The slag adjustment method used in the converter slag splashing protection process

A technology for protecting furnaces and converters by slag splashing, applied in the field of metallurgy, can solve the problems of high price of magnesium balls and light-burned dolomite, unfavorable cost control, and long slag splashing time, so as to improve the yield of molten steel, reduce iron loss, The effect of increasing furnace life

Active Publication Date: 2016-01-13
武汉钢铁有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the converter slag splash protection process, after the steel is exhausted and all or part of the slag is left, it is necessary to observe the thickness of the slag and the temperature, and then decide whether to add a slag adjustment agent. Among them, when the final slag of the converter is too thin, splashing will occur. Due to the problems of long slag time and difficult slag splashing, there are two main methods of slag adjustment in the existing converter slag splashing protection process: first, adding magnesium balls (the main component of magnesium balls is Mg) and coke to the slag; Second, adding light-burned dolomite (mainly composed of MgO) and coke, but the existing slag adjustment method has the following disadvantages: 1) The slag splashing time is too long; 2) Iron loss is relatively large; 1) Magnesium balls and light-burned dolomite The price is high, which is not conducive to cost control

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] Slag adjustment for converter final slag with FeO content of 20.1%:

[0018] 1) After the converter is tapped, 21t of slag is left, and the converter is shaken;

[0019] 2) Put 135kg of raw dolomite with a particle size of 10mm and 315kg of coke with a particle size of 10mm into the slag, and mix them evenly for slag adjustment.

[0020] The comparison of slag components before and after slag adjustment is shown in Table 1:

[0021] Table 1

[0022]

[0023] The slag splashing operation is performed on the slag after slag adjustment by using high-pressure nitrogen gas, and the slag splashing time only needs 180s.

Embodiment 2

[0025] Slag adjustment for converter final slag with FeO content of 18%:

[0026] 1) After the converter is tapped, 21t of slag is left, and the converter is shaken;

[0027] 2) Put 105kg of raw dolomite with a particle size of 15mm and 420kg of coke with a particle size of 5mm into the slag, and mix them evenly for slag adjustment.

[0028] The comparison of slag components before and after slag adjustment is shown in Table 2:

[0029] Table 2

[0030]

[0031] The slag splashing operation is performed on the slag after slag adjustment by using high-pressure nitrogen gas, and the slag splashing time only needs 178s.

Embodiment 3

[0033] Slag adjustment for converter final slag with FeO content of 23%:

[0034] 1) After the converter is tapped, 21t of slag is left, and the converter is shaken;

[0035] 2) Put 210kg of raw dolomite with a particle size of 20mm and 378kg of coke with a particle size of 8mm into the slag, and mix them evenly for slag adjustment.

[0036] The comparison of slag components before and after slag adjustment is shown in Table 3:

[0037] table 3

[0038]

[0039] The slag splashing operation is performed on the slag after slag adjustment by using high-pressure nitrogen gas, and the slag splashing time only needs 170s.

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Abstract

A disclosed slag conditioning method for converter slag-splashing converter-protection technology comprises the following steps: 1) keeping all or part of slag left after converter tapping is finished; and 2) pouring 5-10 Kg of raw dolomite and 15-20 Kg of coke into per ton of the slag, mixing uniformly for slag conditioning. According to the slag conditioning method, aiming at a melting process during which the converter final slag has high oxidizability, coke and raw dolomite are added into slag, so that MgO in the slag is easy to saturate, and thus the service life of converter lining is prolonged; additionally, because the main component of raw dolomite is MgCO3, MgO generated by decomposition of the raw dolomite helps to improve the viscosity of the slag, and a slag splashing layer is easy to form; also the decomposition reaction is an endothermic reaction, so that the slag temperature is reduced; and more importantly, CO2 gas generated by the decomposition reaction helps to violently stir a molten pool and accelerate the reaction of coke and slag, so that the method provided by the invention helps to shorten the slag splashing time, improve the service life of the converter, reduce iron loss and further improve molten steel yielding rate.

Description

technical field [0001] The invention relates to metallurgical technology, in particular to a slag adjustment method used in the converter slag splashing protection process. Background technique [0002] Furnace age is a comprehensive technical and economic indicator for converter steelmaking. Increasing furnace age can not only reduce refractory consumption, increase operating rate, and reduce production costs, but also help promote a virtuous cycle of production. The converter lining works under high temperature and high oxidizing conditions, and is usually eroded at a rate of 0.2-0.8mm / furnace. In order to ensure the normal production of the converter and improve the life of the lining, metallurgical workers in my country have done a lot of work. Among them, slag splashing to protect the furnace It is a new technology developed in recent years to increase the furnace life, and has achieved remarkable results in the production of a large number of iron and steel enterprises....

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21C5/36
Inventor 孙伟李海洋杨文军孔勇江宋泽啟彭琦崔辉沈武曹同友韩斌
Owner 武汉钢铁有限公司
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