RU141906U1 - Blast furnace air lance - Google Patents

Abstract

The utility model relates to the field of metallurgy and can be used in preparation for operation of air tuyeres of blast furnaces. In an air tuyere of a blast furnace containing a water-cooled casing with a blast channel, in which there is a heat-insulating insert made of layers of carbon fabric stitched sequentially with pyrocarbon and silicon to form silicon carbide, according to a utility model, silicon carbide is present throughout the volume of the insert. The technical result is an increase in the resistance of the insulating insert, and, consequently, of the air lance.

Description

The utility model relates to the field of metallurgy and can be used in preparation for operation of air tuyeres of blast furnaces.

Closest to the proposed technical essence is an air tuyere of a blast furnace containing a water-cooled casing with a blast channel, in which there is a heat-insulating insert made of layers of carbon fabric stitched sequentially with pyrocarbon and silicon to form silicon carbide (patent 127752, C21B 7/16, 11/22/12).

However, silicon carbide, which is contained only in the surface layer of the insert in the form of a coating, gradually wears out during operation of the lance, which leads to premature destruction of the insert and failure of the air lance.

The technical result is to increase the resistance of the insulating insert, and, consequently, of the air lance.

The technical result is achieved by the fact that in an air lance of a blast furnace containing a water-cooled body with a blast channel, in which there is a heat-insulating insert made of layers of carbon fabric sewn sequentially with pyrocarbon and silicon to form silicon carbide, silicon carbide is present throughout the volume of the insert.

Volumetric saturation with silicon of a heat-insulating insert made of layers of carbon fabric stitched with pyrocarbon with the formation of silicon carbide eliminates the presence of free carbon in the composition of the insert, which is prone to burnout during operation of the lance. Therefore, the distinguishing feature ensures the achievement of a technical result.

The utility model is valid for both a cylindrical and a conical blow channel.

A useful model for a cylindrical blast channel is illustrated in the figure. The section of the air tuyere of a blast furnace is presented, in which the outer (1) and inner (2) glasses welded with the back part (3) and flange (4) form a water-cooled case with a blast channel (5), in which the heat-insulating insert (6) is located ) made of layers of carbon fabric stitched sequentially with pyrocarbon and silicon to form silicon carbide over the entire volume of the insert.

Example.

For thermal insulation of the blast channel, a cylindrical insert made of layers of carbon fabric sewn sequentially with pyrocarbon and silicon to form silicon carbide throughout the entire volume of the insert was made. The insert was installed in the blow channel of the air lance. The tuyere was installed in a blast furnace. The resistance of the experimental tuyere was 30% higher than the resistance of the tuyere with an insert in which silicon carbide was present only in the surface layer in the form of a coating (according to the prototype).

Therefore, an air tuyere of a blast furnace containing a water-cooled casing with a blast channel in which a heat-insulating insert is located made of layers of carbon fabric stitched sequentially with pyrocarbon and silicon with the formation of silicon carbide over the entire volume of the insert has increased resistance during operation.

Claims (1)

An air tuyere of a blast furnace containing a water-cooled body with a blast channel, in which a heat-insulating insert is located made of layers of carbon fabric stitched sequentially with pyrocarbon and silicon to form silicon carbide, characterized in that silicon carbide is present throughout the volume of the insert.

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