DE2461840A1 - Iron oxide conversion into iron - by mixing with coal dust, carbon black and resin, forming briquettes and reducing in blast furnace - Google Patents

Abstract

Iron oxide is produced by forming finely divided iron oxide into briquettes using a binder, the oxide being mixed with coal powder or dust contg. >=8% volatiles or coke powder or dust, and charging the briquettes into a blast furnace. The briquettes are also claimed. The process allows the use of iron oxide dust formed in blast furnace smokes and L.

Description

Iron Oxide Material for Melting The invention relates to iron oxide material for melting or

Smelting and a process for the production of iron from finely divided Iron oxide material.

In certain processes in the iron and steel industry such as iron oxide material formed as fine dust. In the case of blast furnaces, the smoke dust contains, for example, finely divided material Iron (III) oxide. This material is also in flue dust from L D converters available. Currently, these finely divided metal oxide dust materials have one low commercial value as their delicacy makes reuse difficult. It is costly and troublesome to dispose of these materials. The present The invention has for its object to provide means that this material is useful can be used.

The invention relates to a process for the production of iron of finely divided iron oxide material, which is characterized in that one finely divided Iron oxide material with powdered coal or coal dust, which is less than% by weight Contain volatile material or with powdered coke or coke dust into briquettes or compacts using deformed a binder and loaded a blast furnace with the pellets. The iron oxide can be smoke duct dust (so-called flue dust) or smoke dust (so-called fume dust). Part or all of it Material thereof can be powdered or hammered Rust must be replaced.

It is a particular advantage of the method according to the invention that you can send smoke duct dust or smoke dust.

In performing the above procedure, the iron oxide material becomes mixed with coal or coke as a reducing agent and processed into compacts. Such compacts can be fed directly into a known blast furnace. Although it.

it is possible to feed a blast furnace with such pellets alone, In practice, the compacts are used as part of the charge and the rest the feed consists of common materials such as iron ore and coke. In order to use the compacts in a blast furnace, the compacts must have a have suitable physical strength, particularly when carbonized will. The finely divided oxide material must not be immediately disintegrated by the Pressings are released. The finely divided material can, as described above, Smoke dust or chimney dust, and such finely divided powder can easily be carried out of the blast furnace with the outgoing gases, and therefore must the compacts hold this finely divided powder until the oxide is reduced.

The invention relates to compacts containing finely divided material Ice; enoxide together with powdered coal or coal dust, formed from one Coal that contains less than 3% by weight volatile matter or powdered coke or coke dust together with between 1 1/4 and 2 3/4 weight percent soot and between 2 1/2 and 40 / a. a thermosetting binder resin, which in the 0-carbonization Carbon yields> where the proportions of oxide material and carbon are chosen will, that an excess of coal over the stoichiometrically required amount for the Reduction of the oxide is present. The proportions of carbon black are preferably between 1 1/2 and 2 1/2 percent by weight, and preferably essentially 50 percent by weight of the resin. The amount of resin is preferably between 2 1/2 and 3 1/2%.

The invention also relates to a method for production the compact, which is characterized in that a finely divided iron oxide with powdered coal or coal dust formed from a coal with less than 8% by weight of volatile material, or together with powdered coke or coke powder with 2 1/2 to 4% by weight of a thermosetting binder resin, which in the carbonization Coal results, and mixed with 1 1/4 to 2 3/4% by weight of carbon black, the carbon black as a suspension is formed in water and mixed with the other materials, and wherein the mixture is then processed into compacts and the resin is cured. As stated above, the amount of resin is preferably between 2 1/2 and 3 1/2% and the Amount of carbon black preferably between 1 1/2 and 2 1/2%. The amount of water becomes so small as possible and using the minimum amount required to make a malleable paste; the amount of water is typically 8 Parts by weight for åe 100 parts of remaining materials.

In these compacts, carbon black is used in water suspension.

Although carbon black is widely used in industry, carbon black paste, formed from soot and water as a waste product from oil refineries and Available to carbon black manufacturers. These materials are generally produced when they are damp Gas cleaning washes. In the process according to the invention, this carbon black paste is used Production of compacts of appropriate strength used, made of coal or Coke dust or powder and the oxide material such as finely divided iron (III) oxide, that as smoke dust or smoke duct dust is known, manufactured will. Due to the intimate mixture of finely divided carbon with the oxide material is the physical strength of the compacts both in the green state before they hardened (when van der Waals forces give the material cohesion), and also in the hardened state, when the soot is used to remove the voids in the case of coarser Filling coal or coke material increases.

In particular, during the melting process by the Intimate mixture of carbon black and oxide material increases both the strength and the Reduction of the oxide material in the compacts facilitated. The increased strength at high temperatures is due to the fact that the carbon in the grids, which are formed by the resin penetrates. This increased strength allows the chemical process thus proceed without the compacts disintegrating, wherein the need for the carbon monoxide to be in contact with the finely divided oxide material comes, is diminished. This form of pellets can reduce the oxide material, without the finely divided oxide material being released. The possibility that that finely divided material escapes with outgoing gases, is thus greatly reduced.

The present invention is particularly suitable for applying it to finely divided Iron oxide, which is available as smoke dust or smoke duct dust. In order to obtain adequate strength of the compacts, it is preferred to use a To use excess coal or coke, and typically the amount is of iron oxide between 20 and 40 per cent of the total weight of the compacts. The oxide content can be as high as 45, but in practice the upper limit is set by stickiness the mixture determined in the manufacture of the compacts. Because of this it is usually preferred to use about 40% iron oxide.

