RU2009221C1 - Burden for sinter production - Google Patents

Abstract

FIELD: ferrous metallurgy. SUBSTANCE: burden contains a mixture of blast furnace, steel- smelting, and mill slimes and blast furnace dust in the proportion of (in % by mass): slimes and blast furnace mixture 6 - 17; mill scale 8 - 10; fuel 2 - 5; limestone 8 - 14; iron ore - the balance, with slimes to blast furnace dust ratio of 1 : (0.8 - 1.8), respectively. EFFECT: improved quality of the product. 2 cl, 3 tbl

Description

 The invention relates to ferrous metallurgy.

 Known mixture for the production of sinter, consisting of iron ore, lime and fuel, which additionally contains up to 5% sludge [1].

 With the addition of 5% sludge, the sintering process does not deteriorate, the vertical sintering speed slightly increases. The strength of the sinter does not deteriorate.

 The disadvantage of this technological solution is to reduce the iron content when introducing sludge into the mixture.

 The closest in technical essence and the achieved result is a mixture in the following ratio of components, wt. %: spent iron-chromium catalyst 2-8; fuel 5.5-7; limestone 10-13; scale 5-7; iron ore - the rest [2].

 The disadvantages of this charge are, firstly, the high temperature and thermal level of the sintering process of sinter using chromium oxides in the charge, which requires increased fuel consumption, and secondly, the low strength of the sinter due to the formation of a liquid oxide phase during the combustion of fuel in the layer is inactive, has a high viscosity and poorly wetts the particles of the iron ore part of the charge.

 The purpose of the invention is to increase the mechanical strength of the agglomerate both in the "cold" state and in the recovery and disposal of waste from metallurgical production.

This is achieved by the fact that the mixture for the production of sinter instead of refractory waste such as iron-chromium catalyst contains a mixture of blast furnace, steelmaking and rolling sludge and blast furnace dust in the following ratio of components, wt. %:
A mixture of sludge and blast furnace dust 6-17 Rolling mill scale 8-10 Fuel 2-5 Limestone 8-14 Iron ore The rest.

 Sludge and blast furnace dust taken in the ratio of 1 (0.8-1.8), respectively.

 The essence of the phenomena occurring during the introduction of a mixture of metallurgical waste products is the formation of cake in the initial period of agglomeration.

The main task of the initial period of agglomeration is to ensure intensive flow of liquid phase sintering. The introduction of a mixture of sludge and blast furnace dust having a melting point of 1100-1140 ^about With in the initial period of agglomeration, provides the emergence of liquid phase nuclei under the action of an external heat source. Intensive liquid phase sintering is achieved with a certain combination of external and internal heat sources. Carbon contained in metallurgical wastes contributes to the intensification of this process, which provides increased strength of the upper part of sinter.

 The melt composition in this technical solution is determined by the ratio in the mixture of sludge and blast furnace dust, and the amount of melt is determined by the content of the mixture of sludge and blast furnace dust in the sinter mixture. The regulation of the limits of the content of the mixture of sludge and blast furnace dust in the charge due to the fact that when the content is lower than 6 wt. %, the amount of melt forming in the upper part of the agglomeration layer is not enough to organize liquid phase sintering and hardening of the material.

 With an increase in the content of the mixture above 17 wt. % an excessive amount of melt is formed, leading to stretching along the height of the zone of the plastic state and melting due to low softening temperatures of carbon-containing waste.

 The reduction in the mixture of mill scale below 8 wt. % leads to a decrease in the iron content in the agglomerate. With an increase in content above 10 wt. % there is an increase in the melting temperature of the mixture and an increase in the temperature-thermal level of the agglomeration process, which requires an increased fuel consumption.

 The decrease in the fuel content in the mixture below 2 wt. % does not ensure the implementation of the sintering process, which leads to a decrease in the strength characteristics of the agglomerate. The increase in fuel content in the sinter charge is above 5 wt. % leads to a decrease in the cold strength of the agglomerate due to an increase in the content of iron oxide.

 Regulation of the content of limestone in the sinter charge is due to the fact that with a decrease in the content below 8 wt. % in the blast furnace process additional input of limestone is required, which leads to an increase in coke consumption and a decrease in furnace productivity. The increase in limestone content above 14 wt. % leads to a decrease in the strength properties of the agglomerate.

 The regulation of the ratio of the content of sludge and blast furnace dust in the mixture is caused by the fact that when the ratio decreases below 1: 0.8, it increases the moisture capacity of the charge and increases the fuel consumption for ignition of the sinter charge. With an increase in the ratio above 1: 0.8, on the one hand, the content of gangue in the sinter increases, and, on the other, the melting temperature of the material increases, which makes it impossible to organize liquid-phase sintering in the upper part of the sinter charge on a conveyor machine.

 In identical conditions KBRZHR was a comparative analysis of the technical and economic indicators for the production of sinter from the proposed mixture and prototype. The raw materials used were metallurgical wastes, limestone, anthracite slab, sinter ore and iron ore concentrate, the chemical composition of which is given in Table. 1.

 A mixture of sludge and blast furnace dust were pre-mixed in a predetermined ratio. The initial charge materials were metered in such a way that the composition of the charge corresponded to the limits of the claimed charge both outside and outside them, after which they were mixed, moistened, pelletized and loaded onto a conveyor sintering machine and processed according to the technological regime applicable to KBRZhK.

 The study of the influence of the limits of the parameters of the claimed composition of the charge on the performance of the process of obtaining sinter was carried out in two stages.

 In the table. Figures 2 and 3 show the values of the controlled parameters obtained in the first and second stages with varying values of the contents of the charge components and the ratio of the contents of sludge and blast furnace dust in the mixture.

 From the table. 2 and 3 it follows that deviations of the values of the boundary values of the claimed parameters both upward and downward lead to a deterioration in performance in the process of producing sinter. (56) 1. Hutnik (CSSR), 1969, 19, N 2, 41-43.

 2. USSR copyright certificate N 1303626, cl. C 22 V 1/16, 1987.

Claims (1)

1. A mixture for the production of sinter, containing iron ore material, fuel, limestone and metallurgical waste, including mill scale, characterized in that as metallurgical waste it additionally contains a pre-prepared mixture of sludge from blast furnace, steelmaking, rolling mill and blast furnace dust in the next the ratio of components, wt. %:
Mixture of sludge and blast furnace dust 6.0 - 17.0
Rolling scale 8.0 - 10.0
Fuel 2.0 - 5.0
Limestone 8.0 - 14.0
Iron ore Else
2. The mixture according to claim 1, characterized in that the sludge and blast furnace dust are taken in a ratio of 1.0: (0.8 - 1.8), respectively.

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