DE966261C - Processing of ores and other minerals using the foam floating method - Google Patents

Description

Processing of ores and other minerals using the foam floating method It is a series of processes for foam floating processing of ores and minerals known to deal with the application and improvement of flotation agents on the Based on turpentine oils, resin oils, resins, also in connection with tar oils and paraffins, deal. Since these mostly alone are not ideal collector or foaming oils in flotation technology To represent the senses, a wide variety of processes are used, through polymerization or condensation with alcoholic, phenolic components, etc. Flotation agent produce that have sufficient collector properties. The higher connections are polymerized or condensed in this way, the more effective they are in general as collector oils. In terms of application technology, there is a limit to the polymerization which result in the occurrence of solid resinous precipitates or occurrence very much high viscosities.

In these cases, the emulsifiability of the oils is both economical as well as from an operational point of view is very important. Heavy emulsifiable substances are distributed in the turbidity only in coarser drops and hit statistically seen less together with the ore particles to be collected and collect sometimes even often unused as unpleasant lumps of foam. As a result, the flotation speed drops. In addition, caused by bad dispersed oil may cause uncomfortable filtering difficulties. That Filter smears easily. The phenomena of poor emulsifiability and Flocculation that occurs can be overcome by using emulsifiers. Usable emulsifiers that do not adversely affect the foam and the flotation process do not otherwise interfere in any form, have become relatively seldom known. A known auxiliary measure is the heating of the flotation agent shortly before its Mission. However, the implementation of this measure is often associated with operational difficulties linked and the evenness is often called into question.

It has been found that - in cases in which the strong collecting capacity of highly polymerized compounds is to be exploited, tetrahydrofuran is the ideal solution additive to keep the precipitating polymers and oxidation products of turpentine oil in solution and to establish operationally acceptable viscosities. Tetrahydrofuran causes the oil polymers to be distributed and wetted more quickly with the ore particles in the aqueous slurry. Tetrahydrofuran, which has recently come to the fore as an excellent solvent, has surprisingly been used very well as a modifying reagent in combination with certain collector foamer oils for special processing tasks according to the foam flotation process. The use of tetrahydrofuran offers advantages in several directions.

In addition, it has been found that some others improve significantly Adjust factors when adding tetrahydrofuran.

In the context of the invention, collector foaming oils are intended that are strong should act collectively. It is preferred for the preparation of difficult to swim Ores, both sulphidic and oxidic (lead) in nature, are envisaged. at it is often difficult for such ores to obtain good mountains from weathering, etc. H. To achieve products with low residual metal contents.

Tetrahydrofuran has not only proven to be a good solvent for organic compounds, but also numerous inorganic salts, even Proven for various oxides, the presence of thiocyanate ions being common has a solution-enhancing effect. In the case of weathered ores, e.g. B. anoxidized sulfidic Minerals, it is necessary in the interest of a good recovery, the ore surfaces by certain dissolving or sulphidating chemicals for the subsequent attack on collectors to activate. For this purpose, alkali sulfides are mostly used. It was found, that tetrahydrofuran z. B. excellently supplemented with sodium sulphide and the Faster and more thorough collector effect made possible.

It was also found that the addition of tetrahydrofuran the foaming favorable to the class of flotation oils described at the beginning being affected. The foam flows faster and is no longer as sluggish than with the sole use of such polymers.

It was also found that the chemically related furfural in is similarly effective. Even if furfurol is a somewhat more limited solvent However, it has a positive effect in flotation due to its foam-reinforcing properties Effect. There are previously known methods for the production of foams those unsaturated aldehydes, such as acrolein, cinnamaldehyde, crotonaldehyde, with monohydric aldehydes Alcohols are implemented. In the combination provided for the purposes of the invention of reactive furfural with sodium sulphide solutions, tar oils, turpentine oils, Resins, etc. result in by the way. A number of interesting ones from a flotation point of view Implementation options.

The very satisfactory effectiveness of such a device according to the invention Mixture with 15% tetrahydrofuran is illustrated by the following test examples: A foreign, partly superficially weathered pyrite ore with about 30% S content and silicate gangue was ground under 0.2 mm and with a solids content of about 25o g / l floated.

In experiment I, 1.6 t of reagents were calculated on the basis of I t kg of sulfuric acid and 12o g of the foaming oil mixture according to the invention were added.

In Comparative Experiment II, the same amount of sulfuric acid and i2o g / t pine oil taken.

The following values resulted: Attempt I. Product S weight - bring percent 0.1 o ° / o Concentrate .......... 5i55 392 69.2 Middle product ....... 43.0q. 18 ' , 6 27.0 Mountains ............... 2.72 .a.2.2 3.8 Experiment II. Weight Bring product g percent o / ' o io Concentrate .......... 5i, 36 39.3 69, o Middle product ....... 38.82 2o.5 27.2 Mountains ............... 2.82 '40.2 3.8 The tests show that the product according to the invention produces results that are equivalent to those of the best known collector frother, pine oil. The viscous condensation products could be perfectly distributed in the pulp by the addition of tetrahydrofuran, so that the same favorable flotation times could be achieved.

Claims (2)

PATENT CLAIMS: I. Process for processing ores and other minerals by the foam swimming process, characterized in that tetrahydrofuran is used in addition to collector foamer oils based on polymerized turpentine oils, tar oils, phenols or resins. 2. The method according to claim I, characterized in that furfurol is used instead of tetrahydrofuran. Publications considered: Mining Engineering magazine, January 1955, p. Io, and May 1955, p. 426; Petersen, "swimming preparation", 1936, p. 185.