KR20110130720A - Apparatus and method for providing oxgen of electric furnace - Google Patents

Abstract

PURPOSE: An oxygen supply device and an oxygen supply method of an electric furnace are provided to improve deoxidation efficiency during a refining process by supplying air through an air supply line. CONSTITUTION: An oxygen supply device of an electric furnace comprises an oxygen lance(31), an oxygen supply line(120), and an air supply line(130). The oxygen lance is installed in lance equipment(30) and supplies oxygen to the inside an electric furnace(10). The oxygen supply line is connected to an oxygen tank(121) and supplies oxygen to the oxygen lance during a dissolution process. The air supply line supplies air to the inside the electric furnace during a refining process. An air dryer(133) is installed in the air supply line.

Description

Apparatus and method for providing oxgen of electric furnace

The present invention relates to an oxygen supply apparatus and a supply method for an electric furnace, and more particularly, to an oxygen supply method and supply apparatus for an electric furnace for supplying oxygen into the electric furnace.

In general, an electric furnace is a furnace for heating and dissolving a metal or an alloy using electricity. In the furnace body in contact with the molten metal, fixed and amorphous refractory are built in order to protect the furnace body from high temperature molten metal. Charged to dissolve the scrap iron in the electric furnace by applying a high voltage to the electrode to generate a high heat arc heat.

Electric furnaces are widely used in metal refining and are divided into resistance furnace, arc furnace and induction furnace according to the heating method. Among them, arc furnaces are widely used for steel making. The arc furnaces are heated by flowing an electric current in the form of an arc between the molten material placed in the furnace and the three-phase electrode, and the power is three-phase alternating current and the capacity is hundreds to thousands of kilowatts. There is a large thing to reach, too.

In the arc furnace, most of the molten metal is already sufficiently melted and filled with a portion of the electric furnace, and sufficient oxygen and oxygen are generated to prevent waste of fuel accompanying the remaining components of molten metal that have not yet been dissolved. The loss of process is minimized as the combustion of carbon (carbonized material) having thermal power is minimized, and the amount of carbon in the molten metal is controlled by the addition of carbon (carbonized material).

An object of the present invention is to provide an oxygen supply apparatus and a supply method of an electric furnace that improves the deoxidation efficiency of oxygen supplied during operation of the electric furnace and reduces the oxygen consumption.

An oxygen supply apparatus for an electric furnace according to the present invention includes an oxygen lance installed in a lance facility to supply oxygen into an electric furnace, an oxygen supply line connected to an oxygen tank to supply oxygen to the oxygen lance during a melting process of the electric furnace, and And an air supply line branched from the oxygen supply line to supply air in the atmosphere to the interior of the furnace at the time of refining the electric furnace or purging the nozzle to prevent clogging of the oxygen lance.

The air supply line is preferably provided with an air dryer to remove the moisture contained in the air to dry.

Oxygen supply method of the electric furnace according to the present invention, in the melting step of discharging the scrap iron by charging the scrap metal in the furnace body to supply oxygen to the inside of the furnace through the oxygen supply line connected to the oxygen tank, after the melting process When refining molten steel or purging to prevent nozzle clogging of oxygen lance, air is supplied into the electric furnace through an air supply line for supplying air in the atmosphere.

According to the oxygen supply device and the supply method of the electric furnace according to the present invention, in the melting step of the operation of the electric furnace to supply oxygen through the oxygen supply line to promote the dissolution of scrap metal, air at the refining process or oxygen lance purging By supplying air through the supply line, it is possible to improve the deoxidation efficiency during the refining process and to reduce the amount of oxygen used during purging, thereby increasing the operating efficiency and reducing the cost.

1 is a view schematically showing an electric furnace to which the present invention is applied;
Figure 2 is a detailed view showing in detail the lance facility of Figure 1;
3 is a configuration diagram showing an oxygen supply apparatus for an electric furnace according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing an electric furnace to which the present invention is applied.

