RU2055905C1 - Method for adjusting distribution of charge materials at the mouth of blast furnace - Google Patents

Abstract

FIELD: ferrous material. SUBSTANCE: gas temperature is under monitoring along circumference of furnace mouth, sectors with temperature deviation exceeding 50 C from average one is revealed. Charge ridges are arranged in peripheral zone, and charge banks are arranged in central zone with positive deviation of the temperature. Charge banks are arranged in peripheral zone and charge ridges are arranged in intermediate zone with negative deviation of the temperature from average one. At the rest sectors charge ridges are arranged in intermediate zone, and charge banks in the central zone. EFFECT: highly efficient adjustment.

Description

 The invention relates to ferrous metallurgy, namely to blast furnace production, and can be used to control the distribution of materials around the circumference and radius of the top of a blast furnace.

 A known method of loading and regulating the distribution of charge materials on the top of a blast furnace, including loading materials into a receiving funnel of a rotating charge distributor (VRS), rotating the SRS at a given angle, lowering materials to a large cone and controlling the distribution of materials along the radius of the furnace top during their unloading into the furnace by continuously changing the position of movable top plates.

 The disadvantage of this method is the limited ability to control the ore load and particle size distribution of the materials around the top of the furnace top, which causes circumferential gas distribution unevenness, worsens the use of gases in the furnace and fuel overrun for cast iron smelting.

 The closest in technical essence and the achieved result to the invention is a method for controlling the distribution of charge materials on the top of a blast furnace, including loading charge materials, monitoring the temperature of gases in the sectors of the top section, determining the average gas temperature and the deviation of the gas temperature in each sector from the average temperature and regulation the distribution of charge materials in the annular zones in the sectors of the cross section of the top using a distribution body.

 The disadvantage of this method is that it does not take into account the segregation of materials by size when they are unloaded into the hopper of the loading device, which causes a non-uniform structure of the column of charge materials around the circumference and worsens the use of gas in the furnace, and increased fuel consumption in blast furnace smelting.

 The aim of the invention is the elimination of regional gas distribution unevenness, reducing fuel consumption for pig iron smelting and increasing the productivity of a blast furnace.

This goal is achieved by the fact that in the known method of regulating the distribution of charge materials on the top of a blast furnace, including loading charge materials, monitoring the temperature of gases in the sectors of the cross-section of the top, determining the average temperature of gases and deviations of gas temperatures in each sector from the average temperature and regulating the distribution of charge materials on the annular zones in sectors furnace top section via the distributor body, in sectors with a temperature deviation of more than 50 ^C, etc. positive deviation was charged into the peripheral zone of the furnace crests of charge materials, and in the central zone of slopes, with a negative deviation in the peripheral zone of the furnace is charged slopes of charge materials, and in the intermediate region of their crests, the sectors with a temperature deviation of less than ⁵⁰ ° C, ridges of materials are loaded into the intermediate zone, and slopes of materials into the central zone of the top.

The invention consists in the following. With a uniform distribution of gases at the furnace gas temperature oscillations circumferential interval furnace top sector does not exceed 80-150 ° ^C Gas Temperature Deviation in any sector of the average furnace top temperature higher than 50 ^{° C,} indicates either excessive development of a single stream ( with a positive deviation) in this sector and the possibility of the formation of a channel gas path in it, or about insufficient gas permeability of the charge column in this sector (with a negative deviation), which slows down the processes of heat and mass transfer barter in it and leads to an increase in coke consumption due to an increase in the amount of wustite recovered by carbon of coke.

 Loading in the peripheral zone of the top sector sector with a positive temperature deviation of the ridges of the charge materials, i.e. their part, containing the largest number of small fractions, reduces the gas permeability of the column of materials in this sector and prevents the formation of a gas duct in it near the walls of the furnace. Loading slopes of materials, i.e. their part, containing the largest number of large pieces, in the central zone of this sector contributes to an increase in its gas permeability and equalization of gas distribution in this sector.

