DE1148570B - Process for the operation of sintering plants - Google Patents

Description

Method for operating sintering plants The invention relates to a Process for the operation of sintering plants in which the material to be sintered is placed on a belt or abandoned a rotating grate by applying a thin layer of glowing material ignited on the charge and the combustion air a part of the sintering resulting hot exhaust gases is admixed.

In the known processes for sintering iron ores or others fine-grained materials, such as B. fly dust, flotation residues or the like - materials, which are to be made lumpy by sintering - becomes the powdery or fine-grained feed material together with "the fuel causing the sintering process, for example coke breeze or other fine-grained solid fuels, directly or Applied to the belt or the rotating grate after prior pelletization, from above ignited by an auxiliary source, for example a gas or oil flame, and then sintered by singing air through the bed of material, d. H. coagulates.

A disadvantage of this known method is that the ignition difficult to ignite because of the gas or oil flame, the mostly difficult to ignite Fuel contains no or insufficient oxygen. Also is the actual sintering process Over the entire length of the tape or rust path difficult to influence, so that the Sintering process often proceeds uncontrollably, so differently than this is in itself necessary and desirable for the production of a solid sintered product. This results in slagging or partial slagging of the sintered material, see above that not only too large a grain is present, which is then in an additional operation must be broken or classified, but also deterioration of the produced Sinter by reducing its porosity as a result of the entanglement and a unfavorable influence on the possibility of reducing the sinter occurs.

Another disadvantage of the known method is that the Limitation of the temperature occurring in the material bed only in the case of very high applications Excess air lies. This excess air makes the Blower required, resulting in an increased space requirement and uneconomical increased Energy demand leads, especially when a fine-grained good and a fine-grained Fuel should be sintered because the bed of material formed from these materials alone has a higher flow resistance than a coarse-grained bed of material.

In the case of pre-roasted goods, it has also become known through a small one - a thin layer of still glowing funnel placed behind the ore funnel To apply pre-roasted food to the load. This type of sintering has however not proven, as the ignition is very often inadequate as the pre-roasted food has cooled down so that it was then necessary to clear out and refill the ignition funnel, which led to uncomfortable downtimes of the entire system. Since this is raising of heated pre-roasted material has not proven itself as an ignition means, it is common today went back to igniting by means of gas, oil or coal dust, so that then all of the disadvantages already mentioned above occur, but so far from the professional world were accepted.

The aim of the invention is a sintering process in which the ignition of the Gutbettes takes place without difficulty and the actual sintering process on the entire length of the bed is easily controllable and process interruptions There is no need to fear stoppages in the ignition system.

This object on which the invention is based is achieved by that the ignition by applying a preheated to glowing temperature, an auxiliary firing removed and applied in a glowing state to the surface of the bed of material granular and solid auxiliary fuel with simultaneous supply of clean air and the sintering is carried out with a flue gas air mixture, all Gases coming from the auxiliary firing are mixed into the air as flue gas. the Invention breaks so since the assumption of the professional world that the application of a glowing Explosive a sintered bed is not sufficient and flawless Ignition, but it has overcome this prejudice and shows a way of solving the invention in a simple and secure manner .underlying. Problem. leads.

With the new procedure comes in addition to those already asserted There are also advantages over the previous method that no special flue gas recirculation devices are required because the auxiliary firing is designed as a fluidized bed and can be operated with such an overpressure that the flue gases to the desired Position to be promoted. In addition, the finest fuel particles entrained which are also already in embers, the ignition and combustion process continue to support in the sintered layer.

The natural content of carbon dioxide and water vapor in the smoke gases can be caused by carbon dioxide and / or water vapor supplied from additional sources can be controlled at will, whereby the fan is just sprayed in with water Protected from excessively high temperatures and the regulation of the desired combustion temperature and the quality of the sintered material can be controlled in a particularly sensitive manner can.

The ignition air is possibly from one of the heat sources of the Process-fed heat exchanger preheated.

The actual sintering process is according to an embodiment of the new process divided into several zones, with the amount of flue gas admixture can be adjusted differently for each zone to thereby reduce the Sintered fuel content to be taken into account.

