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Divided-period and multi-stage matching and optimizing method for operation parameters in furnace burning process of blast furnace and hot blast furnace

A technology of operating parameters and hot blast stoves, applied to blast furnaces, blast furnace details, blast furnace parts, etc., can solve problems such as the inability to establish accurate mathematical models, calculate the best air-fuel ratio and operating parameters, and achieve energy-saving and cost-reducing effects

Active Publication Date: 2017-11-07
CENT SOUTH UNIV
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Problems solved by technology

[0004] The purpose of the present invention is to provide a multi-stage matching optimization method for operating parameters in the blast furnace hot blast stove firing process, so as to solve the existing technical problem that the traditional method cannot establish an accurate mathematical model to calculate the optimal air-fuel ratio and operating parameters

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  • Divided-period and multi-stage matching and optimizing method for operation parameters in furnace burning process of blast furnace and hot blast furnace
  • Divided-period and multi-stage matching and optimizing method for operation parameters in furnace burning process of blast furnace and hot blast furnace
  • Divided-period and multi-stage matching and optimizing method for operation parameters in furnace burning process of blast furnace and hot blast furnace

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[0045] The embodiments of the present invention will be described in detail below with reference to the accompanying drawings, but the present invention can be implemented in many different ways defined and covered by the claims.

[0046] figure 2 It is the firing process of the blast furnace hot blast stove. The blast furnace gas is processed by dry dust removal, etc., and is transported to the top of the hot blast stove and burned with the preheated air according to the set air-fuel ratio. The heat exchange stores heat in the regenerator in the furnace to achieve the air supply target. Therefore, whether the setting of air-fuel ratio is reasonable or not is not only the key factor to determine the combustion efficiency and heat storage efficiency of the furnace, but also the direct influencing factor of the change of vault temperature and flue gas temperature and its change rate.

[0047] The present invention proposes such as figure 1 The shown method for optimizing the ...

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Abstract

The invention provides a divided-period and multi-stage matching and optimizing method for operation parameters in the furnace burning process of a blast furnace and a hot blast furnace. The method builds up historic databases of state parameters (the dome temperature, the smoke temperature, the dome temperature changing rate, the smoke temperature changing rate, the coal gas pressure, the air pressure and air-fuel ratio) and operation parameters (the coal gas valve opening degree and the air valve opening degree) on the basis of analyzing influences on inner operating and air supply results made by an air-fuel ratio set value in the furnace burning process, puts forward an efficiency evaluation method of the furnace burning process of the hot blast furnace by combining the air supply results, and explores excellent furnace burning times. The model matching spaces are built up by integrating the density peak value to seek for a clustering and correlation analysis method rapidly, divided-period and multi-stage matching is conducted according to the similarity of the state parameters, the optimal operation parameters in each stage of furnace burning is sought, and the purposes of saving coal gas consumption, improving the air supply temperature and ensuring the air supply duration are achieved.

Description

technical field [0001] The invention relates to the technical field of optimal control of blast furnace hot blast stoves, in particular to a multi-stage matching optimization method for operation parameters of blast furnace hot blast stove firing process. Background technique [0002] The large-scale hot blast stove is one of the important components of the modern blast furnace ironmaking system, which mainly provides continuous and stable high-temperature hot blast for the blast furnace. According to statistics, every time the hot air temperature increases by 100°C, the combustion temperature of the tuyeres can be increased by 20-300°C, the output can be increased by 3%-5%, the coke ratio can be reduced by 4%-7%, and the injection of pulverized coal can be increased by 15-40Kg / t. That is, increasing the air temperature of the hot blast stove is of great significance to the realization of low-carbon and high-efficiency production in the blast furnace ironmaking process. T...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21B9/00G06K9/62
CPCC21B9/00C21B2300/04G06F18/24137G06F18/214
Inventor 蒋朝辉周家达桂卫华谢永芳阳春华沈宇航
Owner CENT SOUTH UNIV
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