KR101388020B1 - Mehtod for controlling combustion of hot strove of blast furnace - Google Patents

Abstract

The present invention relates to a method of controlling the combustion of a blast furnace. When a dome temperature of the blast furnace is abnormal, a mixed firing ratio and an air fuel ratio are controlled based on the interface temperature of a combustion chamber, the temperature of a grid in a regenerator, and the temperature of exhaust gas at an output side of the regenerator according to modeled combustion patterns based on combustion data stored in a normal operation, so that combustion control can be performed normally even if the dome temperature is abnormal. Accordingly, bricks and grids can be stabilized, and a blast furnace profile can be maintained. [Reference numerals] (100) Storage unit; (50) Control unit; (AA) Combustion air

Description

METHOD FOR CONTROLLING COMBUSTION OF HOT STROVE OF BLAST FURNACE}

The present invention relates to a combustion control method of a hot stove, and more particularly, when an abnormality occurs in a dome temperature of a hot stove, an interface temperature of a combustion chamber and a heat storage chamber according to a combustion pattern modeled based on combustion data stored during normal operation. It relates to a combustion control method of a hot stove for controlling the gas mixing ratio and the air-fuel ratio based on the grid temperature and the exhaust gas temperature of the heat storage chamber exit.

In general, the blast furnace work, which is one of the steelmaking processes, is carried out through a melt reduction process by charging iron ore and cokes into the blast furnace and blowing hot hot air generated from the hot blast furnace into the blast furnace through a blowhole formed on one side of the blast furnace. It is the process of producing molten iron.

The hot blast furnace burns a mixture of blast furnace gas (BFG) and coke oven gas (COG) in the combustion chamber and stores the heat generated in the regenerator chamber. In the hot stove facility, the dome temperature is managed to perform combustion control.

Related prior art is Korean Patent Publication No. 10-2011-0120444 (2011.11.04.) "Combustion control apparatus and method of a hot stove facility".

According to the present invention, when an abnormality occurs in the dome temperature of a hot stove, the combustion chamber interface temperature, the grid temperature of the heat storage chamber, and the exhaust gas temperature at the exit side of the heat storage chamber are based on the combustion pattern modeled on the basis of the combustion data stored during normal operation. It is an object of the present invention to provide a combustion control method of a hot stove for controlling a gas mixing ratio and an air-fuel ratio.

Combustion control method of the hot stove according to an aspect of the present invention comprises the steps of the control unit determines whether the dome temperature input from the dome temperature sensing unit; Modeling a combustion pattern by reading combustion data stored in the storage unit when the dome temperature is abnormal as a result of the determination; And controlling the gas mixing ratio and the air-fuel ratio based on the modeled combustion pattern to perform combustion control.

Determining whether the dome temperature is normal in the present invention, when the dome temperature is normal, controlling the gas mixing ratio and the air-fuel ratio according to the dome temperature to perform combustion control; And storing combustion data during the combustion control in a storage unit.

In the present invention, the combustion data may include at least one of a dome temperature, an interface temperature, a grid temperature, an exhaust gas temperature, a mixed gas flow rate, an air flow rate, a mixed gas control valve, and an opening value of the air control valve.

In the present invention, the combustion pattern is characterized in that it is modeled based on at least one of the interface temperature, grid temperature, exhaust gas temperature.

In the present invention, the gas mixing ratio and the air-fuel ratio are controlled by adjusting the opening values of the mixed gas regulating valve and the air regulating valve.

According to the present invention, when an abnormality occurs in the dome temperature of a hot stove, the combustion chamber interface temperature, the grid temperature of the heat storage chamber, and the exhaust gas temperature at the exit side of the heat storage chamber are based on the combustion pattern modeled on the basis of the combustion data stored during normal operation. By controlling the gas mixing ratio and the air-fuel ratio, it is possible to maintain normal combustion control even if an abnormality occurs in the dome temperature, to stabilize the edible and the collectibles, and to maintain an aging profile by supplying an appropriate wind temperature.

