SU1710137A1 - Method of floatation of potassium ores - Google Patents

Abstract

The invention relates to the enrichment of minerals and m. used in the flotation of potassium ores. The purpose of the invention is to improve the technological performance by improving the selectivity of the process. The method of flotation of potassium-containing ores includes pretreatment of pulp with a degressor, subsequent conditioning with an emulsion of a collector based on salts of higher aliphatic amines by a blowing agent on the basis of cube remnants of periodic distillation of caprolactam production and release of potassium chloride into a frothy product. The bottoms of the periodic distillation of caprolactam production are introduced into the process in a mixture with an alcohol-containing product at an MX ratio of from 1: 1 to 7: 1. As alcohol-containing products use pine oil, T-66. vat residues of Cs-Ce alcohols, a high boiling point product of the production of dimethyl dioxane from the isobutene-isobutylene fraction and formaldehyde or light (reagent NK-82) or heavy (reagent SOP-83) of its vacuum rectification. The method allows to increase the extraction of potassium chloride in the concentrate by 0.5-3.0% while improving its quality by an average of 3.5% 2 Cp. The invention relates to the enrichment of minerals by flotation and can be used in enterprises of the potash industry, processing sylvinite ores and producing potash fertilizers. • * * • Known methods for flotation of potassium ores using as foaming agents alcohol reagents, frothers, containing alcohols of various chemical nature: (pine oil, vat residue, alcohols Sb-Sb, reagent T-66, etc.). The closest to the proposed technical essence This result achieved is the use of periodic distillation of caprolactam production (KODK) as a blowing agent for the bottoms residue. However, due to its accumulation in working liquors and an increase in foam stability, the quality of the concentrate also decreases with time.

Description

The purpose of the invention is to improve the technological performance by improving the selectivity of the flotation process of potassium-containing ores.

The goal is achieved by the method of flotation of potassium-containing ores, including sequential treatment of ore with a depressor and an emulsion mixture of salts of higher aliphatic amines with a foaming agent based on the bottoms of the periodic distillation of caprolactam production, CODK is introduced into the process in combination with alcohol-containing products at a COD ratio: alcohol 7: 1 - 1: 1, and as the alcohol-containing products use pine oil, reagent T-66, the bottoms of the alcohol Sb-Sat, high-boiling side prod The production of dimethyl dioxane from the isubutene-isobutylene fraction and formaldehyde (PP or, light, or heavy fraction of its vacuum distillation.

The pine oil contains aromatic alcohols - a, ft, and y - terpineols. T-bb reagent is a mixture of dioxane alcohols. The bottoms residue of Sb-Sb alcohols (for example, the alcohol fraction) contains amyl alcohol of normal and iso-structure, as well as cyclohexanol and cyclopentanol - a foam concentrate SPC. The high boiling point by-product of the production of dimethyl dioxane from isobutene-isobutylene fraction and formaldehyde contains considerable quantities of higher dirls, unsaturated alcohols, trimethylcarbinals, etc. A light fraction of its vacuum distillation - reagent NK-82, and the hard fraction - reagent SOP, consists of mono- and polyhydric alcohols of various chemical natures.

The proposed method allows to significantly increase the efficiency of the flotation process for the production of potash fertilizers, both by increasing the hydrophobization of the potassium chloride surface due to the co-adsorption of the collector and KODK, which is confirmed by IR spectroscopic studies, and by the dispersing and stabilizing effect of the alcohol frothers on colloidal solutions of higher aliphatic salts amines. In addition, the rate of clarification of clay-salt suspensions significantly increases and, consequently, the content of clay-carbonate sludge in the concentrate decreases, which ensures the best flotation properties of the proposed combination of reagents during mineral processing.

The blowing agent was tested during flotation of sylvinite ore with a grain size of up to 0.5 mm with a KCI content of 25.4%, an insoluble residue (nl) of 3.2%. The flotation results were compared with the data obtained during the flotation of such ore when using the known CODK and pine oil as a foaming agent (base object).

PRI me R 1. A portion of sylvinite

0 ores in the amount of 50 g are mixed with a saturated salt solution at a solid-to-liquid ratio T: W 1: 3 for 3 minutes, after which a reagent depressant is injected — 1% solution of sodium carboxymethylcellulose (Na-CMC) in an amount of 600 g / ton of ore, agitate for 3 minutes, then an emulsion mix collector is supplied (amine consumption 60 g / ton of ore) with a blowing agent, which is used as a CODK in combination with an alcohol fraction

0 Sat-Sat with a ratio of CODK: alcohol 3: 1. (total foaming agent consumption 8 g / t). After that, the ore is conditioned for 1 min and then floated.

The experiments were conducted in the laboratory.

5, a 150 cm flotation machine. The resulting flotation solids are separated from the brine in a saturated Buchner funnel. The dehydrated flotation products are dried, weighed, worn down to a particle size of -0.1 mm, and the content of KCI in the concentrate and tails is determined by flame photometry and tetraphenylborate.

Get concentrate containing

5 86.6% KCI with extraction of 97.9%, whereas by a known method of 82.5 and 95.5%, respectively.

Example 2. The process is carried out under the conditions of example 1, except for that.

0 that the blowing agent is introduced at a KODKhpirt ratio of 7: 1. A concentrate is obtained containing 86.1% KCI, while extracting it into a concentrate of 97.8%.

Example 3: The process is carried out in

5 conditions of example 1, but reagent NK-82 is introduced together with KODK as a alcohol-containing product at a ratio of 3: 1. A concentrate is obtained containing 86.5% KCI when it is extracted from ore 97.8%.

EXAMPLE 4 The process is carried out under the conditions of Example 1, except that pine is used as an alcohol-containing blowing agent in a mixture with KODK.

5 oil at a ratio of 1: 1. Get the product containing 84.8% of the COP when removing it into a concentrate of 97.0%.

Comparative technological indicators of sylvinite ore flotation by

proposed and known methods are presented in the table.

From the data in the table it follows that the use of the proposed method using the combination of CODK with alcohol blowing agents as foaming agent allows to significantly increase the selectivity of the flotation process, increase the content of potassium chloride in the concentrate by an average of 3.5% and increase its extraction from ore by 0, 53, 0%.

The increased floatability of potassium chloride in the case of using the proposed combination of reagents is due to its group chemical composition and physicochemical characteristics.

F o r mula inventions

Claims (3)

1. The method of flotation of potassium-containing ores, including pretreatment of pulp with a depressor, subsequent conditioning with a collector emulsion based on salts of higher aliphatic amines with a bottoms-based blowing agent residues of periodic distillation of caprolactam production and isolation of potassium chloride in a froth product, characterized in that, in order to improve technological performance by improving the selectivity of the process, the bottom residues of periodic distillation of caprolactam production are mixed with the alcohol-containing product before being introduced into the process. 2. A pop method, 1, characterized in that the bottoms of the periodic distillation of caprolactam production and alcohol-containing products are mixed in a ratio of 1: 1-7: 1. 3. The method according to p. 1, except that as the alcohol-containing products use pine oil T-bb, bottom residues sp et Sb-Sat, high-boiling by-product of dimethyl dioxane production from isobutene-isobutylene fraction and formaldehyde or a light or heavy fraction of its vacuum distillation. Continued table.