DE273277C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 18 «. GROUP

Storage of fuel.

Patented in the German Empire on January 16, 1913.

The sintering of fine ores and metallurgical products such as B. flue dust, gravel burn-off, without prior briquetting, ζ. Β.

according to patent 210742, was previously done by mixing the materials to be sintered with Fuel, ζ. B. coke, and blowing the mixture in special vessels.

This type of sintering has the disadvantage that the admixture of fuel in addition to the material to be sintered, a reduction of the iron oxide to iron oxide and subsequent slagging of the iron oxide takes place with the gangue of the ores and the fuel ash. Such sintered Therefore, instead of sintered ore, ore often contains slagged ore, which is reducible in the blast furnace and the value of the sintered product.

In the case of very fine ores, e.g. B. gout dust, leached gravel burns, treatment products, Metal ashes, etc., the dump height must be taken very low in the previous method so that the blown air can penetrate. This of course makes it very difficult to use the fuel. In fact, the

'Fuel consumption for sintering a disproportionate higher.

The new process avoids adding the fuel to the fuel to be sintered Ore etc. and provides for the combustion of the fuel outside of the ore particles. The procedure consists in charging the ore and fuel in such a way that that alternate layers of ore and fuel, such that the fuel is within the ore column is charged in a columnar shape parallel to the furnace wall. This latter type of charging takes place in such a way that before charging with ore, etc. z. B. thin sheet metal tubes in certain Placed at intervals in the blowing vessel and around them the ore, etc. is charged. The sheet metal tubes are then filled with fuel and removed from the ore column pulled out, whereby the fuel is stored in the form of a column in the ore mass. Charging can also be carried out in a ring by using cylinders placed one inside the other take place during charging, the annular spaces alternating with Ore and fuel are filled. This type of charging has the following advantages:

1. Saving the cost of mixing ore and fuel.

2. The coal burns within the ore mass without any significant reduction and To cause slagging and without the escape of the last sulfur fractions To prevent slagging.

3. The ore column can be raised as high as you like be as the air easily sideways through the fuel and the combustion gases penetrate sufficiently deep into the thin ore layer, roasting and sintering it. Of the Fuel consumption is reduced to a minimum by using a high ore column.

pressed. After a high ore column has burned through, most of it is already cold, which makes emptying and transporting the sintered material much easier.
4. Due to the gaps that form as a result of the burning out of the fuel, the sintered material breaks by itself into manageable pieces when emptying, as required by the blast furnace.

5. The air consumption during sintering is due to the considerable fuel saving and the good utilization of the combustion air due to the high ore column lower compared to previous processes, which means that the sintering costs are correspondingly higher * to decrease.

The procedure is carried out as follows: The in the above manner with fuel charged, e.g. B. ore column located in a cylindrical tiltable vessel is above or ignited down in some way and blown air through the ore fuel column, whereby the fuel burns through the whole ore column, roasting and sintering it together.

Claims (1)

Patent claim: Process for roasting and sintering ores and metallurgical products, e.g. B. iron and manganese ores, gravel burns, blast furnace dust, cover, etc., by blowing with separate storage of the fuel, thereby characterized in that the fuel in the grate or sintered material in columnar, vertical layers directed parallel to the air flow is arranged.