KR100588964B1 - Apparatus for combustion by using extinct air of hot stove equipment - Google Patents

Abstract

The present invention blows the hot air produced by using the gas produced in steel mills into the blast furnace, and by using the stored waste heat to minimize the energy saving effect and the oxygen concentration of the air supplied to the pulverized coal production equipment, the explosion due to ignition is not delayed. The present invention relates to a combustion device using waste air of a hot stove facility that can be prevented.

The present invention prevents waste air leakage to the atmosphere and pulverized coal production equipment through the waste air recovery valve installed between the heat storage chamber and the waste air back pressure valve, and the combustion air and the waste air are mixed in the waste air recovery valve to supply the final combustion air. A waste air control unit connected to the mixing chamber through a waste air recovery control valve; Input the ratio setting for calculating the final air ratio for the combustion air and the waste air temperature control through the calculator connected to the waste air and the combustion air temperature detector through the air temperature input unit. An additional operation control unit; A controller for controlling the waste air recovery control valve through a value fed back from the mixed air temperature detector installed in the mixing chamber, a selector for selecting a control input value with a value automatically calculated by the calculator, and the waste air recovery control valve. An input control unit including a control value manual input unit for controlling; Characterized in that consists of.

Hot stove, heat storage room, calculator, selector, controller

Description

Apparatus for combustion by using extinct air of hot stove equipment}

1 is a configuration diagram of a conventional hot stove facility.

2 is a block diagram of a waste air control unit in a combustion device using waste air of a hot stove facility according to an embodiment of the present invention.

Figure 3 is a block diagram of the calculation and input control unit in the combustion device using the waste air of the hot stove facility of the present invention.

4 is a flow chart for explaining the operation of the present invention.

<Explanation of symbols for main parts of drawing>

1: blast furnace 2: combustion chamber

3: heat storage chamber 13: blower

15: waste air recovery valve 16: waste air recovery valve

17: mixing chamber 23: calculator

24: air temperature input unit 25: magnification setting input unit

26: selector 27: control value manual input unit

28: controller

The present invention relates to a combustion apparatus using waste air of a hot stove facility, and in particular, after blowing hot air produced by using a gas produced at an ironworks into a blast furnace, energy saving effect and pulverized coal manufacturing equipment are stored by using stored waste heat. The present invention relates to a combustion device using waste air of a hot stove facility that minimizes oxygen concentration of supplied air to prevent explosion due to ignition.

In general, as illustrated in FIG. 1, the hot stove facility includes a combustion device unit for combustion and a blower unit for blowing, and the double blower unit stores heat in the heat storage chamber 3 in the combustion chamber 2. After the cold air produced by the blower 13 passes through the heat storage chamber 3 through the cold air side 12 and the hot air side 5 is converted into hot air due to the accumulated heat of the heat storage chamber is supplied to the blast furnace (1). .

At this time, in order to prevent the initial temperature rise, cold air is directly supplied to the mixed cooling chamber 4 to control the temperature. In addition, the combustion device is burned after the gas and the air is supplied through the gas cut edge 6, the gas control edge 7 and the air cut edge 8, the air control valve 9 installed in the combustion chamber (2), respectively The waste air generated at this time is discharged to the flue 14 through the waste air back pressure valve 10 and the flue valve 11. In addition, a part of the waste air is supplied to the pulverized coal production equipment is utilized for the pulverized coal transport.

Looking at the problems generated during the combustion and blowing process, the heat storage chamber (3) and the combustion chamber (2) contains a large amount of air during the furnace operation for supplying hot air to the blast furnace (1) and converting to combustion. (4.0Kg / cm 2).

Therefore, when back pressure is instantaneously, an impact is exerted on the internal softener and the life of hot air is shortened. Accordingly, the pressure is gradually reduced through the waste air back pressure valve 10. The large amount of waste air contains oxygen concentration of 23% or more, and when used for pulverized coal transport, there is a risk of fire caused by oxygen.

Accordingly, when the oxygen concentration is 15% or more, the pulverized coal injection facility is forcibly stopped. Therefore, it is necessary to minimize the oxygen concentration of the waste air supplied to the pulverized coal production facility to prevent facility failure and the risk of fire.

In addition, a large amount of energy is required in the hot-blast furnace combustion process by using mixed gas and air. Accordingly, gas reduction occupies an important part in terms of cost reduction. Therefore, it is used in pulverized coal manufacturing equipment along with energy saving. There is an urgent need to develop a technology that can lower the concentration of oxygen.

