DE1508075A1 - Process for the extraction of iron and steel - Google Patents

Description

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1A-32 512

Description of the patent application

SHEIL INTERNATIONAL RESEARCH MAATSCHAPPIJ H.V. 30, Carel van Bylandtlaan, Haag, ITi e der lande

"concerning
"Process for the extraction of iron and steel".

The invention relates to a method for the extraction of iron and steel from ores in a furnace, wherein together with the) ore and the fluxes are a carbonaceous material and an oxidizing agent are abandoned, which serve as a reducing agent or as a means of applying the required thermal energy.

The inventive method allows the production of Raw and steel of a certain composition in a single stage. No further pricking is therefore required.

According to the method according to the invention, the ore is melted down and reduced, whereby a layer is formed. melted Forms iron, which is covered by a layer of slag.

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COPY

All or part of the carbonaceous material is introduced into the bath of molten ore, iron and slag; Furthermore some of the oxidizing agent is introduced into the slag layer below the point at which the carbonaceous Material is added. In this way there is a precisely adjustable gradient in the oxygen potential within the slag layer achieved; in the upper part of the slag layer is a Metal of the desired composition is formed, which then sinks through the area with higher oxygen potential.

The carbonaceous material can be solid, liquid or gaseous _; a, such as B. coke, heating oil or natural gas. An essential feature of the method according to the invention is that the carbon-containing material is introduced exclusively into the upper part of the slag layer, so that a state of significantly higher reducing effect is maintained there than is required internally for the reduction of iron oxide to metallic iron a reducing gas develops, consisting essentially of carbon monoxide and hydrogen.

Due to the reducing effect of the upper part of the slag layer the metallic iron is formed there and due to the high surface tension at the intermediate surface of slag and Iron accumulates in the form of small drops, which are relatively slow sink through the rest of the slag layer, the lower part of which has an oxidizing environment, as the oxidizing agents are there be introduced, e.g. B. oxygen or oxygen-enriched air or any suitable material, optionally also

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BATH ORIGINAL

an oxide of iron. In this way go through the in the upper part The iron droplets formed in the slag layer form a region with a significantly higher oxygen level, in which then at least a part the accompanying elements from the ores that were reduced together with the iron, e.g. B. the silicon and the phosphorus, reoxidized will.

Used as an oxidizing agent, oxygen or oxygen-enriched If air is used, the amount applied should be 50 # of that for ™ do not exceed the required amount for complete combustion of the reducing agent.

The point at which the carbonaceous material is fed depends to a certain extent on the type of material mainly on its reducing properties. Becomes a pestilent if used like coke or coal, it can be placed on top of the slag layer. Through the from the slag layer escaping reducing gases, it is there before a reaction with any oxidizing component of the furnace atmosphere protected and the gases form a protective layer around the solid carbon.

According to the invention, the carbonaceous material can advantageously be used in the form of a liquid hydrocarbon * Part of it is injected directly into the slag layer, namely below the surface of the slag layer, but in their upper part.

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At the temperature at which the Schlackensohicht is held, each hydrocarbon decomposed by cracking and em is deposited carbon, the immediately by the molten metal

is absorbed and in the same way as solid carbon

ι acts as a reducing agent by forming the iron oxide

That

: reduced from carbon monoxide to iron / carbon monoxide escapes together with which separated by the cracking of the carbon dehydrated those hydrogen from the bath, so that a layer of reducing gas is present in the immediate vicinity of the B) slag layer, which is the zone of the metallurgical reaction and any solid carbon present on the slag surface before the action protects the furnace atmosphere.

When a solid reducing agent such as coal or coke is used, the reducing potential in the reducing zone becomes large be high and it is expected that quite considerable amounts of tramp elements such as silicon and phosphorus along with the Iron can be reduced from the iron ores; A particular advantage ™ of using liquid hydrocarbons is in it too see that the carbon is then formed by cracking the hydrocarbons, so that in general a somewhat smaller one There is a reduction potential that is sufficient to do so, so good like all silicon oxides reduce to iron, but only to a limited extent Amounts of accompanying elements reduced. However, the reduced proportions of such accompanying elements should be sufficient to Finished product required composition and thus the required one Steel or iron grade.

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For this purpose, a further refining process would actually be necessary, as is the case with the usual steel production also with the pail. According to the process according to the invention, however, the whole process can be carried out in a single step by introducing an oxidizing agent into the lower part of the slag layer. Although in the present process the residence time in the oven is lower than in conventional steel production processes and the oxygen potential in general lies lower than them, particularly when iron oxide is used as an oxidizing agent, the large m contact surface ensured between the iron and the slag-a sequence of the small iron droplets is that the reaction rate is sufficiently high to remove most of the accompanying elements of the iron. This is particularly true when iron is smelted with the aid of liquid hydrocarbons in an area of relatively low reduction capacity, so that it has a low carbon content and the starting ore has only a small proportion of accompanying elements and impurities.