According to a further feature of the invention, the regulation takes place Flue gas mixture through one through the sintering temperatures or the temperatures the impulse controlled by the combustion gases escaping under the sintered grate.

Further advantages and features of the method according to the invention go from the description on the basis of the drawing. The drawing shows an embodiment of the method according to the invention.

A grate-like sinter belt 1 is fed through a feed hopper 2 with the prepared feed material, which consists of a mixture of sintered material and fuel, whereby the material to be sintered can also be pelletized. The material placed on the sintering belt 1 forms the material bed 3. The combustion gases are sucked out of the chambers 4 and 5 via a collecting space 6 and lines 7, 8 by a fan not shown in the drawing.

The ignition process takes place by means of glowing carbon drawn off from a fluidized bed furnace 9, which is applied to the surface of the material bed by the feed chute 11. The fluidized bed furnace 9 receives fresh air and its fuel through the feed device 12 via a line 10, while the exhaust gases from this furnace are sucked off through the line 13. Between the mouth of the feed chute 11 and a hood 14 arranged above the bed of material, fresh air is sucked through the glowing igniter and the bed of material via the chamber 4 arranged below the bed of material, so that a rapid ignition of the whole bed is effected.

The hood 14 is supplied with flue gases via the line 15 and fresh air via the line 16. The air and gas quantities supplied through the lines 15 and 16 can be metered by means of appropriate regulating devices and reach the hood 14 via a mixture line 17.

The collecting space 6 attached below the material bed and the one above The hood 14 arranged on the material bed can be used at will and according to the requirements be provided with several subdivisions that appear in the representation to make the drawing to clarify, are not shown. In the drawing there is also the possibility the ignition air sucked through the bed of material between the hood 14 and the feed chute 11 preheat accordingly, not shown.

In the case of a subdivision into several sintering zones, the admixture of the flue gas and thus the regulation and limitation of those occurring in the sintered bed Temperatures are particularly controlled depending on the zone, so that, for. B. the supplied Flue gas mixture initially larger in order to take into account the higher preheating in the sinter bed to wear, and then decreasing, e.g. B. is chosen increasingly in the oxygen content, so that the fuel consumption and the need to last Burning out fuel quantities completely, is taken into account. As an indicator and The impulse for regulating the flue gas admixture can change the temperature of the directly Combustion gases emerging from the upper run of the grate are used.

Of course, the invention is not limited to the example of the method described limited, but changes are possible, however, without the basic idea to leave the invention.

Claims (7)

PATENT CLAIMS: 1. Process for the operation of sintering plants in which the material to be sintered is placed on a belt or a rotating grate, ignited by applying a thin layer of glowing material to the charge and part of the hot exhaust gases produced during sintering is mixed with the combustion air, characterized in that the ignition preheated one by applying to the annealing temperature, an auxiliary firing (9) taken and in glowing state, onto the surface of the material bed (3) applied granular and solid auxiliary fuel is carried out under simultaneous supply of clean air and the sintering with a flue gas-air mixture, all of the gases coming from the auxiliary firing system (9) are mixed into the air as flue gas. 2. The method according to claim 1, characterized in that that the auxiliary fuel is taken from a fluidized bed furnace. 3. Procedure according to claim 1, characterized in that the flue gas from additional sources Carbon dioxide and / or steam is added. 4. Method according to claim 1, characterized in that the ignition air by one of the waste heat sources of the process fed heat exchanger is preheated. 5. The method according to claim 1, characterized in that the ignition air through the exhaust gases from the auxiliary furnace (9) is preheated. 6. The method according to claim 1, characterized in that the sintering process is divided into several zones, whereby the amount of smoke gas admixture is different can be adjusted to take account of the decreasing sintered fuel content to wear. 7. The method according to claim 1 to 8, characterized in that the control the flue gas embankment by means of the sinter bed temperatures or temperatures the impulse controlled by the combustion gases escaping under the sintered grate will. Documents considered: German Auslegeschrift No. 1035 040; V. T o f e 1, Textbook of Metallurgy, Leipzig 1953, 2nd edition, Vol. II, P. 62.