 In sectors with a negative temperature deviation, loading slopes of materials into the peripheral zone, and ridges into the intermediate zone, increases the gas permeability of the column of materials in these sectors due to loosening of the peripheral zone when loading materials with an increased content of large fractions (slopes) while maintaining the previous gas permeability of the central zones.

The throat of sectors corresponding to the normal average gas distribution (the temperature differs from the average by no more than 50 ° ^C), loading materials slopes in the central zone, and the crests in the intermediate region contributes to the stabilization of the furnace through the creation of stable gas flow in the central zone.

PRI me R. On a blast furnace with a volume of 2700 m ³ , equipped with a conical loading device, the distribution organ of which includes VRS and movable top plates, the temperature of the peripheral gases was controlled in 6 sectors of the top corresponding to 6 stations of operation of the VRS. With a uniform distribution of gas flow through the furnace circumference (the temperature of the peripheral gas in sectors not differ from the average temperature of more than 50 ° ^C) movable furnace top plate used for controlling coke distribution iron material radially by changing their position by a predetermined program during unloading of said materials in the oven.

When there is a circular uneven distribution of gas, i.e. when a peripheral gas temperature variation in the individual sectors of the furnace top section more than 50 ^{° C} of the average peripheral temperature of the gases in all sectors 6, loading materials produced in accordance with the present invention. In this case, for loading charge materials of various sizes into the peripheral zone of the top of the furnace, the movable plates were left in the initial position corresponding to their minimum deviation from the walls, for loading into the intermediate zone, the movable plates were set in the middle position, and for loading into the central zone the movable plates were deviated to the maximum from the walls .

In the positive- peripheral gas temperature deviation from the average (i.e. with a deviation of more than 50 ° ^C) was charged into the peripheral zone of reduced size material (combs), materials in the intermediate zone average particle size, in the central zone of increased size materials (slopes).

Sectors with negative deflection peripheral gas temperature (i.e. with a deviation of more than -50 ^{° C} of the average temperature) were charged in a peripheral zone of increased size materials (slopes), in materials of reduced size of the intermediate region (crests), the central zone materials of medium size.

 In other sectors, medium-sized materials were loaded into the peripheral zone, reduced-sized materials (ridges) into the intermediate zone, and increased-sized materials (slopes) into the central zone.

 After eliminating the circumferential gas distribution non-uniformity, the movable plates were put into operation according to a predetermined program providing a predetermined distribution of ore load along the radius of the furnace.

Regulation of the distribution of the charge materials on the throat in accordance with the invention led to a decrease in the average daily temperature interval peripheral gas sector (T _max -T _min) for a month at 18 ^C. The degree of use of CO increased by 3% coke consumption diminished by 2.4 kg / t of pig iron, and furnace productivity increased by 0.4%
Thus, the application of the invention to regulate the distribution of charge materials on the top of a blast furnace will allow, due to the timely elimination of the resulting circumferential gas distribution non-uniformity, to stabilize the course of the furnace and reduce fuel consumption for pig iron smelting.

Claims (1)

METHOD FOR REGULATING THE DISTRIBUTION OF BOILER MATERIALS ON THE BLOCKCHAIN OF THE BLAST FURNACE, including loading of charge materials, monitoring the temperature of gases in the sectors of the top section, determining the average temperature of gases and deviations of the temperature of gases in each sector from the average temperature, regulating the distribution of charge materials in the ring zones in the sections of the top section using a distribution body, characterized in that in sectors with a temperature deviation of gases more than 50 ^o With a positive deviation charge combs of charge materials are loaded into the peripheral zone of the top of the furnace top, and their slopes are in the central zone, if the charge is negative, slopes of charge materials are loaded into the peripheral zone, and their ridges into the intermediate zone, while in sectors with a temperature deviation of less than 50 ^o С load ridges of charge materials into the intermediate zone, and their slopes into the central zone.