — a mixture of octadecylamine and amines C, -Cj-Berezniki ATK in a 1: 1 ratio, a pine oil frother and a potassium chloride flotation is carried out . Flotation is carried out in a 0.5 liter chamber of a laboratory flotation machine 137FL for 3 minutes. Instead of Na-CMC, cationic cellulose derivatives (CCP) are used. The use of cationic cellulose derivatives NaKPT increases extraction of potassium chloride by 2-3% with the same consumption of aliphatic amines and 3-6 times less consumption of the modifier reagent. Thus, the proposed modifier reagent improves the technical and economic indicators of the flotation of potash minerals by increasing the recovery of potassium chloride in the concentrate and reducing the consumption of reagents.

Claims (1)

'METHOD FOR ENRICHMENT OF POTASSIUM ORES, including crushing, mixing the ore in saturated saline, conditioning with a modifier, introducing a cationic collector and blowing agent and flotation of potassium chloride, characterized in that, in order to increase the extraction of potassium chloride into the concentrate, they are introduced into the conditioning as a modifier mixed cellulose ethers containing tertiary amino groups and / or quaternary ammonium groups of the general formula C ₆ H ₇ 0 ₂ (0H) s_k (0K) to he C _in H ₇ 0 ₂ (he) z-k-1 (0K) k (-0-SI ₂ -Sn) e k · where C ^^ OjCOH ^^ OR) ^ is a water-soluble cellulose derivative; R is an hydroxyethyl, hydroxypropyl, methyl, and / or carboxyl radical; k is the degree of etherification of cellulose; 0-2.1; R ¹ - groups Quaternary ammonium base; where R ^, Rj and R _{3 are an} aliphatic saturated and / or unsaturated radical of a normal or branched structure, ' SU ,, „1039576 η is the number of cellulose units not containing the R ¹ group; m is the number of cellulose units containing R ’groups; and / or amine groups n + m — cellulose polymerization degree, 1001000 cu; 1 - degree of substitution in groups R ¹ , 0.5-1.2.