RU127752U1 - 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 a heat-insulating insert with a SiC coating is located, according to a utility model, the insert is made of layers of carbon fabric stitched with pyrocarbon with SiC coating on all sides. The technical result is an increase in the resistance of the lance to shock loads when installed in a furnace and protection against oxidation during operation.

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 the air tuyere of a blast furnace containing a water-cooled casing with a blast channel, in which a heat-insulating insert with a SiC coating is located (JP 2779514 B2 2240207 A, С21В 7/16, 03/13/89).

However, when the tuyere is installed in the furnace, the fragile ceramic tube located in the blow channel does not withstand the shock load on the tuyere and is destroyed.

The technical result is to increase the resistance of the lance to impact loads when installed in a furnace and protection against oxidation during operation.

The technical result is achieved in that in an air tuyere of a blast furnace containing a water-cooled case with a blast channel, in which a heat-insulating insert with a SiC coating is located, the insert is made of layers of carbon fabric stitched with pyrocarbon, with a SiC coating on all sides.

The heat-insulating insert made of layers of carbon fabric stitched with pyrocarbon has a density of 1.4 g / cm ³ , the strength of the filament is 1.2-1.5 GPa and the elastic modulus of the fiber is up to 60 GPa, therefore it withstands the shock load when installing the tuyeres in the furnace. The SiC coating on all sides protects the carbon insert from oxidation during lance operation. Therefore, the distinctive features in the aggregate ensure the achievement of a technical result.

The figure shows a cross section of the air lance of a blast furnace, in which the outer (1) and inner (2) glasses, welded with the back part (3) and flange (4), form a water-cooled body with a blast channel (5), in which there is a heat-insulating insert (6) made of layers of carbon fabric stitched with pyrocarbon, with SiC coating on all sides.

The number of layers of carbon fabric is determined by the thickness of the insert.

Example.

For thermal insulation of the blow channel, a cylindrical insert with a wall thickness of 8 mm was made. With a layer thickness of carbon fabric of 0.5 mm, 16 layers were required. A heat-insulating insert made of layers of carbon fabric stitched with pyrocarbon, with SiC coating on all sides, was installed in the blow channel of the air lance. The lance using shock load was installed on a blast furnace. During the installation of the lance, the experimental insert was not destroyed, which made it possible to exploit the lance. After the tuyere was replaced due to burnout, no traces of oxidation of the insert were found.

Therefore, an air tuyere of a blast furnace containing a water-cooled case with a blast channel, in which a heat-insulating insert is made of layers of carbon fabric stitched with pyrocarbon, with SiC coating on all sides, has increased resistance to shock loads when installed in a furnace and is protected from oxidation during operation.

Claims (1)

An air tuyere of a blast furnace containing a water-cooled casing with a blast channel, in which a heat-insulating insert with a SiC coating is located, characterized in that the insert is made of layers of carbon fabric stitched with pyrocarbon with a SiC coating on all sides.

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