DE172128C - - Google Patents

Description

asked

aanwvvi-ivnci

(Sru-i-nae

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVi 172128 CLASS 40 «. GROUP

Dr. J. SAVELSBERG in PAPENBURG a. Ems.

sulphurous aggregates, coal and fluxes.

Patented in the German Empire on January 21, 1905.

The extraction of some metals, e.g. B. nickel, cobalt, copper, etc., happens as is well known in such a way that the corresponding ores are fused in the shaft furnace on stone, with those in the ores metals contained in the stone (nickel stone, copper stone, etc.) go and from the latter can be obtained through further processing.

While some ores, e.g. B. copper

■ o gravel, enough sulfur for stone formation contain, the required sulfur must be artificially added to others, and although in the form of sulfur or sulfur-containing compounds.

The ores of the latter type include, inter alia. the New Caledonian nickel respectively. Cobalt ores, which are the metals to be extracted (nickel and cobalt) in oxidic form contain. If they are to be fused into one stone, the sulfur must be with them be slammed in some form. Mentioned ores are very much in themselves Difficult to melt, but are also in one for shaft furnace operation very unfavorable condition as they are mostly powdery. To them on Nickelstein To be able to merge, one proceeded in the following way: The ores were with sulfur or sulfur-containing compounds and fluxes and then the mixture is briquetted and the briquettes are then im Shaft furnace for the extraction of nickel stone melted down.

Briquetting is very expensive and one achieves its purpose, the ores in addition to slamming in piece form up to the melting point of the shaft furnace, but only imperfect, because the briquettes are already partially in the upper part of the shaft furnace disintegrate. With the disintegration of the briquettes, however, there are further inconveniences and costs tied together. 1. The furnace loading is too tight and the aisle is too tight difficult, depressed its performance and consumed a lot of coke. 2. It larger flue dust formation occurs because the dense furnace corridor means that the pressure is higher Must use wind, which blows away powdery ore. 3. One has substantial Loss of sulfur due to the addition of the briquettes due to the disintegration Sulfur is partially exposed and burns uselessly; therefore you have to have a big one Apply excess sulfur to the sulphurisation of the metals contained in the ore to reach.

The purpose of the present invention is to eliminate briquetting and the above listed evils by a new one, running in a single process Sulphurizing and sintering process by means of blowing in the pear or in any other other suitable device. For this purpose, the ores containing sulfur and the other surcharges and some powdered coal well mixed and in one Pear placed on glowing fuel or glowing ore, while at the same time

air is blown through the mass. Because of the fuel contained in the pear the charge is heated so that the sulfur reacts and mixes with the Combines metals contained in the ore to form sulfur metals. That in this process The sulfur dioxide that forms is immediately converted back to sulfur by the glowing charcoal in the mixture

ίο reduced. The heat of reaction released during this process is so large that it is sufficient to propagate the process without additional external heat input and bring the ore to sinter. When the process is finished, the originally powdery charge forms one sintered mass, which contains the metals to be extracted as sulfur metals. The sintered mass can be broken into pieces and easily melted down to stone in a blast furnace.

The advantages that result from the present process are quite significant: I. The labor and cost of briquetting are eliminated.

2. The melting material is excellently prepared for the shaft furnace by placing it in Lump form of hard texture and brought by the previous sintering Obtains the desirable properties especially for the melting process. Through this will

3. Saved fuel (coke) and significantly increased the efficiency of the blast furnace increased.

4. It saves on sulfur because the sulphurisation process in the pear takes place with ease can be directed so that the sulphurisation of the metals takes place with the smallest excess of sulfur.

5. The formation of airborne dust is greatly reduced.

, 6. “A rich stone will be obtained.

7. A perfectly dry material is melted, while ore briquettes have a greater water content.

The technical effect of the present invention thus turns out to be quite a bc significant improvement "and cheaper compared to the previously usual procedures.

In the process described above: you can also use the sulfur-containing additive: Sulfates, e.g. B. plaster of paris, apply. In this case it is recommended to reduce de Sulphates to sulphides of the mixture still be special an additional amount of a re reducing substance, e.g. B. Coal powder to mix in.

From other sintering processes, that is, carried out by blowing in the pear be and where the combustion; heat of sulfur for entertainment de; Process and is used for sintering the ores, the present process is significantly different. Because with those mentioned Process involves desulfurization processes (roasting processes), which aim to expel the sulfur from its compounds in the form of sulfur dioxide, The heat released during the combustion of the sulfur is used to sinter the ores.

The present process is completely opposite to the above, because it is a sulphurisation process; it aims sulfur in the ore to bring in and does not use the heat of combustion of sulfur to the maintenance of the operation and Sinte- ¹ tion of the ore, but the heat of reaction, represented by the compound of sulfur: is released with the heavy metals of the ore.

Claims (1)

Patent claim: Process for the sulphurization of oxy-i-dic ores or the like, in particular of [ Nickel and cobalt ores, with the aid of sulfur or sulfur-containing additives, coal and flux, characterized in that the mixture: of ores and aggregates in a pear · is blown until sintering. i