RU2366723C2 - Method of steel production and installation for implementation of this method - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: method consists in preparation of thermite mixture consisting of scale, aluminium chips and modifiers, in charging mixture into reaction chamber, in igniting mixture and in carrying out reducing reaction producing liquid metal and slag. Ignition of thermite mixture is performed in a reaction pan located in the reaction chamber, wherein thermite mixture is continuously charged via a movable hopper installed in the reaction chamber. Method is implemented at the installation consisting of the reaction chamber with two notches arranged at different levels, of a removable cover and of an actuator for igniting thermite mixture. The movable hopper is installed in the port of the removable cover; the hopper is made in form of a tube for supply of thermite mixture into the reaction pan placed inside the case of the reaction chamber and used for tapping of slag and for clarification of metal surface.

EFFECT: increased share of reduced iron and raised efficiency.

1 dwg

Description

The invention relates to methods for the recovery of steel from scale and can be used in metallurgy.

The closest in technical essence to the achieved result is a method of continuous direct reduction of iron according to patent US 4701213 A (publ. 20.10.1987), where aluminum is used as a reducing agent in a thermite mixture containing iron oxides. The mixture is ignited, and iron is reduced as a result of the exothermic reaction.

The considered method has the following disadvantages. The reduction of iron from a thermite mixture in a loose state is a low-productivity process with a small fraction of reduction of iron, because in a granular medium, there is no close contact between the iron oxides and the reducing agent. In addition, the loose thermite mixture, initially falling on the separation layer of the reagent, is not completely restored, because the reducing agent (aluminum) is actively oxidized, which also reduces the productivity of the process.

These disadvantages are eliminated by the claimed method. In the method of producing steel, which includes preparing a thermite mixture consisting of scale, aluminum chips and modifiers, loading it into the reaction chamber, igniting the mixture and performing a reduction reaction to form liquid metal and slag, igniting the thermite mixture is carried out in the reaction bowl, which is located in the reaction chamber and into which the thermite mixture is continuously charged through a movable dispenser located in the reaction chamber.

New in the claimed method is that the ignition of the thermite mixture is carried out in the reaction bowl, which is located in the reaction chamber and into which the thermite mixture is continuously charged through a movable batcher located in the reaction chamber.

Since in the claimed method, the ignition of the thermite mixture is carried out in a reaction bowl located in the reaction chamber, the productivity of the process and the proportion of reduced iron increase. Due to the fact that the thermite mixture is continuously loaded through a movable batcher, a column of thermite mixture with a density higher than the bulk density is formed, therefore, iron from the thermite mixture is restored in a larger volume, and the productivity of the process increases.

The closest in technical essence to the achieved result is a device for continuous direct reduction of iron according to the patent US 4701213 A (publ. 10/20/1987), containing a sealed lined converter, in which the pipe for supplying the thermite mixture is located, in the converter case there are holes for draining formed the result of an exothermic reaction of slag and iron.

The considered device has the following disadvantage. The viscous slag layer formed as a result of the reaction prevents the recovered molten iron from entering the discharge zone.

This disadvantage is eliminated by the claimed device. In the device for producing steel, including a reaction chamber with two notches located at different levels, a removable lid and an activator for igniting the mixture, a movable batcher, made in the form of a pipe, is installed in the opening of the removable lid to supply the thermite mixture to the reaction bowl located inside the case reaction chamber and used to drain the slag and clean the metal mirror.

New in the claimed device is that in the opening of the removable cover there is a movable batcher, made in the form of a pipe, for feeding the thermite mixture into the reaction bowl located inside the body of the reaction chamber and used to drain the slag and clean the metal mirror.

Due to the fact that the exothermic reaction takes place in the reaction bowl, the steel melt resulting from the reduction of iron merges into the reaction chamber, forcing a slag layer that does not impede the flow of steel melt into the discharge zone.

The claimed method is carried out using the device shown in Fig.1. The device comprises a removable cover 1 and a reaction chamber 2 body with a notch for downloading slag 3 and a lower notch for downloading steel 4. A reaction bowl 5 (used to drain the slag and clean the metal mirror in order to continue the recovery process) is located inside the case of the reaction chamber 2. Through the hole 6, the dispenser 7, made in the form of a pipe, is introduced into the cover 5, and the dispenser 7 is arranged to move along the vertical axis to control the termite reaction. The hopper 8, filled with a thermite mixture 9, is connected to the batcher 7. Due to the lower density, the slag 10 resulting from the exothermic reaction is located above the layer of molten metal 11. For ignition in the reaction bowl 5 of the thermite mixture 9, an activator 12 is used. As an activator 12 of the reaction, electric arc or special fuse.

The method of producing steel is as follows. The dispenser 7 is brought to the reaction bowl 5. In the movable dispenser 7 from the hopper 8 is fed a thermite mixture 9, consisting of aluminum powder and scale (Fe ₃ O ₄ ) containing at least 25% O and 70% Fe and modifiers. As modifiers can be used, for example, to obtain steel by the chemical composition corresponding to St45, FS-45 ferrosilicon powder of a fraction of 0.5 mm, with a silicon content of 44%, other elements no more: S = 0.02%, P = 0.05%, Al = 2%, Mn = 0.6%, Cr = 0.5%, C = 0.2%. The thermite mixture 9 in the reaction cup 5 is ignited by the activator 12. The process of steel recovery proceeds in the reaction cup 5 quickly, sequentially spreading over the entire volume of the thermite mixture filling the reaction cup 5, and passes through the reaction:

3Fe ₃ O ₄ + 8Al = 4Al ₂ O ₃ + 9Fe.

In the process of the termite reaction, slag 10 is formed, which floats in full to the surface of the formed metal 11. Slag is continuously downloaded from the reaction chamber through the groove 3, and the metal through the groove 4. When the dispenser 7 is removed from the reaction zone, the combustion process stops.

Thus, the proposed method and device for its implementation allow continuous production of steel of a homogeneous structure without the use of melting furnaces.

Claims (2)

1. A method of producing steel, including preparing a thermite mixture consisting of scale, aluminum chips and modifiers, loading it into the reaction chamber, igniting the mixture and performing a reduction reaction to form liquid metal and slag, while igniting the thermite mixture is carried out in the reaction bowl, which located in the reaction chamber, and into which the thermite mixture is continuously charged through a movable dispenser located in the reaction chamber. 2. A device for producing steel, comprising a reaction chamber with two tap holes located at different levels, a removable lid and an activator for igniting the thermite mixture, and in the opening of the removable lid there is a movable batcher, made in the form of a pipe, for feeding the thermite mixture into the reaction bowl, located inside the body of the reaction chamber and used to drain the slag and clean the metal mirror.

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