Method for operating melting/refining furnace and melting-refining furnace

1 . A method for melting/refining a cold iron source using a melting/refining furnace, wherein the method comprises: a refining step comprising: a first step in which a cold iron source is supplied from an upper part of the melting/refining furnace; a second step in which the cold iron source is mainly melted by energizing an electrode provided in a center of the melting/refining furnace; a third step in which the cold iron source is auxiliary melted by a burner provided on a furnace wall of the melting/refining furnace; and a fourth step in which an oxidant gas is ejected from a lance installed in an oxidant gas ejection hole provided in the furnace wall above the burner downward from the horizontal direction, the oxidant gas is reacted with carbon monoxide, hydrogen, or a mixture of carbon monoxide and hydrogen which are generated during melting of the cold iron source; and a refining step in which impurities are removed by introducing oxygen into the molten iron generated by melting the cold iron source; the fourth step starts at the same time as or immediately after the start of the third step, and ends with the start of the refining step, when a volume of the furnace is V (m 3 ) and an amount of oxygen introduced in the fourth step is Q (Nm 3 /h), V/Q is in a range from 0.1 to 0.8. 2 . A melting/refining furnace for a cold iron source comprising: the melting/refining furnace is an electric furnace having an opening for introducing a cold iron source in the upper part, the electric furnace comprises: an electrode which is provided in the center of the electric furnace and configured to melt the cold iron source; a burner which is provided on the furnace wall and configured to auxiliary melt the cold iron source; a lance which is provided on the furnace wall above the burner and is configured to introduce oxygen; and an oxygen flow rate adjustment mechanism which is configured to supply a certain amount of oxygen to the lance, an install position of the burner and the lance on the furnace wall satisfies the following conditions: when a distance from a surface of a molten metal to a tip surface of the burner is L 1 , and a distance from the surface of the molten metal to the tip surface of the lance is L 2 ; L 1 <L 2 ; when an angle between a center axis of the burner and a horizontal plane is α, and an angle between a center axis of the lance and the horizontal plane is β, α≥β; 90°>α>0°; and β≥0° 3 . The melting/refining furnace for a cold iron source according to claim 2 , wherein an oxygen flow rate adjusting mechanism comprises a flow rate control valve, a flow rate indicator, a pressure gauge, and a pressure control valve.