1 is a block diagram showing a combustion control apparatus of a hot stove according to an embodiment of the present invention.
2 is a block diagram illustrating a combustion control apparatus of a hot stove according to an embodiment of the present invention.
3 is a flowchart illustrating a combustion control method of a hot stove according to an embodiment of the present invention.
4 is a graph illustrating a combustion pattern of combustion data stored according to a combustion control method of a hot stove according to an embodiment of the present invention.

Hereinafter, an embodiment of a combustion control method of a hot stove according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a block diagram showing a combustion control apparatus of a hot stove according to an embodiment of the present invention, Figure 2 is a block diagram illustrating a combustion control apparatus of a hot stove according to an embodiment of the present invention.

As shown in FIGS. 1 and 2, the hot stove facility burns mixed gas and air for combustion in the combustion chamber 112 of the hot stove 110 to heat heat in the heat storage chamber 111 of the hot stove 110. After the heat storage, the blower 120 is operated to blow air into the heat storage chamber 111 to supply high temperature hot air to the blast furnace 130.

The hot stove facility uses a mixture of BFG gas and COG gas generated in the process of producing molten iron in the blast furnace 130 as a mixed gas for combustion.

The dome temperature sensing unit 10 detects the temperature of the dome 113 of the hot stove 111.

The exhaust gas temperature detection unit 20 detects the temperature of the exhaust gas discharged from the hot stove 110 to the stack 140.

The grid temperature detector 30 detects the temperature of the grid at the lower end of the heat storage chamber 111 of the hot stove 110.

The interface temperature detector 40 detects the temperature of the interface unit from which the hot air is discharged from the combustion chamber 112 of the hot stove 110 to the blast furnace 130.

The mixed gas flow rate detection unit 60 detects a flow rate of the mixed gas in which the BFG gas and the COG gas are mixed in the gas mixing chamber 150 is supplied to the combustion chamber 112 of the hot stove 110.

The air flow rate detection unit 70 detects a flow rate of the combustion air supplied to the combustion chamber 112 of the hot stove 110.

The mixed gas control valve 80 controls the gas mixing rate by adjusting the flow rate of the mixed gas supplied to the combustion chamber 112 of the hot stove 110.

The air control valve 90 controls the air-fuel ratio by adjusting the flow rate of air supplied to the combustion chamber 112 of the hot stove 110.

The storage unit 100 stores combustion data while combustion is normally performed in the hot stove 110, and stores the combustion pattern when modeling by the combustion pattern is made.

The controller 50 controls the gas mixing ratio and the air-fuel ratio by controlling the mixed gas control valve 80 and the air control valve 90 based on the dome temperature input from the dome temperature sensing unit 10 during combustion to perform combustion control. Perform.

At this time, when the normal combustion control is made, as the combustion data, the dome temperature, the interface temperature, the grid temperature, the exhaust gas temperature, the mixed gas flow rate, the air flow rate, and the opening values of the mixed gas control valve 80 and the air control valve 90 are stored. Stored in the unit (100).

Thereafter, the controller 50 models a combustion pattern based on the combustion data stored in the storage unit 100 when an abnormality occurs in the dome temperature input from the dome temperature sensing unit 10, and according to the combustion pattern, the interface temperature, grid temperature, Combustion control is performed while controlling the gas mixing ratio and the air-fuel ratio by controlling the mixed gas control valve 80 and the air control valve 90 based on the exhaust gas temperature.

3 is a flowchart illustrating a combustion control method of the hot stove according to an embodiment of the present invention, Figure 4 is a combustion pattern of the combustion data stored in accordance with the combustion control method of the hot stove according to an embodiment of the present invention. The graph shown.

In the combustion control method of the hot stove according to an embodiment of the present invention, as shown in Figure 3, first, the control unit 50 is received from the dome temperature sensing unit 10 to perform the combustion control (S10), It is determined whether the dome temperature is normal (S20).

