RU2368670C2 - Method of steel melting in arc steel-making furnace of three-phase current - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: method includes influence of voltaic arcs on metal in vertical direction with its embedding into metal.

EFFECT: increasing of durability of electric furnace and reduction of electricity consumption.

1 dwg

Description

The invention relates to the field of electrothermal technology, and in particular to methods for conducting steel melting in three-phase current arc steel-smelting furnaces.

A known method of conducting steel melting in a three-phase arc furnace, including the effect of electric arcs on the metal in the vertical direction (Okorokov N.V. Electrofusion furnaces of ferrous metallurgy. - M .: Metallurgizdat, 1950, p. 18-22).

However, in the smelting process, electric arcs are used that are not buried in the metal bath, as a result of which the radiation of electric arcs to the metal is reduced, and to the walls and the arch increases, which leads to an increase in energy consumption and a decrease in the service life of the walls and arches of furnaces.

The prototype of the invention is a method of steel melting in an arc furnace, in which, as the charge is melted, the electric arcs fall down and the arcs gradually sink into the metal (Sokolov A.N. High-speed steel melts in electric arc furnaces. - M .: Mashgiz, 1963, p. 115 -116).

However, the arc current changes direction from vertical to horizontal in the metal bath, as a result of which horizontal electromagnetic forces arise, blowing electric arcs from under the electrodes. The shielding effect of the electrodes and the recess (hole) in the metal bath is reduced, the radiation of the arcs increases on the walls and arch and decreases on the metal bath, the productivity of the furnace decreases, and the energy consumption increases.

The basis of the present invention was the task of developing a method of steel melting, in which less heat loss is achieved on the arch and walls of the furnace.

The technical result of the invention is to increase the efficiency of arcs, furnace productivity and reduce the specific energy consumption by reducing the effect of arc radiation on the walls and arch of the furnace.

The task and the specified technical result are achieved by the fact that in the method of steel melting in a three-phase current arc furnace, according to the invention, the effect of electric arcs on the metal is carried out in the vertical direction with their deepening into the metal.

This effect of arcs on the metal eliminates the electromagnetic blowing of arcs from under the electrodes.

The vertical effect of the arcs on the metal with their deepening into the metal and elimination of the electromagnetic blowing of the arcs from under the electrodes allows increasing the efficiency of the arcs by increasing their radiation on the metal, reducing the energy consumption by 3-5%, and increasing the furnace productivity by 3-4%.

The method of melting steel in an electric steel furnace of a three-phase current is illustrated in the drawing, which shows a diagram of the process. An electric arc 1 burns between the electrode 2 and metal 3. The arc current flows in the vertical direction from the phase A electrode to the bottom electrode “Zero” of phase A. Under the vertical influence of electromagnetic force, a hole 4 is formed in the metal, into which the arc is buried. The melting period is considered to be over when all the metal in the furnace goes into a liquid state.

The proposed method can be implemented as follows. Each of the three phases is connected to a single-phase transformer. One pole of a single-phase transformer of the corresponding phase is connected to the gadfly electrode of the furnace, and the second pole to the bottom electrode. The arc current flows vertically between the arch and hearth electrodes of this phase and each of the three phases operates independently of each other.

Since the arc current does not change its direction from vertical to horizontal, there is no horizontal electromagnetic force, there is no blowing of the arc from under the electrode, its radiation to the walls and arch decreases, and increases to the metal bath.

The intrinsic electromagnetic field of the arc creates a vertical force, which compresses the arc and squeezes metal out from under it. As a result of electromagnetic pressure, the arcs are buried in the metal, their radiation to the metal increases. The efficiency of the arcs, that is, the ratio of the useful power of the arcs going to heat and melt the mixture and heating the liquid metal bath, to the total power of the arcs increases, since the power radiated by the arcs to the arch and walls decreases, and accordingly, the productivity of the furnace increases, the melting time decreases and power consumption.

The proposed method of steel melting can be implemented on any AC steelmaking arc furnace at metallurgical and machine-building enterprises. The necessary single-phase transformers are manufactured by industry and are used in particular for powering electroslag and ore-thermal furnaces.

Claims (1)

The method of melting steel in an electric steel furnace of a three-phase current by the action of electric arcs on a liquid metal, characterized in that the effect of electric arcs on a liquid metal is carried out in the vertical direction when they are deepened into a liquid metal.

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