RU2268947C2 - Method of blast-furnace smelting - Google Patents

Abstract

FIELD: ferrous metallurgy; blast-furnace process.

SUBSTANCE: proposed method includes loading coke, iron-ore materials and coal through furnace top; loading is performed at different feed of iron-ore materials and coke increasing the mass of coke feed from minimum permissible magnitude determined from the following relationship: MF≥MF_base·C_base(C_base-C·C_repl), where MF and MF_base are mass of coke feed in modes of replacement of coke by coal and in base mode, t; C_base is specific consumption of coke in base mode, kg/t of cast iron; C is amount of coal fed for replacement of coke, kg/t of cast iron; C_repl is coefficient of replacement of coke by coal, kg/kg to maximum magnitude of coke feed when smooth operation and better operational parameters of furnace are obtained. Coal is mixed with iron-ore materials in each feed at weight ratio more than 6.0 of iron-ore materials to 1 ton of coal.

EFFECT: reduced consumption of coke; increased output of furnace.

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Description

The invention relates to the field of ferrous metallurgy, in particular to blast furnace production, and in particular to methods of replacing part of coke with coal.

A known method of blast furnace smelting, including loading through the top of the feeds consisting of coke, ore part of the charge and coal for a given mass ratio of coal to coke, while feeding feeds with coal is carried out with a period from the time the charge is in the furnace to the product of the residence time charge in the furnace on the ratio of bulk weights of coke and coal [1].

The disadvantage of this method of blast furnace smelting is the disruption of the blast furnace due to the deterioration of the gas transmission capacity of the zone of the liquid plastic state (zone of "cohesion") when replacing coke with coal. Depending on the sequence of collection of materials on a large cone and lowering them into the furnace, several loading methods (orders) are distinguished: joint feeding (cyclic loading), separate feeding and split feeding [2, p.187-189]. Currently, a blast furnace is used in blast furnaces, for example, 3ААКК4 ↓ 2ККАА ↓, etc., i.e. the coke layer in the charge column is formed from two skips of coke. When replacing a part of coke with coal, the thickness of coke layers decreases and, accordingly, the area of coke “windows” in the softening zone of materials. At the same time, the loading of coal does not add to the area of the “windows”, since coal cracks when the temperature rises and gives a lot of fines, which, when mixed with softened materials, are impermeable to gas. This leads to an increase in gas-dynamic stress in the specified zone and a corresponding deterioration in the gas distribution conditions in the furnace, which contribute to an increase in heat and fuel costs, as well as a decrease in furnace productivity.

The goal is to reduce the coke consumption and increase the productivity of blast furnace smelting when replacing the maximum possible part of coke with coal by setting rational loading parameters that will increase gas permeability not only in the layers of iron ore materials with which coal is mixed, but also in the zone of their softening, thereby improving gas distribution and heat and mass transfer in the furnace.

The problem is solved as follows.

In contrast to the known method of blast-furnace smelting with feeding feeds consisting of coke, iron ore materials and coal in the furnace top, in the proposed method, the furnace is preliminarily transferred to loading by separate feeds of iron ore materials and coke with an increase in the mass of coke feed from the minimum allowable value determined from the ratio : MP≥MP _B · K _B / (K _B -U · KZ), where MP, MP _B are the mass of coke feed, respectively, in the regimes with the replacement of coke with coal and in the base, t; K _B - specific consumption of coke in the basic mode, kg / t of pig iron; Y is the amount of coal supplied to replace coke, kg / t of pig iron; KZ - coefficient to replace coke with coal, kg / kg; up to the maximum value of coke feed, at which an even course and the best performance of the furnace are achieved; while coal is mixed with iron ore materials in each feed in a ratio of more than 6 tons of iron ore materials per 1 ton of coal.

Between the essential distinguishing features of the invention and the achieved technical result there is the following causal relationship.

The transfer of the blast furnace to the loading system, in which it is possible to increase the mass of coke in the feed, with the determination of the minimum allowable feed when reducing the specific consumption of coke by replacing it with coal, as well as preliminary mixing of coal with iron ore materials in a certain weight ratio, contributes to the smooth running of the furnace at high coal consumption.

Thus, the significant distinguishing features of the proposed method ensure the achievement of the technical result, which consists in the smooth running of the furnace at high coal consumption. The consumer result will be expressed in increasing the productivity of the furnace and reducing the consumption of coke.

The method is as follows.

