Method for removing blast furnace shaft wall accretion

Abstract

The invention provides a method for removing blast furnace shaft wall accretion. The method comprises the following steps: keeping the basic smoothness of the furnace operating conditions, and controlling the adequate furnace temperature; adding a right amount of clean coke into the furnace to enhance the fuel ratio of the regular burden; carrying out descending stockline operation; carrying out blast furnace staying; plugging part of air ports with mud, and blasting to perform production; and breaking the sludge-plugged air ports to restore the regular production of the blast furnace. The method can expose the slag crust on the furnace shaft inner wall, and has great heat flow scouring actions on the slag crust, so that the slag crust can be removed reliably and thoroughly. The method has the advantages of small fluctuations of furnace operating conditions and short time consumption for slag removal.

Description

technical field [0001] The invention belongs to the technical field of blast furnace shaft cleaning, and in particular relates to a method for removing thickening of blast furnace shafts. Background technique [0002] A blast furnace is a closed device for making pig iron. The basic principle is to add iron-containing ore (such as sinter, pellet ore, natural lump) and fuel (coke) from the upper part of the blast furnace, and blow high-pressure hot air from the lower part (tuyere) of the blast furnace, in which oxygen-enriched ( That is, to increase the oxygen content in the wind), and to carry out pulverized coal injection. The heat generated by the combustion of pulverized coal and coke in front of the tuyere and the high-temperature reducing gas undergo a series of physical and chemical reactions with the iron ore to form molten iron. The raw fuel added from the top of the furnace is continuously heated, decomposed, reduced, softened, melted, dripped, carburized, and fin...

AI Technical Summary

Problems solved by technology

That is to add net coke and greatly reduce the coke load, and simply increase the temperature to remove: its shortcomings: the effect is not reliable, and even the position of the soft melting zone caused by the large fluctuation of the furnace temperature increases the thickness of the knot and the furnace temperature is too high. Suspended materials increase the thickness of the knot; ②Wash the furnace by adding manganese ore, fluorite and other furnace cleaning agents: its shortcomings: it is impossible to accurately make the added manganese ore or fluorite react with the slag skin just at the thick part of the knot, and the fluorite Use will also develop and erode the furnace lining, affecting the life of the blast furnace; ③ Blasting with explosives

This method has a high success rate in dealing with slag skin, but it is not successful every time. Sometimes it takes several times of the same measures to clean up the slag skin, and there are unpredictable factors in hanging and sitting materials. The depth of the furnace is also unpredictable, so the amount of net coke added is difficult to grasp just right, the furnace temperature fluctuates greatly, and even causes the furnace to cool down.