The furnace temperature and thus the temperature of the material present in the melt is generally at least 1350 ° G. Additional heating is generally required for this, which is why at least a portion of the oxidizing agent is introduced into the upper furnace area. This gives the oxidant together with the flammable gases that escape from the melt, a fuel mixture that has the required temperatures safe to adhere to.

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There is so much oxidizing agent after the process of the invention introduced into the space above the bath that the heat developed by the combustion of the gas escaping from the bath sufficient to maintain the operating temperature of the furnace.

In order to avoid excessive wear and tear on the refractory lining of the furnace from the melt, the furnace is filled with water from the outside chilled.

In general, the composition of the finished product then corresponds on the one hand the reduction potential in the upper part of the slag layer, on the other hand the oxidizing ability of the lower part Part of the slag layer, as also the potentials of the various oxidation and reduction reactions that take place during the Depending on the temperature, the composition of the end product is also a function of the smelting process Temperature and in the ideal case the system should be as low as possible t temperature operated. The lower limit for the operating temperature however, largely depends on the carbon content of the product, as it must be kept in a liquid state. In general, if a working temperature is maintained that is as close as possible to the melting temperature of the The finished product is an iron with a low proportion of accompanying elements and impurities (other than sulfur and carbon) are obtained. Then it becomes a relatively low-sulfur hydrocarbon used as a reducing agent, so can the sulfur and

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Carbon content of the finished product can be kept low and the crude steel is already suitable as structural steel without another Irish or fine is required.

A particular advantage of the method according to the invention is that oxygen or oxygen-enriched air as Oxidizing agents can be used. The combustion of the fuel takes place partially below the surface of the melt, so that Heat develops inside the bath and the heat transfer is simplified will.

The gases leaving the furnace have a high content of sensible heat and can also have a considerable reducing effect. These gases can be used to preheat and / or prereduce the ores to be abandoned or to preheat other raw materials and Reaction components such as oxygen, the reducing agent or the flux are used. Preheating is either done exclusively by utilizing the sensible heat of the gases or by burning these gases with air or oxygen-enriched ones Air or with technical oxygen, in which case the sensible heat of the combustion gases comes into play.

Depending on the type of ore to be smelted and the desired quality of the metal to be obtained, the slag becomes acidic or basic. The flux for correct adherence the basicity, viscosity and liquefaction temperature of the slag are abandoned along with the Ereen. Suitable fluxes are

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Lime, limestone, dolomite, silicates and feldspar, single or mixed, "calculated on a slag of the desired composition "with simultaneous charging with the ores under consideration of the gait content.

The ores to be charged can have the usual grain size; however, if preheating and / or prereduction is used, the grain size is largely determined by the requirements of this process stage.

The method according to the invention obviously enables the desired composition of the finished product to be set quite precisely. Since the accompanying elements and impurities in the ores can be greatly reduced when working according to the invention and since the carbon content can be kept at least below a limit value of 0.2 ° when using an appropriate hydrocarbon fuel and the hydrocarbon fuels normally only have a low ash content, All that remains is the need to select iron fuel with a low or negligible sulfur content in order to ensure, according to the invention, an exact setting of the steel quality. In this way it is possible to obtain a product directly which, in terms of its analysis, corresponds approximately to structural steels. Further freshening or refining is therefore normally unnecessary, but in special cases it can be carried out with far less expenditure of time and money than with the products of the usual smelting processes.

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Claims (6)

Claims 1. Process for the extraction of iron and steel from ores, using a carbonaceous material as a reducing agent and a Oxidizing agent for applying the heat energy required for the metallurgical reactions together with the ores and fluxes are added to the furnace and the ore is melted down and reduced so that the molten metal that forms is covered by a layer of slag, characterized in that at least part of the carbonaceous Material is fed into the bath containing molten ore, iron and slag and that part of the Oxidant is introduced into the slag layer below the point at which the carbonaceous material is fed is, in such a way that an adjustable oxygen potential is maintained within the slag layer, which the Composition of the oxygen potential formed within the upper part of the slag layer and through a region of higher oxygen potential downward sinking metal determined. 2. The method according to claim 1, characterized in that that one uses a liquid or gaseous hydrocarbon as the carbonaceous material and this into the Introduces slag layer. 909808/0928 3. The method according to claim 1 or 2, characterized in that oxidizing agent is introduced and in the space above the melt uses the heat released by the combustion of the exhaust gases from the bath heat to maintain the operating temperature of the furnace maintained. 4. The method according to claim 1 bin 3, characterized in that the exhaust gases ent v / calibrated from the bath ^ used as a reducing agent to pre-reduce iron ores in a separate process stage. 5. The method according to claim 1 to 4, characterized in that the exhaust gases aun the bath for preheating of the carbonaceous material and / or the oxidizing agent is used. 6. The method according to claim 1 to 4, characterized in that g e k e η η - fc draws that one burns the exhaust gases from the bath and the combustion gases formed are used to preheat the substances introduced into the reactor. 8629 909808/0928