DE376947C - Process for the production of sponge iron in a rotary kiln - Google Patents

Description

Process for the production of sponge iron in a rotary kiln. One of oldest attempts to an economical production of the iron from its ores to strive for bypassing the blast furnace or the racing fire process more economically should be given in the German patent specification 24) 5 from 1877 be.

According to this proposal, a mixture of ore, flux and Coal in a rotating chamber, the diameter of which is almost the length of the chamber soon came to be treated with a flame, in which a complete combustion the gases should take place, just as it is the case with racing fire. In In this chamber the charge was treated in such a way that d-i, e at one end .The flame entering the chamber exits at the same end of the chamber, so that the entire chamber or the entire loading of the same evenly on the same Temperature is heated, so the whole load. in the same phase the, processing is located. In addition, the temperature should be in the whole chamber be kept so high that a liquid slag is formed at the end of the reduction which is supposed to protect the sponge iron against oxidation.

With these methods, however, it was not possible to get rid of those clinging to the racing fire To eliminate drawbacks so that it has been dropped until more recently the attempts to make it practically usable were taken up again have been. -The reason for the inefficiency or the large fuel consumption was seen in the older experiment in that a complete combustion of the Heating gases took place, so there was a strong oxidizing atmosphere in the chamber.

Therefore suggested inan, z. B. according to the patent 157580 and the American patent 930764 suggests heating by reducing gases cause. Instead of the rotating chamber operating in batches, the Patent specification 2495 a continuously operating tubular furnace can be used.

The ore should, however, as with all proposals made by the Iron reduction in the rotary kiln aimed at, processed in finely ground condition will.

But even this furnace must have a very poor efficiency and with work with a low reduction coefficient, since a good utilization of the Fuel i! Ur with complete exhaustion and not using a strong one reducing flame to heat the 1Töllers or even by means of a process can be achieved in your, as in the patent 257582, the reduction of Ore not by the solid coal, but mainly by the strongly reducing Heating gases should be effected.

According to the invention, the disadvantages of the reduction process in the rotating furnace are not eliminated by using a reducing flame for internal heating of the same, but rather only by the fact that the combustion dW Aden @ löller im Countercurrent heating se with a sufficient Luftüberscht1B egg, @ "Buried, not just the ones introduced into the drum, but also volatile in the same developed flammable substances without achieving the required for slag formation temperature to burn the protected by the carbon additive against reoxidation Moller within the drum.

It has been found that this is the reduction in the rotary kiln under such favorable conditions that the reduction takes place without Protective slag formation can be driven up to 85 percent Fe and above, There are no significant carbon oxides in the gases escaping from the rotary kiln are located, so that the process by the highest possible heat yield of Fuel.

In the successful tests, the temperature of the Möllers at the end of the discharge was: d, the rotary kiln about 90 ° C, while the At this point, the gas has a temperature of wa 100 ° C and left the rotary kiln at about .f000 ° C.

The conditions created by the process eliminate the need for pulverization of the ore without reducing the degree of reduction.

Since the amount of burnt to be introduced into the rotary kiln is produced by combustion that is as complete as possible, and the carbon oxide developed during the reduction of the ore by the solid fuel is still burned in the kiln by an original excess of oxygen mixed with the heating gases or by secondary air introduced into the kiln , The gases escaping from the rotary kiln do not contain any significant quantities of flammable gases, so that the fuel is used with very good efficiency.

According to the American patent specification 1050735 it has already been proposed been able to completely burn the heating gases introduced into the rotary kiln, but the combustion did not take place with an excess of air, so that in the rotary kiln self-developed volatile flammable substances escaped unburned and one and the greater the reduction in the rotary kiln, the greater the heat loss goes. Incidentally, no reference is made to this reduction in the publication mentioned Value placed, although> they are not under the conditions created in the rotary kiln can be avoided entirely, rather the intention is merely to preheat the goods, in order to reduce the power consumption in the electric oven connected behind it.

Due to the fact that in the new process the exhaust gases do not have any significant quantities contain combustible gas (carbon dioxide), the new process is both this and superior to the floch furnace process.

The heat of the exhaust gases can still be used to preheat the Möllers and the Combustion air can be used. From this point of view it is advisable to with the ore and the coal, at the same time, those necessary for the formation of slag Add additives such as lime and fluorspar, although the heating in the tube furnace does not take place until the formation of slag. So it is only a question of heat utilization to heat the supplements. The sponge iron produced in the rotary roller furnace is melted down in a second furnace.

The heating gases used to heat the rotary kiln can pass through Burning any fuel can be generated. The amount of- in the tube furnace imported carbon oxide must not be used for the sake of economic heat yield be high that a reducing flame or atmosphere is formed in the tube furnace, rather, the flame should also burn that developed in the furnace itself volatile flammable substances only have the most favorable caloric effect possible exercise while the reduction itself exclusively by being mixed with ore solid fuel is effected.

Claims (1)

PATENT CLAIM: Process for the production of sponge iron in a rotary kiln from a mixture of iron ores and solid reducing substances by means of countercurrent heating gases, characterized in that the combustion is carried out with such an excess of air that not only the heating gases introduced, but also the volatile combustible substances developed Burn within the rotary kiln without reaching the temperature required for slag formation of the Möllers protected against deoxidation by the addition of coal.