RU2007133619A - METHOD FOR PRODUCING IRON MELT, IN PARTICULAR, MELT MELT - Google Patents

Claims (4)

1. A method of producing a molten iron, in particular a molten steel, comprising loading into a melting gasification zone a lump of carbon-containing material and a lump of iron-containing material through separate feeders included in the upper zone of the melting furnace, melting and reducing the material in the melting furnace, reducing the iron-containing material in a reduction reactor using a reducing gas formed in the melting gasification zone, characterized in that the carbon-containing and iron-containing materials served in a furnace with a given mass ratio, and initially on the hearth of the furnace create a layer of carbon-containing material, which serves iron and carbon-containing material, the resulting mixture is formed in the furnace at an angle equal to the angle of repose, by feeding it through a slit-like cavity in the lid of the furnace in the form a freely falling jet, which is sent to the wall region of the furnace, in parallel, load the reactor with iron-containing material, the mass of which is determined based on the desired final weighted average metallization temperature, while above the level of the iron-containing material, a predetermined layer of carbon-containing material is formed to correct the composition of the gas coming from the smelting furnace, the material in the smelter is blown with oxygen-containing and heated in indirect plasma torches with oxygen-containing and natural gas, and the reducing gas obtained in the smelting furnace is fed to the upper part of the reactor, determine the composition and temperature of the gas in the upper part of the reactor, compare with the set and, when the concentration changes It is more than 10% correcting the temperature or temperature by gas from plasma-chemical gas generators, repeating the cycles of supplying materials to the melting furnace depending on the mass of the metal obtained, and the gas leaving the reactor is fed to the afterburning of the iron-containing material in the reactor. 2. The method according to claim 1, characterized in that the mass ratio of the carbon-containing material to the iron-containing material is in the range of 0.2-0.4. 3. The method according to claim 1, characterized in that the lump of iron-containing material in the reactor is formed by two temperature zones separated by grates. 4. The method according to claim 1, characterized in that the preheated iron-containing material is loaded into the reactor and the smelting furnace.