Iron ore materials, coke, coal fluxes are loaded onto the top of a blast furnace. Combined blast is fed through the tuyeres to the furnace hearth. Liquid smelting products - pig iron and slag are released from the hearth. From a cyclic loading system, for example 4KAAK ↓ AAKK ↓, the furnace is transferred to a separate feed, for example AAA ↓ KKK ↓, AAAA ↓ KKKK ↓, AAAA ↓ KKK ↓, etc. According to the formula: MP≥MP _B · K _B / (K _B -U · KZ), where MP, MP _B is the mass of coke feed, respectively, in modes with coke replacement with coal and in the base, t; K _B - specific consumption of coke in the basic mode, kg / t of pig iron; Y is the amount of coal supplied to replace coke, kg / t of pig iron; KZ - coefficient of coke replacement with coal, kg / kg, determine the minimum allowable supply of coke when replacing it with coal, in order to prevent a decrease in the thickness of coke windows in the cohesion zone. The maximum value of the coke feed is found empirically, successively changing the feed mass, ensuring the constancy or growth of the ore load, smooth running of the furnace and the best performance of the furnace. Coal is loaded into skip with iron ore materials, ensuring their mixing in a ratio of more than 6 tons of iron ore materials per 1 ton of coal. This contributes to the expenditure of the bulk of coal fines for direct reduction of iron ore materials while preventing its entry into the furnace, which reduces the likelihood of clutter of the furnace.

An example of the method

On a blast furnace with a volume of 2700 m ³ at Krivorozhstal Mining and Metallurgical Plant, the following was normally loaded into the furnace: local coke and agglomerate of the sinter plant according to the 4KAAK ↓, ААКК ↓ system, to a bed level of 1.75 m, ore ore mass on average 37.4 t, at an ore load of 3.46 t / t (mass of coke in the feed of 10.8 t). VRS worked at 6 stations. The data of peripheral thermocouples of the 4th horizon showed uneven operation of the furnace around the top of the furnace top. Production was at the level of 3378 t / day with the consumption of coke 523 kg / t · cast iron.

We switched to loading the furnace with separate feeds of iron ore materials and coke according to the AAAA ↓, KKKK ↓ system, to the mound level of 1.5 m. According to the formula: MP≥MP _B · K _B / (K _B -U · KZ), where MP, MP _B - mass of coke feed, respectively, in modes with the replacement of coke with coal and in the base, t; K _B - specific consumption of coke in the basic mode, kg / t of pig iron; Y is the amount of coal supplied to replace coke, kg / t of pig iron; KZ - coefficient of coke replacement with coal, kg / kg, determined the minimum allowable supply of coke when replacing it with coal 40, 80, 120, 160 and 320 kg / t of pig iron., Which amounted to 11.5, respectively; 12.3; 13.2; 14.3 and 21.1 tons, respectively. Ensuring a smooth running of the furnace, the mass of the ore rash was increased to 97 tons with a mass of coke feed of 28 tons, which, under the conditions of preserving the gas transmission capacity of the cohesion zone, allows loading up to 320 kg / t of pig iron into the furnace. Coal, specifically anthracite, was loaded from additive hoppers at a dose of agglomerate and together into skip. Due to overloads, anthracite was mixed well with agglomerate. Anthracite fractions of 25-50 mm were loaded into the furnace sequentially at different periods in amounts of 20, 40, 60 and 80 kg / t of cast iron, which amounted to 0.85; 1.7; 2.5 and 3.4 tons, in a weight ratio with an agglomerate of 28.5-114. A further increase in coal consumption was limited by its lack in bunkers. With an increase in coal supply to 5, 7 and 14 tons, the specific consumption of coal can be increased to 115, 160 and 320 kg / t of pig iron., While the weight ratio of the mixture of sinter with coal in each feed will be 6.9-19.4. With fluctuations in the ore rash of 84-97 tons per feed, this ratio is equal to or more than 6 tons of iron ore materials per 1 ton of coal. The indicated masses of 5, 7 and 14 tons of coal mixed with agglomerate with a four-skip loading system fit in a skip having a useful volume of 17 m ³ and a load capacity of 35 tons.

The furnace with a coal consumption of 80 kg / t of cast iron. worked smoothly, thermocouples of the 4th horizon showed uniform operation of the furnace and around the circumference. Productivity increased to 3600 t / day with a decrease in coke consumption to 460 kg / t · cast iron.

Information sources

1. A.S. USSR No. 1158591, MKI ⁴ C 21 to 3/00, 1985.

2. Efimenko G.G., Gimmelfarb A.A., Levchenko V.E. Iron metallurgy. - Kiev: Vishcha school, 1981. - 496 p.

Claims (1)

A blast furnace method comprising loading coke, iron ore materials and coal through a furnace top, characterized in that the loading is carried out by separate feeds of coke and a mixture of iron ore materials with coal in a ratio of more than 6 tons of iron ore materials per 1 ton of coal, while increasing the mass of coke feed from the minimum allowable value, determined from the ratio of MP≥MP _B · K _B / (K _B -U · KZ), where MP, MP _B is the mass of coke feed, respectively, in the regimes with the replacement of coke with coal and in the base, t; K _B - specific consumption of coke in the basic mode, kg / t of pig iron; Y is the amount of coal supplied to replace coke, kg / t of pig iron; KZ - the coefficient of replacement of coke with coal, kg / kg, to the maximum value of coke feed, providing a smooth running and the best performance of the furnace.