DE718999C - Process for swimming and sink processing of hard coal or the like. - Google Patents

Description

Process for swimming and sinking treatment of coal or the like. The object of the invention is a method for swimming and sinking treatment of Hard coal or the like

It is known to convert hard coal into heavy liquids by means of sinking separation the liquids consist of water and finely ground magnetite. The present invention has set itself the task of a substitute for to find the magnetite present in Germany only to a limited extent.

The specific gravity of the magnetite is 5.2 in the pure state. But it is closed note that magnetite is never completely pure, but always in close intergrowth with the host rock, mainly with apatite. The practical specific gravity of magnetite consequently is only 4.5. When grinding magnetite, apatite is ground very finely and results in a colloidal suspension in the water, which increases the viscosity (viscosity) ; the heavy fluid increased. This is an extremely large disadvantage because so that the sharpness of separation between the substances to be separated is considerably reduced. The other minerals to be considered, whose deposits are in Germany have a specific gravity that is not sufficiently high for the heavy fluid process. For example, the specific weight of barite is practically only 3.5. In contrast the weighting fabrics according to the invention have a significantly higher specific gravity, the to 5, i goes.

A swimming and sinking procedure has already become known iron oxides are used as a weighting substance. It is also known to iron ores, partly for example in preparation for the blast furnace, by roasting and / or sintering to treat.

According to the 'invention are used as a weighting substance for the separating liquid sintered iron ores or sintered roasted products of iron ores, e.g. B. gravel burns, used.

The production of a weighting substance can be carried out according to the following embodiment: Starting material: silica disulfide concentrate with a3.60'@i Fe and 49.80o S, ie et «-a- 93.4») o Fe S, - @ - gangue. For roasting, the ore was crushed to less than 5 mm and roasted in the usual and known manner in order to remove most of its sulfur content. After roasting, the good had 62.20; o Fe and ioo; o gangue with a specific gravity of about ¢, 8. For the sintering process, the roasted material was then mixed with 5% 1% okshlein q. mm and iz% water mixed and sintered on an induction draft sintered pot in a known manner at a temperature of 300 to 1350 '. The material to be sintered contained 64, 50, `o Fe and consisted for the most part of Fe; O,; The latter was also confirmed by the fact that both the lumpy sinter and the ground material had strongly magnetic properties. The specific gravity of the ground sintered material was 5.1.

It is also noted that when using Eisencarbon.at (Spateisenstein) is not necessary, as a starting material already roasted Spateisenstein to use. One can rather expel the carbonic acid and agglomeration the Spateisenstein in a known manner in a single operation, d. H. in one single sintering process. One becomes, generally speaking, the occurring ones Ores only pre-roast if the two tasks to be solved according to the invention are, namely the expulsion of certain elements from the ore and the lumpigm.achun.g of the ore in as dense and less porous form as possible, contradict each other. Then it is, such as B. iron pyrite, required that one in a first roasting process the sulfur drives off and only then this gravel burn-off with the addition of fuel finished sinters.

The substitute material obtained in this way has all the main properties that a Must have weighting material for the preparation process. These are: High Weight, wear resistance, resistance to previous influences and good grindability.

A wide variety of ferrous ores such. B. pebbles, magnetic pebbles, spate iron, arsenic lime, marcasite and the like. Used will. Meggen gravel burns can also be used as raw material for the final sintering.

Claims (1)

PATENT CLAIM: Process for floating and sinking treatment of hard coal o. D, -, 1. by means of heavy liquid from finely divided solids using iron ores. characterized in that sintered iron ores or sintered roasting products of iron ores, e.g. B. liiesabbrände can be used.