DE251968C - - Google Patents

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PATENT LETTERING

- M 251968 - 'CLASS 4Qa. GROUP

A. H. BRAUSS & CO. in Hamburg.

Process for melting sulphidic ores in a shaft furnace.

Patented in the German Empire on April 19, 1910.

The previous method, unroasted sulfur ores on a rich stone or on raw metals to merge, apply the well-known copper-Bessemer principle more or less unchanged by converting the crucible of the shaft furnace into a converter, or by using converter-like vessels as furnaces for the Use raw sulfur ores task.

Opposite these is the present one

ίο melting process in it, shaft furnaces more common Construction from 3 to 6 m high and otherwise in suitable dimensions with Wind pressures of one or more atmospheres overpressure, which cause a correspondingly high wind speed in the nozzles.

In this form, the process is a reversal of the copper-Bessemer principle; because during the Bessemer process, high-pressure air flows through a liquid sulphide bath are passed, the new method leaves the in the melting zone of the furnace drip liquefied sulfide streams through an air bath.

In the Bessemer process, the desired oxidation limit of the sulfides is determined by the length of time the action of air is regulated and limited, while the oxidation in the new process is only regulated by the intensity of the air bath, because with the latter method the Duration of action invariably given by the height of fall of the liquefied sulfides is.

This reversal of the Bessemer principle has the advantage of using the shaft furnace at the same time as use an uninterrupted converter and in it sulfides of all kinds, their Oxides are reducible by carbon, to be able to fuse, so without restricting the application to copper. The more distant one The advantage of the new process is that the heat of oxidation is more slageable Metals, e.g. B. iron, can be used as heat of fusion in such a way that one Production of over 50 percent stone and even raw metals in a single operation nothing stands in the way, and that furthermore with simultaneous abandonment of raw or coked Coal the oxidation and slagging of usable metals, e.g. B. also of iron, any is limited.

As a side success it should be mentioned that the high pressure allows up to 90 percent moisture remove from the fan air when using isothermal compression fans; the advantage of dry forced air with regard to heat savings and the resulting higher furnace output is known.

For the application of the process shaft furnaces from 3 to 6 m high and blower can be used known design can be used in suitable dimensions; however, of course, the fans must be so designed be that they are able to keep the blower wind below the respective required high pressure to lead to the furnace, in which he with high, through the pressure in the Nozzles dependent speed occurs and in which it occurs evenly in the area of the melting zone must be distributed, because through the exchange of energy with the blower wind, the sulfides or sulfates of the ore are within

of the melting zone decomposed, and their components oxidize on the blower wind in the order their exothermic heat expression and to the extent of the free oxygen present. Was decomposed by the oxidation of Sulphides release too much heat or unburned sulfur disrupts the smelting operation, so you can, before fusing, a part of the sulfur in sintering furnace as far as

ίο if necessary let it burn out.

Too little heat in the furnace is supplemented by adding raw or coked coal. the Management of the melt path, including the formation of slag, takes place according to known methods Principles.

The main difference between the new process and all previous processes insists that while the latter is just a variation of the copper converter process the new procedure is a complete reversal of the principle of the previous one and, because used in the shaft furnace enables uninterrupted operation.

The necessary amount of air, compressed according to the need, is determined by the choice of the nozzle diameter regulated.

Claims (1)

Patent claim: Process for melting sulphidic ores in a shaft furnace, characterized in that that the ores in the shaft furnace are exposed to one or more atmospheres be exposed to compressed wind current.