DE1062719B - Process for the dedusting of smoke from steel furnaces - Google Patents

Description

Process for dedusting fumes from steel melting furnaces Particularly when oxygen is used, either by itself or added in normal air when refining in steel furnaces, brown fumes which are widely carried and mean a great nuisance for the surrounding population.

These brown fumes have so far persisted in every attempt to bring them to the deposition, withdrawn. They are so fine that they can get through each and every one Go through the filter. Electrical deposition has also proven impracticable proven. Even the wet separation has so far remained ineffective, so that it was believed to have to assume that the dust contained in the smoke is difficult to wet be. Adding water or other substances that consume a lot of heat to the Formation points of this smoke in or on the iron bath leads to sufficient Cooling effect to the fact that the formation of the smoke is suppressed, but it is associated with the disadvantage of so strong cooling of the bath that the application of Oxygen then largely fulfills its essential purpose, namely the use of the excess heat, loses.

According to an older proposal that is not yet state-of-the-art belongs, should be used to separate the dust from converter exhaust gases, especially when Blowing steel with oxygen or oxygen-enriched wind, water jets are thrown through the exhaust gas flow at such a high pressure that none Noticeable evaporation occurs, but the dust particles are carried away. To Another proposal is to cool converter chimneys just above the Converter mouth water in finely divided form into the exhaust gas flow in any direction to be blown into this.

The high heat of evaporation of the water should provide effective cooling of the chimney. The evaporating water causes a wetting of the Sputum, so that it no longer sticks to the walls of the chimney, but collects loosely at the bottom of the chimney, and at the same time a wetting of the exhaust gas The fine dust particles carried along by the electricity are required for subsequent dedusting would be prepared. The amount of water required for effective cooling is here 50 to 701 per t of pig iron to be blown.

Compared to the known methods, there is the method according to the invention the possibility of separating these brown fumes economically and effectively and, if applicable, the solids contained in the smoke for technical use to win. In order to have the possibility of this extraction, in the new process the formation of brown fumes cannot be suppressed, as is the case with the addition of Water or other substances that consume a lot of heat at the point where the brown smoke happens. Furthermore, the dust-like smoke particles should not absorbed and separated by liquid water and also not by adding water be wetted to the flame. According to the invention, smoking is preferred water vapor is added to the flame, and it is essential that the water vapor absorbed by the flame takes place. The greater the amount of added The more effective is the separation of the dust from the smoke. When refining pig iron to steel, the additional amount should be at least 25 kg per ton of pig iron be. It is to be distributed over the bubble period.

As already proposed, it can be the chimney or fume cupboard of the steel melting furnace can be designed as a steam boiler and part of that of the boiler generated steam are blown into the flame or smoke. After that the flue gases are brought below the dew point by cooling and / or relaxation. It has been shown, surprisingly, that when the mist formation then occurs the fine suspended particles are excellently wettable and are located in the mist droplets accumulate. This mist containing the smoke particles can now be known per se Way to separate easily.

With high water vapor additions, it rains after falling below the dew point most of the fog in the open air will clear itself. Even more effective is after according to the invention Adding H20 z. B. spraying the flue gas with water, which at the same time brought about a strong cooling of the flue gas to below the dew point can be.

It can also be an electrical separation of the smoke particles containing fog.

The separated smoke particles represent oxides in the finest grain size and are after drying and appropriate further treatment for many technical Purposes, e.g. B. in the oxidized initial state for paints, or reduced as catalysts, of great value. In those cases where the deposited immersion particles are technically wants to use, it is advisable to remove any coarser particles before falling below the Separate dew point from H20-holding flue gas, which in a known manner by dust collector, e.g. B. cyclones or electrical separators happen can.

PATENT CLAIM: 1. Process for dedusting fumes from steel melting furnaces, which occur particularly when exposed to oxygen or oxygen-rich enriched Forming gases on the molten bath of the furnaces, as well as, if necessary, to obtain the brown smoke particles for further use by adding water to the smoke, preferably in the flame, characterized in that water vapor in a minimum amount of 25 kg per ton of pig iron is added and then the smoke is added to below the dew point be cooled and / or relaxed and finally that containing the solid particles Fog is precipitated in a manner known per se.

Claims (1)

2. The method according to claim 1, characterized in that any coarser particles before falling below the dew point in a manner known per se are separated, whereupon the remaining finer particles recovered for themselves will. Documents considered: German Patent No. 800 015. Older Patents Considered: German Patents No. 923 254, 929 010.