DE347750C - Swimming method for concentrating minerals - Google Patents

Description

Swimming method for concentrating minerals. The invention relates to the concentration of minerals such as sulfidic ores and the like by the floating method. It is based on the observation that better results are obtained if one swimming with the addition of organic compounds to the ore or mineral mud undertakes that contain sulfur and nitrogen, especially reduced sulfur derivatives or oxidizable compounds containing nitrogen and sulfur. As organic Sulfur-nitrogen compounds have been found to be particularly effective for the said Purpose proved thioureas, thiocyanogen, thioamido compounds or sulfur derivatives of amines, amidothiophenols as well as various other compounds that lead to others Groups belong.

Among the organic nitrogen-sulfur compounds that are used the following may be mentioned: Diphenylthiourea (thiocarbanilide), Monophenylthiourea, bi-o-tolylthiourea, di-p-tolylthiourea, dixylylthiourea, Phenyl isothiocyanate, thioaniline (p-diamidodiphenyl sulfide), dehydrothio-p-toluidine, Dehydrothio-o-toluidine, dithiodiphenylamine, diphenylthiocarbazide, thiuram disulfide, Thaldine, carbothialdine, aminothiophenol, diamonophenyl disulfide. These different organic substances all contain nitrogen and sulfur. These substances need in many cases not to be used in the pure state, but they can in: impure condition or with the by-products arising from their preparation Find use. So if, for example, the sulfur compounds of amines or of other nitrogen compounds by heating the nitrogen compounds are made with sulfur and the resulting reaction mixture is liquid, so 'can be used as the mixture without isolation of the sulfur-nitrogen compounds such in their pure state can be used directly for swimming. - A Effective flotation can therefore be made by mixing toluidine with sulfur boils and the resulting product is used without further purification.

The valuable properties of many, if not all, of the above organic nitrogen-sulfur compounds are due to the fact that these compounds are in a more reduced state than the sulfidic ones There are minerals and are therefore oxidizable.

Among the nitrogen-sulfur compounds that are of particular advantage are in the practice of the method according to the invention, be thiocarbanilide or Diphenylthiourea, which is a sulfur-urea compound, and dehydrothio-p-toluidine mentioned.

When the swimming procedure is carried out, the float (s) are used unknown to the ore or mineral sludge added, for example by introduction into the mill where the ore is ground or by mixing it with water or digested and the resulting product is added to the ore sludge just before it Entering the swimming apparatus or by using the flotation device (if it is not itself easily mixed with the mineral mud) in an organic solvent or dissolves in one of the common swimming oils or oil blends, and the resulting Introduces solution into the ore sludge or in any other suitable manner which ensures the uniform distribution of the float through the mud.

Certain of the floating means listed above, e.g. B. thiocarbanilide, have a special effect as a collecting means even if they are little have foaming properties. In such cases they can be beneficial in Combination with other flotation devices that have good foaming properties, can be used, for example when using certain floating means, such as Terpineol, the very little selective effect, but good foaming properties have, thiocarbanilide the effect of such substances through its particularly good, supporting selecting and collecting properties. So this is what thiocarbanilide can do can be used advantageously to improve the swimming results achieved with other swimming equipment, such as pine oil, can be achieved.

After the float is evenly distributed through the ore sludge the resulting mixture is subjected to the swimming process, for example in an ordinary Callow cell or in other tropical swimming cells or in devices in which air is supplied to your ore sludge by mechanical agitation will.

The effect of the floating means specified above is sufficiently strong so that only a small amount of it is usually needed, for example only about 0.05 or 0.0a5 kg per ton of ore, although in certain cases even more Smaller quantities can be used, as well as in much larger quantities Quantities when the substances are used in conjunction with other swimming fluids, which have good foaming properties Have properties, are needed; so becomes a small fraction of a kilo of any means to the ton of ore are usually sufficient.

The swimming process can be used for certain ores and for certain of the means specified above, for example in the case of copper sulfite ores, by adding by alkali, such as caustic soda or lime, which the ore sludge in can be added in any suitable manner, for example by milling therewith in the ordinary mill. The amount of alkali can be, for example, 1 kg more caustic Soda to the ton of ore.

The method according to the invention can also be carried out in conjunction with ordinary Ohnischungen, as they are usually used in the swimming process, with the addition of small amounts of one or - more- '- the` - above swimming oils or oil mixtures, which are good acidic properties', such as pine oil or other wood distillation oils. These then increase the effect of the organic nitrogen-sulfur compounds and are themselves supported in their effect by such compounds.

The effect of organic nitrogen compounds in the 'swimming process seems to be based more on a selective effect on the mineral surfaces than on an effect on the water itself. The effect of the collecting substances on the mineral particle is sa very pronounced, so that it is possible to be proportionate to make large mineral particles float, so that a fine grind of less Importance is.

Claims (3)

PATENT CLAIMS: i. Swimming method for concentrating minerals, characterized by the addition of small amounts of an organic nitrogen-sulfur compound, especially of sulfur derivatives reducible or easily oxidizable Compounds containing sulfur and nitrogen, if necessary with further Addition of an alkali and a foaming floating agent. .. 2. Type of execution of the Process according to Claim t, characterized by the addition of thiocarbanilide as a collecting floating means. 3. embodiment of the method according to claim z, characterized by the addition of thiocarbanilide in conjunction with small Amounts of an aromatic amido compound.