As shown in the drawing, a plurality of upper electrodes 13 are installed at the center of the loop 12 covering the upper portion of the body 11 to re-dissolve scraps such as scrap steel to manufacture molten steel. The bottom electrode 14 is provided at the bottom to generate arc by energizing the upper electrode 13. On one side of the body of the electric furnace 10, the lance facility (30) for supplying oxygen and carbon (carburizing material) necessary for refining, and the exclusion for excluding the slag (3) generated in the refining process as a slag port 22 Each sphere 15 is provided. In addition, the other side of the electric furnace 10 is provided with an EBT (Eccentric Bottom Tapping) tap 16 used to tap the molten steel 1 to the ladle 20 after the refining process is completed.

The lance of the lance facility 30 is conveyed into the electric furnace by means of a conveying means to supply oxygen and carbon (carburizing material) to the interior of the electric furnace during operation.

The upper electrode 13 is composed of three electrodes (electrode rods) (13a: A-phase electrode, 13b: B-phase electrode, 13c: C-phase electrode), and A on the side of the exclusion port 15 (opposite the exit hole). A phase electrode 13a is disposed, a C phase electrode 13c is disposed on the tapping hole 16 side, and a B phase electrode 13b on the side between the A phase electrode 13a and the C phase electrode 13c. ) Is placed.

FIG. 2 is a detailed view of the lance facility of FIG. As shown, the lance facility 30 cools the oxygen lance 31 which supplies oxygen to the inside of an electric furnace, the carbon lance 32 which supplies carbon (charcoal material) to the inside of an electric furnace, and the lance facility. And a cooling means line 33 for supporting and transporting the oxygen lance 31 and the carbon lance 32. Since the lance facility is a general configuration, detailed description thereof will be omitted.

3 is a configuration diagram showing an oxygen supply apparatus for an electric furnace according to the present invention. As shown, the oxygen supply device 100 is the oxygen lance 31 installed in the lance facility 30 to supply oxygen into the electric furnace 10, and the oxygen lance 31 during the melting process of the electric furnace. Oxygen supply line 120 connected to the oxygen tank 121 to supply oxygen to the oxygen to supply the air in the atmosphere during the refining process of the electric furnace or purging to prevent clogging of the nozzle of the oxygen lance. It consists of an air supply line 130 installed branching from the supply line 120.

The oxygen tank 31 is formed of a liquid oxygen tank or a gas oxygen tank. When oxygen is supplied using the liquid oxygen tank, a separate vaporizer (not shown) is installed in the oxygen supply line 120.

The oxygen supply line 120 is provided with a flow control valve 122 and the opening and closing valve 123, and additional equipment such as a sensor and a controller (not shown) are installed.

The air supply line 130 is a line branched between the open / close valve 123 and the oxygen lance 31, and is a line that sucks air (atmosphere) and supplies the air to the oxygen lance 31. The air supply line 130 is provided with a pump 131 and an on-off valve 132 for sucking air (atmosphere).

An air dryer 133 is installed on the air intake side of the pump 131 to remove dry air (air) and supply dry air (air).

In addition, a filter 134 for filtering impurities in the air is installed at the suction side of the air dryer 133.

The air dryer 133 and the filter 134 may be integrated, and the pump 131 may be installed in the air dryer 133.

The filter 134 and the air dryer 133 prevent trouble of the air supply line due to polluted and juicy air and prevent trouble due to air supplied into the electric furnace 10.

In the operation of the electric furnace, the scrap is first charged into the furnace at about 75% of the total amount of the first charge, and then the remaining about 25% of the scrap is charged again, followed by the second melting process, and then the total amount of scrap is dissolved. When it is finished, go through the refining process. In such a dissolution and refining process, while setting an appropriate power pattern for each step in order to shorten the operating time and energizing, supplying oxygen and carbon (carburizing material) on the molten steel surface promotes dissolution.

By supplying carbon (carbonized material) and oxygen into the electric furnace, the dissolution time can be shortened by exothermic reaction by the reaction of carbon and oxygen. Oxygen supply is essential when melting the iron, but it causes various problems due to oxidation because oxygen lowers the ratio used to oxidize carbon components and encounters obstacles such as iron that is charged into the furnace, and oxidizes the iron. By oxidizing to promote electrode consumption, the slag forming property of the carbon by the carbon (carbonized material) supplied through the carbon lance 32 is improved to reduce the consumption of the electrodes 13a, 13b, and 13c.

