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A MULTILEVEL RESOURCE-SAVING BLAST FURNACE PROCESS CONTROL

A multilevel resource-saving blast furnace process control is considered. The resource-saving control is provided for operating, adaptation, technical and economic control in the automated systems of blast-furnace processes. It is proposed to form optimal operation modes of blast furnace heating, metal charge structures, natural gas and oxygen consumption. Decisions are made using Kohonen neural networks taking into account current and planned parameters of coke quality, iron ore, raw materials and blast. At the level of operating control, the work suggests a model predictive control to improve the resource conservation indicators. The method is based on decomposition of the general problem of the process dynamics identification on particular problems: dynamic synchronization and identification of process transfer functions. At the level of adaptive control, optimal operating modes of blast furnaces are expedient to be developed with respect to blast furnace heating, structure of metal charge, natural gas and oxygen rate considering the current and planned parameters of coke, blasting. The blast furnace operating modes are suggested to be determined based on Kohonen neural networks. In evaluating the efficiency of introducing the model predictive control, the existing actual statistics of scatter of BF mode parameters should be based upon. The fact is that the introduction of model predictive control assumes no radical change of the BF melt technology. Like in all the control systems, the BF process is considered as the set control object with all its characteristics. Changing process settings, raw material content does not introduce any cardinal variation in the scatter of process characteristics. However, in this case a transient process occurs which is necessary for the control system to identify the changing conditions. The transient process is inherent to all the control systems and the blast furnace process is not an exclusion. As a result of transient process, the control system is set to the optimal mode.

FSAEIHE South Ural State University (National Research University)

T.A. Barbasova

Bulletin of the South Ural State University. Ser. Computer Technologies, Automatic Control & Radioelectronics

2021

Title: A MULTILEVEL RESOURCE-SAVING BLAST FURNACE PROCESS CONTROL

Description:

A multilevel resource-saving blast furnace process control is considered.

The resource-saving control is provided for operating, adaptation, technical and economic control in the automated systems of blast-furnace processes.

It is proposed to form optimal operation modes of blast furnace heating, metal charge structures, natural gas and oxygen consumption.

Decisions are made using Kohonen neural networks taking into account current and planned parameters of coke quality, iron ore, raw materials and blast.

At the level of operating control, the work suggests a model predictive control to improve the resource conservation indicators.

The method is based on decomposition of the general problem of the process dynamics identification on particular problems: dynamic synchronization and identification of process transfer functions.

At the level of adaptive control, optimal operating modes of blast furnaces are expedient to be developed with respect to blast furnace heating, structure of metal charge, natural gas and oxygen rate considering the current and planned parameters of coke, blasting.

The blast furnace operating modes are suggested to be determined based on Kohonen neural networks.

In evaluating the efficiency of introducing the model predictive control, the existing actual statistics of scatter of BF mode parameters should be based upon.

The fact is that the introduction of model predictive control assumes no radical change of the BF melt technology.

Like in all the control systems, the BF process is considered as the set control object with all its characteristics.

Changing process settings, raw material content does not introduce any cardinal variation in the scatter of process characteristics.

However, in this case a transient process occurs which is necessary for the control system to identify the changing conditions.

The transient process is inherent to all the control systems and the blast furnace process is not an exclusion.

As a result of transient process, the control system is set to the optimal mode.

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A MULTILEVEL RESOURCE-SAVING BLAST FURNACE PROCESS CONTROL

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