Since the compacts are usually made to contain the iron oxide material to use, the amount of this material in the compacts will usually be so high as possible be selected, the choice being in the above Limitations must be in agreement. The charcoal used is not very volatile Coal and preferably anthracite with less than 8% volatile substances (known than high quality anthracite). For this purpose, an anthracite fine coal is usually used such as those that will pass through a 0.32 cm (1 / 8th inch) screen. Such Charcoal contains the finer materials if the washed charcoal is screened by a colliery.

A phenyl-formaldehyde resin is suitably used as the resin, although other thermosetting resins such as melamine or a urea based resin or an aniline-based resin or a furan resin or a furfural alcohol resin can be used.

In order to improve the green strength of the compacts, a starch mixed with the oxide, coal or coke, resin and soot, and typically 1 gelatinized starch is used.

The iron oxide can be smoke dust or smoke duct dust, such as it was previously described, or it may be partially or completely rust or mill hammer contained in powder form.

The compacts, which were formed from iron oxide as described above, can be placed in a conventional blast furnace or they can be placed in a foundry cupola are given. As previously described, they are usually only included as part of the Charging a blast furnace or cupola used, depending on the composition of oxide dust.

The following example illustrates the invention.

Example compacts are produced by adding 40% by weight of smoke dust or smoke duct dust with 2% carbon black, 4% phenyl formaldehyde resin and 1% gelatinized Starch mixed, with the rest high quality anthracite being used, which is through a 0.32 cm (1 / 8th inch) screen passes through it. The soot appears as a suspension in water is used and enough water is added to the mixture to make it deformable Making paste.

After mixing, the material becomes compacts using deformed a compact deforming device, as it is used for the production of coal briquettes or -preßlingen used. The molded compacts are then placed in a curing oven passed at such a temperature that the resin hardens.

The compacts formed in this way have a high compressive strength and can be used as part of the feed to a conventional blast furnace. at The soot combines with the carbonized resin at the high temperatures in the furnace and forms a carbon lattice, which gives it a relatively high strength allows the reduction of the iron oxide to occur before the compact disintegrates.

Claims (23)

Claims 1. Process for the production of iron from finely divided iron oxide material, characterized in that one made of finely divided iron oxide material with powdered Coal or pulverized coal containing less than 81% volatile matter, or with powdered coke or coke dust forms compacts using a binder and put the pellets in a furnace. 2. The method according to claim 1, characterized in that the iron oxide material Contains smoke dust from a blast furnace. 3. The method according to claim 1 or 2, characterized in that the Iron oxide material contains flue dust from an L D converter. 4. The method according to any one of the preceding claims, characterized in that that the binder contains carbon black and that a thermosetting resin is used, which yields carbon during carbonization. 5. Compact containing finely divided iron oxide together with powdered Coal or pulverized coal formed from a coal with less than 8% by weight volatile Material, or powdered coke or coke dust along with between 1 1/4 and 2 3/4 weight percent carbon black and between 2 1/2 and 4 weight percent thermosetting binder resin, which carbonization results in carbon, the proportion of oxide material and Coal is chosen so that an excess of carbon over the stoichiometric Amount required to reduce the oxide is available. 6. compact according to claim 5, characterized in that the proportion of carbon black is between 1 1/2 and 2 1/2 wt.%. 7. compact according to claim 5, characterized in that the amount of carbon black is essentially 50o based on the weight of the resin. 8. compact according to one of claims 5 to 7, characterized in that that the amount of resin is between 2 1/2 and 3 1/2 wt.%. 9. compact according to one of claims 5 to 8, characterized in that that the amount of iron oxide is between 20 and 45% by weight. 10. compact according to claim 9, characterized in that the amount of iron oxide is between 20 and 40% by weight. 11. compact according to one of claims 5 to 10, characterized in that that the coal is anthracite. 12. compact according to one of claims 5 to 11, characterized in that that the resin is a phenolic resin. 13. compact according to claim 12, characterized in that the resin Lein is phenyl formaldehyde resin. 14. compact according to one of claims 5 to 11, characterized in that that the resin is a melamine resin or a urea-based resin or a resin aniline-based or a furan resin or a furfural alcohol resin. 15. compact according to one of claims 5 to 14, characterized in that that at least part of the iron oxide is smoke dust from a blast furnace or smoke duct dust from an L D converter. 16. compact according to one of claims 5 to 14, characterized in that that at least a part of the iron oxide mill hammer blow or iron rust in powder form is. 17. A method for producing a compact, characterized in that that finely divided iron oxide is formed with powdered coal or coal dust from a coal with less than 8 wt.% volatile material, or with powdered Coke or coke dust along with between 2 1/2 and 4 weight percent of a thermoset Binder resin, which gives carbon on carbonization, and between 1 1/4 and 2 3/4% by weight of carbon black are mixed, the carbon black being made into a suspension in water and this suspension is mixed with the other materials, the mixture deformed into compacts and the resin hardens. 18. The method according to claim 17, characterized in that the amount of resin is between 2 1/2 and 3 1/2 wt.%. 19. The method according to claim 17 or 18, characterized in that the proportion of carbon black is between 1 1/2 and 2 1/2% by weight. 20. The method according to any one of claims 17 to 19, characterized in that that a starch with the oxide, the coal or the coke, the resin and the soot the curing of the resin is mixed. 21. The method according to claim 20, characterized in that the proportion of starch is between 1/2 and 1 1/2 wt.%. 22. The method according to claim 20 or 21, characterized in that gelatinized starch is used as the starch. 23. The method according to any one of claims 17 to 22, characterized in that that as iron oxide smoke dust from a blast furnace or smoke duct dust from a L D converter used.