RU2236304C1 - Floatation collector for mica and feldspar - Google Patents

Abstract

FIELD: concentration of minerals.

SUBSTANCE: proposed floatation collector includes primary distilled amines of fraction C_10-14 and hydroxyl-containing compounds at the following ratio of reagents, wt-%: primary distilled amines, 40-80; hydroxyl-containing compounds, 60-20. Hydroxyl-containing compound is just mixture of isobutanol with aliphatic alcohols, cyclic alcohols and alcohols of dioxane or terpenic series at the following relationship: (2.5-3.5):1.

EFFECT: improved properties; high technological parameters.

6 cl, 3 tbl, 18 ex

Description

The invention relates to mineral processing, in particular to the flotation of mica and feldspars, and is intended for industrial use in processing plants.

It is known to use cationic reagents for flotation of silicate minerals - higher primary aliphatic amines: dodecylamine, flotigam, armin, genamine, etc., used in the form of aqueous solutions of these amines or their salts with mineral acids (Khan G.A., Gabrielova L.I. , Vlasova N.S. Flotation reagents and their use.- M .: Nedra, 1986, 271 s).

The disadvantages of these reagents manufactured by foreign companies are the high cost and the need for special equipment to heat the collector working solution to a temperature of 80-90 ° C due to the poor solubility of amines in water.

Closest to the invention in technical essence and the achieved results is the collector of the ANP. (USSR AS No. 1344419. B 03 D 1/02, BI, 1987, No. 38). The reagent is an amine hydrochloride of the formula RNH ₃ CL, where R = alkyl C _13-16 , and is widely used in domestic practice of flotation concentration of silicate minerals.

The disadvantages of this collector are poor solubility in water, which causes delamination of the emulsion during storage and preparation of working solutions. In addition, the ANP has a low selectivity and requires high costs for flotation of mica and feldspars. Currently, ANP production has been discontinued, so enrichment plants are in dire need of an effective domestic industrial cationic collector for flotation of mica and feldspars.

The technical result of the invention is the creation of a domestic industrial cationic collector that provides improved consumer properties and high technological performance in the flotation of mica and feldspars.

It is achieved by the fact that for the flotation of mica and feldspars, a collector is proposed containing primary aliphatic distilled amines of fraction C _10-14 and a hydroxyl-containing compound, in the following reagent ratio, wt.%: Primary distilled amines of fraction C _10-14 40-80; hydroxyl-containing compound 60-20.

When the concentration of amines in the mixture is below 40%, the technological indicators of flotation of mica and feldspars deteriorate. At an amine concentration of over 80%, the amine solubility in water decreases, and a reactor with external heating and a mechanical stirrer is required to prepare collector working solutions. With the claimed ratios of reagents, the need for this expensive equipment disappears.

The hydroxyl-containing compound is a mixture of isobutyl alcohol (IHD) with aliphatic alcohols, cyclic alcohols, dioxane or terpene alcohols in the ratio (2.5-3.5): 1 or a by-product of the production of butyl alcohols by oxosynthesis - dehydrated ether fraction (OEF) .

Isopropyl (IPA) and n-butyl alcohols (NBS) can be used as aliphatic alcohols, cyclohexyl alcohol (CHS), cyclic alcohols, and Oksal flotation reagent (TU 2452-029-05766801-94); (T-66, T-80), pine oil (SM) as terpene alcohols.

As a hydroxyl-containing compound, a by-product of the production of butyl alcohols by the method of oxosynthesis is also proposed — the dehydrated ether fraction (OEF), produced by Siburkhimprom OJSC according to TU 38-05767858-06-94.

The ether fraction is a mixture of normal and isostructural butanols, ethers, aldehydes and water. OEF contains,%: isobutyl alcohol 62.5-51.9; n-butyl alcohol 24.7-18.6; ethers of fraction C ₄ 7.5-17.4; aldehydes 0-0.2; water 1, the rest is up to 100% high boiling impurities, i.e. OEF in composition corresponds to an artificial mixture of isobutyl and n-butyl alcohols with an average ratio of 2.7. T. boil. = 100-195 ° C, MPC in the air of the working zone 10 mg / m ³ .

This is a multi-ton product, which is used to compound gasolines and oil-displacing compositions, as well as as a solvent. The price of OEF is 2 thousand rubles / t. As a hydroxyl-containing component of the collector for flotation of mica and feldspars, it is proposed for the first time.

Hydroxyl-containing compounds (HS) of the claimed composition act as a solvent, solubilizer, dispersant of primary amines, activate their action in the flotation process of mica and feldspars and provide increased stability of the collector and its aqueous solutions in a wide temperature range, contribute to an increase in the flotation rate and lower amine consumption. Outside of the claimed ratios, technological indicators of flotation are reduced.

The difference of the proposed collector from the ANP is in the method of production, product quality, hydrocarbon radical length and component composition.