As a result of the determination, when the dome temperature is normal, the control unit 50 controls the mixed gas control valve 80 and the air control valve 90 to control the gas mixing ratio and the air-fuel ratio based on the dome temperature as a normal operation state. Combustion control of the furnace 110 is performed (S30).

Subsequently, the controller 50 stores the combustion data during the combustion control based on the dome temperature in the storage unit 100 (S40).

The combustion data preferably includes the dome temperature, the interface temperature, the grid temperature, the exhaust gas temperature, the mixed gas flow rate, the air flow rate, the mixed gas control valve 80 and the opening degree of the air control valve 90 which are controlled during the combustion control. Do.

On the other hand, in step S20, when the controller 50 determines whether the dome temperature input from the dome temperature sensor 10 is normal to perform combustion control, and the dome temperature is abnormal, the controller 50 The combustion data stored in the storage unit 100 is read (S50), and a combustion pattern is modeled based on the read combustion data (S60).

As shown in FIG. 4, the mixed gas flow rate, the air flow rate, the opening value of the mixed gas control valve, and the opening value of the air control valve are increased at the beginning of combustion, are kept constant in the middle of combustion, and decreased at the end of combustion. The interface temperature and grid temperature increase linearly from the beginning of the heating phase, showing the combustion pattern reaching the maximum temperature at the end of combustion.

That is, the controller 50 models the combustion pattern as shown in FIG. 4 based on the combustion data read from the storage 100.

Next, in a state where the dome temperature is abnormal, the controller 50 controls the opening values of the mixed gas control valve 80 and the air control valve 90 based on the interface temperature, the grid temperature, and the exhaust gas temperature according to the modeling of the combustion pattern. Combustion control is performed by controlling the gas mixing ratio and the air-fuel ratio by adjusting (S70).

As described above, according to the combustion control method of the hot stove according to the present invention, when an abnormality occurs in the dome temperature of the hot stove, the combustion pattern is modeled based on the combustion data stored in the normal operation, and then the interface temperature and the heat storage of the combustion chamber according to the combustion pattern. By controlling the gas mixing rate and air-fuel ratio based on the grid temperature of the chamber and the exhaust gas temperature on the exit side of the heat storage chamber, even if an abnormality occurs in the dome temperature, the combustion control can be stabilized to stabilize the edible and the collectibles, To help maintain the aging profile.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

10: dome temperature detection unit 20: exhaust gas detection unit
30: grid temperature sensor 40: interface temperature sensor
50: control unit 60: mixed gas flow detection unit
70: air flow detection unit 80: mixed gas control valve
90: air control valve 100: storage unit
110: hot stove 111: heat storage room
112: combustion chamber 113: dome
120: blower 130: blast furnace
140: stack 150: gas mixer

Claims (5)

Determining, by the controller, whether the dome temperature input from the dome temperature sensor is normal;
Modeling a combustion pattern by reading combustion data stored in a storage unit when the dome temperature is abnormal as a result of the determination; And
And controlling the gas mixing ratio and the air-fuel ratio based on the modeled combustion pattern to perform combustion control.
The method of claim 1, further comprising: controlling combustion of the gas mixing ratio and the air-fuel ratio according to the dome temperature when the dome temperature is normal; And
And storing the combustion data during the combustion control in the storage unit.
The method of claim 1, wherein the combustion data includes at least one of a dome temperature, an interface temperature, a grid temperature, an exhaust gas temperature, a mixed gas flow rate, an air flow rate, a mixed gas control valve, and an opening value of the air control valve. The combustion control method of a hot stove.
The method of claim 1, wherein the combustion pattern is modeled based on at least one of an interface temperature, a grid temperature, and an exhaust gas temperature.
The method according to claim 1, wherein the gas mixing ratio and the air-fuel ratio are controlled by adjusting the opening values of the mixed gas regulating valve and the air regulating valve.

Images