SU1164275A1 - Open-hearth furnace - Google Patents

Abstract

MARTENOVO OVEN, containing a hearth, bath, front wall with columns, oxygen tuyeres, characterized in that, in order to increase furnace productivity and improve the quality of the metal, oxygen tuyeres are installed in the front wall columns, and pipelines with inlets for supply gas. kn bi

Description

The invention relates to ferrous metallurgy, specifically to devices for the gas-oxygen flushing of molten metal, and can be used in open-hearth furnaces.

The purpose of the invention is to increase furnace productivity and improve the quality of the metal.

FIG. 1 shows the open-hearth furnace, in plan; in fig. 2 - the same, longitudinal section; in fig. 3 - the same cross section.

The open-hearth furnace contains bottom 1, bath 2, front wall 3 with columns 4 and charging windows 5, heads 6, roof. In the bottom T, the working layer of which is made of refractory porous material, piping 8 is placed in each of which 9 to exit gazd.

Pipelines 8 are connected to pipelines 10 through manifolds 11. Tuyeres 12 are installed in the front wall columns for supplying oxygen to the bath, and furnace heads 13 are equipped with tuyeres 13 for supplying fuel to the working space of the furnace. The columns 4 are in the form of a water-cooled caisson lined outside with refractory bricks. Racks 14 connected by beams 15 are necessary to ensure the strength of the masonry of the working space 16,

Open-hearth furnace works as follows.

The technological process of steel production in open-hearth furnaces is made up of several periods: furnace refilling, charge filling, heating, casting of iron, blowing of the molten metal, finishing and production of the metal. .

The charge in the bath 2 of the furnace is filled through the charging ports 5, after which the mixture is heated with oxygen AND natural gas. Oxygen is fed at a rate of 12 tuyeres, and natural gas is supplied via pipelines 10, manifolds 11, pipelines 8 through openings Y, and porous lining of bottom 1 to the working space 16 of the furnace. After warming up

The charge is cast iron and the metal is purged with oxygen from the top and inert or neutral gas from the bottom. Oxygen is supplied through tuyeres 12, and inert or neutral gas is supplied through pipelines 10, collectors 11, pipelines 8 through openings 9, and porous lining of bottom 1 to the working space 16 of the furnace. At the beginning of the purge 12, they are placed at a distance of 20U-3UO mm above the surface of the charge, and as the level of metal in the bath decreases, 2 tuyeres 12 are lowered to the slag-metal interface. In the course of the purge, slag is removed through the slag holes in the rear wall (not indicated), since during operation the tuyeres 12 installed in columns 4, the shpak is distilled off by a stream of oxygen to the rear wall.

After the formed liquid-moving shpak has been formed, the metal blowing from above is stopped and the metal blowing from below is continued by a neutral gas, such as nitrogen or argon, to maintain intensive mixing of the metal. Then a sample of the smelted metal is taken and released from the furnace.

Thus, a simultaneous combined top blowing of the metal with oxygen and a bottom blowing of the metal with a neutral or inert gas is provided, as a result of which the decarburization process and its intensive mixing are accelerated, the slag formation process is accelerated.

Due to the intensive mixing of metal and slag and the acceleration of the slagging process, the efficiency of metal refining is enhanced. Meta blowing is provided evenly (lla from above. All this generally increases the furnace productivity by about 2 times, reduces the steelmaking process by about 2 times, the quality of the smelted metal. With a steel production of 3,500 tons per year, the economic effect will be 6.3 million rubles per year.

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Claims (1)

The Martin furnace, containing a hearth, bath, front wall with columns, oxygen lances, characterized in that, in order to increase the productivity of the furnace and improve the quality of the metal, oxygen lances are installed in the columns of the front wall, and pipelines with openings for gas supply are placed in the bottom. FIG. 1