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Limestone slagging steelmaking lance position control method for basic oxygen furnaces

A technology of oxygen top blowing and control method, which is applied in the manufacture of converters, etc., which can solve the problems of increasing the risk and workload of furnace front workers, not being able to further improve dephosphorization efficiency, and waste of useful slag, so as to achieve faster temperature rise and generate The effect of increasing the CO ratio and suppressing slag overflow

Active Publication Date: 2014-07-16
SHIJIAZHUANG IRON & STEEL +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there is also a worrying problem in this way: if the model of lime slagging is continued and oxygen blowing at high lance position is used in the early stage of steelmaking, the slag overflow will start from 2 to 3 minutes until the decarburization period. It will last for 3 to 4 minutes, so that a large amount of slag has not participated in the fixed slag P 2 o 5 When it is lost, it not only causes a waste of useful slag, and cannot further improve the dephosphorization efficiency, but also needs to keep cleaning the furnace shell, operating platform and under the furnace, which increases the risk and workload of the furnace front workers.

Method used

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  • Limestone slagging steelmaking lance position control method for basic oxygen furnaces
  • Limestone slagging steelmaking lance position control method for basic oxygen furnaces

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Effect test

Embodiment 1

[0019] In a converter with a tapping capacity of 60 tons, full limestone and full molten iron are used for steelmaking. The molten iron temperature is 1296°C. The limestone is added in the amount of 90kg / t steel. From the beginning of the conversion, the oxygen lance is lowered to the Oxygen is blown at the hard blowing position in the carbon period, and then the gun position is adjusted up and down according to the splashing situation. The oxygen lance position is within the range of H=(24-30)d, and the gun is lowered to the blowing end after 13 minutes of oxygen blowing. At the lowest position, continue to blow oxygen for 20 seconds and then take samples from the furnace. The temperature reaches 1654℃, and the carbon, phosphorus and sulfur meet the composition requirements, and then the steel is tapped.

Embodiment 2

[0021] On a converter with a steel output of 60 tons, the slagging material is full limestone, the metal material is 95% molten iron + 5% scrap, the temperature of the molten iron entering the furnace is 1308℃, and the limestone is added in the amount of 90kg / t steel. At the beginning, the oxygen lance is lowered to the hard blowing position during the decarburization period to blow oxygen, and then the lance position is adjusted up and down according to the splashing situation. The oxygen lance position H=(22-28)d range, blow After 10.5 minutes of oxygen, lift the lance to the soft blowing position in the late stage of blowing, continue to blow oxygen for 1 minute and lower the oxygen lance to the lowest position for 15 seconds before the end point, and then invert the furnace to measure the temperature and sample. The temperature reaches 1642℃, carbon, phosphorus, and sulfur Meet the composition requirements, and then tap steel.

Embodiment 3

[0023] On a converter with a tapping capacity of 60 tons, 50% of the slagging material is lime, and the remaining part is added with limestone according to the required amount of CaO. The metal material is 85% hot metal + 15% pig iron. The equivalent lime is added in the amount of 50kg / t steel. From the beginning of the blowing, the oxygen lance is lowered to the hard blowing position during the decarburization period to blow oxygen, and then the position of the lance is adjusted up and down according to the situation of splashing. The gun position H=(26~32)d range, after blowing oxygen for 10 minutes, lift the gun to the soft blowing position in the later stage of blowing, continue blowing oxygen for 1 minute and lower the oxygen gun to the lowest position for 20 seconds before the end point, then turn the furnace down Temperature measurement and sampling, the temperature reached 1638 ℃, carbon, phosphorus, and sulfur meet the composition requirements, and then tapping.

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Abstract

The invention relates to a limestone slagging steelmaking lance position control method for basic oxygen furnaces, which belongs to the technical field of steelmaking. In the technical scheme, after limestone is directly added to replace conventional lime during slagging in the process of converter steelmaking, under the condition of keeping front pressure, the oxygen lance position is lowered to the decarburization-stage lance position in the lime slagging converting method at the early stage of converting in order to blow oxygen, and the lance position is raised at the middle and late stages of converting; when converting is almost ended, the lance position is lowered to the lowest position; and compared with the lime slagging converting method, the original high lance position is changed into the low lance position. The method has the advantages that not only the slag overflow of the mouth of a converter be inhibited, but also the proportion of carbon-oxygen reaction in molten iron is increased as much as possible from the beginning of oxygen blowing, thereby being equivalent to the advancement of the decarburization stage, and the effects of accelerating internal temperature rise, increasing the oxygen utilization rate, increasing the ratio of generated CO and the like can be achieved.

Description

Technical field [0001] The invention relates to a method for controlling the position of a limestone slagging steelmaking gun for an oxygen top-blowing converter, and belongs to the technical field of steelmaking production. Background technique [0002] Steelmaking is a process of oxidizing and removing impurity elements in the molten iron and refining and purifying. It is necessary to add alkaline oxides into the furnace and melt them into the slag, and the acidic components oxidized from the molten iron, especially P 2 O 5 The reaction produces stable compounds and ensures that phosphorus is no longer reduced to molten iron. So far, steelmaking has always used lime as an alkaline oxide for slagging. In 1952, the oxygen top-blowing converter steelmaking method came out. In the converter, a vertically inserted spray gun with a Laval nozzle at the bottom and capable of spraying high-speed oxygen was used to blow oxygen into the molten iron for rapid smelting. In order to adapt to...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21C5/32C21C5/36
Inventor 李宏梁玫董大西严国安杨峰功张红卫刘瑞宁李胜利曲均志葛永肖容晨光王恭亮
Owner SHIJIAZHUANG IRON & STEEL
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