SU25929A1 - Method of burning coal dust in rotary kilns designed for smelting metals - Google Patents

Description

The present invention relates to a method of burning coal dust in rotary smelting furnaces, mainly intended for smelting iron or similar metals and yogic people to replace the cupolas used up to now in most cases. However, with such rotating 1Tlava furnaces operating either with continuous rotation, such as the so-called drum-type furnaces, or performing a back-and-forward movement during the operation, as the so-called swing furnaces, up to this time it has not been possible to achieve satisfactory operation when heated with coal dust due to that when entering the fuel directly into the furnace through a burner of the usual type, ash from coal coal accumulates on the bath, as a result of which, on the one hand, the smelting process slows down, and on the other hand the quality of Aulus emogo metal.

To eliminate this drawback, a special chamber was often used in front of the smelting furnace, in which, for the most part, coal dust was burning and ash settled. However, with such stoves with an avancamera, the temperature in the latter develops too high, which leads to premature destruction of the masonry walls, while developing too high a distance from the melting bath the high temperature is not able to heat this bath sufficiently. Thus, the economic work with this method is unattainable.

In the proposed method, the combustion of coal dust, the combustion air is fed into the furnace under high pressure or at such a high rate, the ash produced during the combustion process is blown through the furnace and removed together with the flue gases.

The drawing shows schematically a device for applying a method of burning gol dust in rotary kilns for smelting metals.

The proposed method of burning coal dust in rotary kilns designed for smelting metals, incl. It is found that the combustion air is supplied to the furnace under high pressure (for example, several hundred mm of water) or with such great consistency that the ash produced during combustion is blown through the furnace and therefore cannot settle on the bath. The high temperatures resulting from the combustion of coal dust, which for this time have always entailed the rapid destruction of the walls of the avant-chamber, in this case act directly on the molten metal and on the walls of the smelting furnace, but not the cause of these walls of harm, as a result of continuous rotation of the furnace parts of its walls, heated to a high temperature, constantly fall under the melted material and give their heat to the latter, while the cooler parts of the walls fall into the flame sphere and after heating neither are under the melted material again.

In this way, it is possible to produce smelting in the shortest possible time, and at the same time in an economical way, since, on the one hand, the molten material is directly affected both by the flame of its hottest part and by the hot walls of the furnace, which is not there is some significant settling of ash on the smelting bath, which impedes the transfer of heat. Due to the shorter duration of the smelting process and the elimination of close contact of the ash with the melted material, the latter is not able to perceive harmful substances, such as sulfur and phosphorus, from ash or coal dust, which mainly takes place in cupolas. On the other hand, due to the rotational movement of the furnace, the process of separation of impurities from the melting bath is facilitated and closer mixing of the various constituent parts of the charge is achieved. Thus, by melting the metal according to this method, a product is obtained that is unattainable to this time. uniformity and density

A. L -

structure and high value qualities of strength. The fuel and air are supplied in such a way that coal dust is first blown out of the nozzle by a stream of air at an insignificant pressure of about 10 mm, and this mixture flows around the second stream of air entering the combustion chamber at a much higher pressure of about 400 mm. water column.

In the device shown in the drawing, the melting furnace lying on the bricks and already known to rotate around the horizontal axis in a known manner is equipped with a burner for burning coal dust from one end. The burner consists of two concentric tubes C a, from which into the inner tube), a thinner tube c, coal dust from above through pipe d, and right to the right through the fan / air under pressure of about 10-12 mm of water enters, resulting in coal dust together with this air is blown out of the nozzle g. Around the latter there is another nozzle formed by the outer tube L, through which it is blown, in the direction of the arrow, additional air under a much greater pressure of several hundred liters of water. Thus, the air stream, which is supplied through the internal nozzle, mixed with coal dust, is surrounded by air and at an increased speed, is entrained during the burning of additional air. The discharge of the combustion products and the ash particles entrained by them occurs through the usual, not shown in the drawing, outlet opening of the furnace which can be arranged either from the opposite side, or in the cases to be viewed from the side.

P r edmet patent.

The method of burning coal dust in rotary kilns designed to melt metals, using the input of fuel directly into the kiln through a conventional burner, characterized in that the combustion air is supplied to the kiln under high pressure (for example, several hundred mm of water column) for the purpose of blowing out ash and removing it together with flue gases.