ANPs are synthesized by nitration of petroleum hydrocarbons, followed by reduction of nitroparaffins and treatment of the resulting aminoparaffins with hydrochloric acid. In this case, the amine group of ANP is attached to the secondary or tertiary carbon atom.

The main component of the proposed collector are primary distilled amines of fraction C _10-14 produced by the Bereznikovsky OJSC Azot according to TU 113-00203795-018-99. They are obtained by hydrogenating amination of synthetic fatty acids of fraction C _10-16, followed by vacuum distillation. The latter contain an amino group at the end of the chain, which should provide higher selectivity in the flotation production of mica and feldspars compared to the prototype.

ANP contains, in accordance with the requirements of TU 6-02-1067-76, at least 70% of the basic substance, primary distilled amines of fraction C _10-14 (LAF) - at least 86%, i.e. The claimed collector is of the best quality.

The ANP molecule contains 13-16 carbon atoms, the LAF molecule contains 10-14 carbon atoms. This may affect the solubility of the collector in water and the ability to fix on a mineral surface.

The commercial form of the ANP collector is an amine hydrochloride, the proposed collector contains a mixture of primary distilled amines of the C ₁₀ -C ₁₈ fraction with a hydroxyl-containing compound. Its translation into the salt form is carried out in the process of preparing a working solution for flotation.

These differences from the prototype determine the conformity of the proposed proposal to the criterion of "novelty."

Collectors are used in the form of 1% solutions, which are prepared as follows.

Examples 1-18. Obtaining a 1% solution of the collector based on LAF. To 1.0 g of the collector, prepared in accordance with the ratios given in table 1, add 99 ml of a 1% solution of HC1, mix for 15 minutes at a temperature of 15-25 ° C. The resulting collector solutions are used for flotation of mica and feldspars. LAF solutions prepared with HS (op. 1-16) are stable for at least a year, solutions of LAF without HS (op. 17, 18) become turbid at temperatures below 12 ° C, ANP solutions (op. 19, 20) They are an emulsion that exfoliates when standing.

Flotation was carried out on a pegmatite ore sample TP-5. The mica content was 7.0%, the amount of feldspars was 62%. The schemes of the experiments on obtaining mica and feldspar concentrates are presented in figures 1 and 2, respectively.

The initial ore was crushed in a ball mill to the required size, de-slurred in a hydrocyclone, after which dark-colored iron-containing minerals were floated from the sands with a fatty acid collector in a soda medium. Mica was floated from the chamber product in a sulfuric acid medium (3 kg / t) (scheme of FIG. 1).

Feldspars were floated from mica flotation tails in hydrofluoric acid medium (1, 2 kg / t) (Figure 2). Feldspar tails are a quartz product. The results of the flotation of mica using the inventive collectors and the prototype are presented in table 2, feldspars in table 3.

Analysis of the data shows that:

- the highest technological indicators of mica and feldspars are achieved by using the proposed collectors in the claimed range of reagent ratios (op. 1-8,10,11,14,15) with an amine (LAF) consumption of 40-80 g / t. The extraction of mica in mica concentrate is 78.9-86.7%, i.e. 5.4-13.6% higher than that of the prototype collector ANP, and the extraction of feldspar in concentrate is 92.6-96.0%, which is 2.9-6.3% higher than that of the prototype with flow rate 50 g / t (op.19); collectors obtained outside the claimed ratios (op. 9, 12, 13) do not allow for the improvement of technological indicators compared to the ANP;

- the presence of HS in the composition of the claimed collectors can improve their physico-chemical and consumer properties compared to ANP and halve the consumption of amine during flotation.

Thus, the new collectors have improved consumer properties and high technological performance in the flotation of mica and feldspars. The inventive collectors are supposed to be used at the Malyshevskoye Ore Mining Directorate instead of the retired ANP collector.

Claims (6)

1. Collector for flotation of mica and feldspars based on primary aliphatic amines, characterized in that it contains primary distilled amines of fraction C _10-14 and a hydroxyl-containing compound in the following ratio of reactants, wt.%: Primary distilled amines of fraction C _10-14 40 -80; the hydroxyl-containing compound is 60-20, while the hydroxyl-containing compound is a mixture of isobutanol with aliphatic alcohols, cyclic alcohols, dioxane or terpene alcohols in the ratio (2.5-3.5): 1. 2. The collector according to claim 1, characterized in that isopropyl or n-butyl alcohol is used as aliphatic alcohols. 3. The collector according to claim 1, characterized in that cyclohexanol is used as cyclic alcohols. 4. The collector according to claim 1, characterized in that the flotation reagent “Oxal” is used as the alcohol of the dioxane series. 5. The collector according to claim 1, characterized in that pine oil is used as terpene alcohols. 6. The collector according to claim 1, characterized in that as a hydroxyl-containing compound, a by-product of the production of butyl alcohols by the method of oxosynthesis is a dehydrated ether fraction.

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