Method for producing molten iron using electric furnace

1 . A method for producing molten iron using an electric furnace comprising a melting chamber for melting iron scrap by arc heating and a shaft preheating chamber provided on and continuously with the melting chamber and used to preheat the iron scrap, in which the iron scrap is sequentially charged into the preheating chamber so that the preheating chamber is filled with the iron scrap, an exhaust gas generated in the melting chamber is passed through the preheating chamber filled with the iron scrap so as to preheat the iron scrap, the iron scrap thus preheated is sequentially caused to descend in the preheating chamber so as to be supplied into the melting chamber, and the iron scrap is melted in the melting chamber to obtain molten iron, wherein the iron scrap is charged into the preheating chamber so that an apparent bulk density of the iron scrap filled in the preheating chamber is not less than 0.50 t/m 3 and less than 1.00 t/m 3 and an iron scrap filling ratio H SC /H SF in the preheating chamber, where H SC denotes a filling height in m of the iron scrap in the preheating chamber, and H SF denotes a preheating chamber interior height in m, is controlled to fluctuate within 0.5 to 0.8 during operation, a carbonaceous material is used as an auxiliary heat source for melting the iron scrap in the melting chamber, and oxygen and the carbonaceous material are blown into the melting chamber so that a carbon-oxygen ratio C/O, where C denotes a carbon amount in kg in the carbonaceous material, and O denotes an oxygen blowing amount in Nm 3 , is not less than 0.70. 2 . The method for producing molten iron using an electric furnace according to claim 1 , wherein an oxygen concentration in the preheating chamber is less than 15 vol %. 3 . The method for producing molten iron using an electric furnace according to claim 1 , wherein a blowing amount of the carbonaceous material into the melting chamber is 0.3 to 1.4 kg/min per ton of molten iron to be tapped, and the oxygen blowing amount is 20 to 40 Nm 3 /hr per ton of molten iron to be tapped. 4 . The method for producing molten iron using an electric furnace according to claim 1 , wherein one or more auxiliary burners are installed in the melting chamber and used to heat the iron scrap and molten iron in the melting chamber. 5 . The method for producing molten iron using an electric furnace according to claim 1 , wherein in the electric furnace, the preheating chamber is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating chamber through the scrap charge port is filled in the preheating chamber and in a space of the melting chamber below the preheating chamber, and the iron scrap that is in the space is sequentially extruded toward the arc heating portion. 6 . The method for producing molten iron using an electric furnace according to claim 5 , wherein the iron scrap in the space is sequentially extruded toward the arc heating portion by an extruder. 7 . The method for producing molten iron using an electric furnace according to claim 2 , wherein a blowing amount of the carbonaceous material into the melting chamber is 0.3 to 1.4 kg/min per ton of molten iron to be tapped, and the oxygen blowing amount is 20 to 40 Nm 3 /hr per ton of molten iron to be tapped. 8 . The method for producing molten iron using an electric furnace according to claim 2 , wherein one or more auxiliary burners are installed in the melting chamber and used to heat the iron scrap and molten iron in the melting chamber. 9 . The method for producing molten iron using an electric furnace according to claim 3 , wherein one or more auxiliary burners are installed in the melting chamber and used to heat the iron scrap and molten iron in the melting chamber. 10 . The method for producing molten iron using an electric furnace according to claim 7 , wherein one or more auxiliary burners are installed in the melting chamber and used to heat the iron scrap and molten iron in the melting chamber. 11 . The method for producing molten iron using an electric furnace according to claim 2 , wherein in the electric furnace, the preheating chamber is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating chamber through the scrap charge port is filled in the preheating chamber and in a space of the melting chamber below the preheating chamber, and the iron scrap that is in the space is sequentially extruded toward the arc heating portion. 12 . The method for producing molten iron using an electric furnace according to claim 3 , wherein in the electric furnace, the preheating chamber is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating chamber through the scrap charge port is filled in the preheating chamber and in a space of the melting chamber below the preheating chamber, and the iron scrap that is in the space is sequentially extruded toward the arc heating portion. 13 . The method for producing molten iron using an electric furnace according to claim 4 , wherein in the electric furnace, the preheating chamber is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating chamber through the scrap charge port is filled in the preheating chamber and in a space of the melting chamber below the preheating chamber, and the iron scrap that is in the space is sequentially extruded toward the arc heating portion. 14 . The method for producing molten iron using an electric furnace according to claim 7 , wherein in the electric furnace, the preheating chamber) is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating chamber through the scrap charge port is filled in the preheating chamber and in a space of the melting chamber below the preheating chamber, and the iron scrap that is in the space is sequentially extruded toward the arc heating portion. 15 . The method for producing molten iron using an electric furnace according to claim 8 , wherein in the electric furnace, the preheating chamber is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating chamber through the scrap charge port is filled in the preheating chamber and in a space of the melting chamber below the preheating chamber, and the iron scrap that is in the space is sequentially extruded toward the arc heating portion. 16 . The method for producing molten iron using an electric furnace according to claim 9 , wherein in the electric furnace, the preheating chamber is provided on and continuously with the melting chamber at a position spaced from an arc heating portion, and a scrap charge port is provided at a top of the preheating chamber, and the iron scrap charged into the preheating