DE589737C - Process for agglomerating or sintering fine ores - Google Patents

Description

Process for agglomerating or sintering fine ores It is known . that in the lump-making, agglomeration and sintering of in particular for Smelting certain fine-grained substances, e.g. B. Fine ores, the type of used Fuel is and has a decisive influence on the course of the process Suitability of the agglomerates for further processing to a large extent depends on the type of fuel added.

On the other hand, one naturally tries to find the cheapest or inferior quality possible To use fuels in the stucco 1111 sintering apparatus.

The present invention is based on the finding that for a satisfactory plastering process, d. H. so for achieving more suitable Agglomerates, or sintered products, do not depend on fuel costs alone may, but that other properties of the fuel for the present purposes must be taken into account to a high degree.

As is well known, the main requirement for a good agglomerate is in particular one that is to be processed in the blast furnace and shaft furnace, in that it is porous and pressure-resistant at the same time, d. H. the agglomerates must the passage and influence of the gases that develop in the furnace, accessible and on the other hand strong enough not to be affected by the pressure of the to be worn down on them by burdening the load. Therefore it is also allowed to agglomerate or sintering, there is no continuous melting that affects the pores of the material to be sintered would clog; The agglomerates must also have sufficient "cohesion" and sufficient Possess strength to withstand crushing that is normal for the oven disturbs and increases the risk of airborne dust formation. It is therefore during agglomeration and sintering have always endeavored to add a fuel to the fine goods, which enables the formation of a carrier or skeleton without melting occurring.

The present one meets these needs to a surprisingly high degree Invention in the use of the particular from the smoke chambers of locomotives so-called smoke chamber extinguishers originating from the chopping up of fine goods, and that before only in the case of suction sintering.

Compared to the fuels commonly used in agglomeration, this smoke chamber extinguisher already has very special properties due to its formation. It is in a kind of prepared state for this, because it has an extremely uniform grain size, is lighter than other fuels and is already partially degassed. It generally contains only about 3 % volatile components. However, volatile components must be extracted as gases during suction sintering. As a result, the usable fan power is reduced in the present case. In addition, due to the low proportion of volatile components, the amount of exhaust gas to be heated is smaller and thus the required heat consumption is reduced.

It is also highly flammable and easily combustible. Based on this the extraordinarily remarkable fact that the sintering process in use it goes on much more powerfully and faster than with other common fuels, like in particular coal, coal slaughtered or coke extinguishing. As a result, the danger is the melting is significantly reduced because, as is well known, the melting is to a large extent depends on the length of time. But here the piecework is already completed, before the melting can occur on a large scale. 'Furthermore, the uniform grain size or the uniform distribution of the inorganic components the quenching within the sintered material achieves the formation of gums that guarantees the guarantee for the load-bearing capacity of the agglomerates and reduces the risk of dust formation.

Due to their light weight and their evenly grained texture the smoke box extinguisher can also be mixed very intimately and comfortably with the sintered material, so that an excellent even loosening of the material on the sintering belt or rust is reached.

The ash content of the smoke chamber extinguisher, which is known to be 20 % and more, is a very desirable addition for the sintering process. there; it occurs in finely divided, uniform form and acts as a solidifying flux without impairing the porosity; because at the individual points where the ashes come into contact with the sintered material, cementing occurs in the shortest possible time, but without closing the pores of the neighboring material parts.

Also in the subsequent processing of the agglomerates by reduction processes the even distribution of the ash content of the Rauchlcatnmerl'ösche for the Slagging very welcome.

The surprisingly accelerating effect of adding Rauchkarnmerlösche The sintering also appears when the smoke chamber is extinguished Mixed with fuels. The higher the addition of smoke chamber solution, the faster the sintering process takes place. So you have it in your hand by adding Smoke chamber extinguishers to regulate the course of sintering. The one achieved by the invention Success in improving the sintered products and increasing the performance of the sintering plant makes it even seem advantageous to put larger amounts of fuel in in relation to thermal units per unit of quantity of the sintered material than when using the fuels commonly used up to now.

Instead of the smoke chamber extinguishers formed in the smoke chambers of the locomotives are substances that arise in similar apparatus and facilities in the same way Manner applicable for the present purposes.

Claims (1)

CLAIM TO PATENT: Process for agglomerating or sintering fine ores, characterized in that - smoke chamber extinguishers as fuel or fuel surcharge, preferably from the smoke chambers of locomotives.