Slag foaming is a phenomenon in which oxygen and carbon react at the interface between the upper surface of molten steel and the slag to generate gas such as carbon monoxide, which causes the slag to swell and surround the arc. Therefore, slag forming improves the arc heat transfer efficiency to the molten steel by preventing the exposure of the arc generated from the electrode, and contributes to the improvement of quality by preventing the nitrogen intake into the molten steel by the atmosphere and the cooling equipment from the high temperature arc. It serves to prevent leakage by protecting, and in particular, reduces electrode consumption by oxidation of the electrode.

When molten iron is used in the electric furnace operation, the molten iron in the molten iron decreases in proportion to the molten iron charge due to the heat of the molten iron itself and the oxidative heat of the oxidizing element during the oxygen extraction. Therefore, it is essential for the oxygen blowing pattern to hit the end point temperature and the end point carbon to secure the blowing pattern corresponding to the reduction of the electric power unit, that is, the processing time. These end point temperatures and end point carbons vary depending on the type of steel produced. Depending on the end point carbon concentration, the end point oxygen concentration is also inversely proportional to the carbon concentration. In other words, the higher the carbon concentration, the lower the end point oxygen concentration, so it is necessary to reduce the oxygen consumption in the high carbon concentration. For example, when the carbon concentration is 0.03%, the target oxygen concentration should be 900ppm, and at 0,08%, 400ppm, so the amount of blown oxygen will vary depending on the steel grade even at the same molten iron. After all, the end point carbon hit can be considered the same as the end point oxygen concentration hit.

In order to set the oxygen scavenging pattern in the electric furnace, the maximum allowable oxygen gas flow rate must be set first in the dissolution refining behavior step. The oxygen flow rate is somewhat different depending on the molten iron, but the maximum oxygen flow rate must be maintained to satisfy both the decarburization rate and the elevated temperature of the molten steel.

In the furnace operation using the oxygen supply device 100 of the present invention through the oxygen supply line 120 connected to the oxygen tank 121 during the melting process to charge the scrap metal into the furnace 10 body to dissolve the scrap iron. Oxygen is supplied into the electric furnace, and during the refining process of refining molten steel after the melting process, the air is supplied into the electric furnace through an air supply line 130 for supplying air in the atmosphere to supply the amount of oxygen supplied into the electric furnace. Reduce

Thus, according to the oxygen supply method during the operation of the furnace, the problem caused by the over-injection of oxygen (electrode oxidation, deoxidation efficiency during refining) is solved, and the operating cost is reduced while reducing the oxygen consumption.

And, when not operating in the electric furnace is purging to prevent clogging of the nozzle of the oxygen lance, even when purging, by reducing the amount of oxygen consumption by supplying air through the air supply line 130 to purge. .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. The scope of the technical protection shall be determined by the technical idea of the appended claims.

10: electric furnace 30: lance equipment
31: oxygen lance 32: carbon lance
100: oxygen supply device 120: oxygen supply line
121: oxygen tank 122: flow control valve
123, 132: on-off valve 130: air supply line
131: pump 133: air dryer
134 filter

Claims (4)

An oxygen lance installed in the lance facility to supply oxygen into the electric furnace,
An oxygen supply line connected to an oxygen tank to supply oxygen to the oxygen lance during the melting process of the electric furnace;
An air supply line branched from the oxygen supply line to supply atmospheric air into the electric furnace during the refining process of the electric furnace or during purging to prevent the clogging of the oxygen lance. Oxygen supply. The method according to claim 1,
The air supply line oxygen supply device, characterized in that the air supply line is installed to remove the moisture contained in the air to dry. The method according to claim 2,
An oxygen supply apparatus for an electric furnace, wherein a filter for filtering impurities in the air is installed at the suction side of the air dryer. In the melting process in which the scrap metal is charged into the furnace body to dissolve the scrap iron, oxygen is supplied into the furnace through an oxygen supply line connected to an oxygen tank.
Oxygen in the electric furnace, characterized in that the air is supplied into the electric furnace through an air supply line for supplying air in the air during the refining process of refining molten steel after the melting process or to prevent the clogging of the nozzle of the oxygen lance Supply method.

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