The present invention has been made in view of the problems and necessity of the prior art as described above, by using the waste air generated during the back pressure after the hot air blower as the air for combustion to achieve energy saving, the waste gas supplied to the pulverized coal blowing facility It is an object of the present invention to provide a combustion apparatus using waste air of a hot stove facility that can prevent fire risk by reducing oxygen concentration in advance.

Combustion apparatus using the waste air of the hot stove facility according to the present invention for realizing the above problem is the heat storage chamber while passing through the heat storage chamber through the cold wind side and the hot air side after the heat accumulating heat in the heat storage chamber. Air is blown after the gas and air are supplied through the blower unit which is converted into hot air into the blast furnace and supplied to the blast furnace, and the gas and air cutoff sides and the gas and air control valves installed in the combustion chamber, respectively. In a hot stove facility comprising a waste air back pressure valve, and a combustion device portion discharged to the year through the flue side, to prevent the waste air outflow to the atmosphere and pulverized coal production facility through the waste air recovery valve installed between the heat storage chamber and the waste air back pressure valve. The mixing chamber for supplying the final combustion air by mixing combustion air and waste air in the waste air recovery valve is connected to the waste air recovery control valve. Air control unit; Input the ratio setting for calculating the final air ratio for the combustion air and the waste air temperature control through the calculator connected to the waste air and the combustion air temperature detector through the air temperature input unit. An additional operation control unit; A controller for controlling the waste air recovery control valve through a value fed back from the mixed air temperature detector installed in the mixing chamber, a selector for selecting a control input value with a value automatically calculated by the calculator, and the waste air recovery control valve. An input control unit including a control value manual input unit for controlling; Characterized in that consists of.

In the present invention, the waste air control unit is a waste air recovery valve installed between the heat storage chamber and the waste air back pressure valve, a mixing chamber connected to the waste air recovery valve through the waste air recovery control valve, and a mixed air temperature detector installed in the mixing chamber A combustion air temperature detector installed at the combustion air line, a waste air flow rate and pressure detector installed at a rear end of the waste air recovery control valve, and a waste air temperature detector connected between the waste air recovery valve and the waste air recovery control valve. It is characterized by including.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 to 4 illustrate an embodiment of a combustion apparatus using waste air of the hot stove facility of the present invention, the combustion apparatus using waste air is largely mixed with the combustion air and waste air in the waste air recovery valve The mixing chamber for supplying the final combustion air is used for calculating the final combustion air ratio through the waste air control unit connected to the waste air recovery control valve and the calculator connected to the waste air control unit, and the combustion air and the waste air to the calculator. A calculation control unit provided with a magnification setting input unit for setting a temperature control magnification, a controller for controlling the waste air recovery control valve through a value fed back from the mixed air temperature detector installed in the mixing chamber, and a value automatically calculated by the calculator. An input control unit including a selector for selecting a control input value, and a control value manual input unit for controlling the waste air recovery control valve; have.

As shown in FIG. 2, the waste air control unit has a waste air recovery valve 15 between the heat storage chamber 3 and the waste air back pressure valve 10 to prevent waste air leakage to the atmosphere and pulverized coal production equipment. It is provided, and the mixing air 17 for supplying the final combustion air by the combustion air and the waste air is mixed in the waste air recovery valve 15 is connected through the waste air recovery control valve 16.

In addition, a mixed air temperature detector 18 is installed in the mixing chamber 17, a combustion air temperature detector 22 is installed in a combustion air line, and is closed at the rear end of the waste air recovery control valve 16. Air flow rates and pressure detectors 19 and 20 are provided, respectively, and the waste air temperature detector 21 is connected between the waste air recovery valve 15 and the waste air recovery control valve 16.

As shown in FIG. 3, the operation control unit is connected to the waste air and combustion air temperature detectors 21 and 22 and an air temperature input unit 24 of the calculator 23 for calculating the final air ratio for combustion. The calculator 23 is provided with a magnification setting input unit 25 for setting the combustion air and the waste air temperature control magnification, and the calculator 23 processes the input data to automatically calculate the control input value. Calculate

As shown in FIG. 3, the input control unit includes a controller 28 for controlling the waste air recovery control valve 16 through a value fed back from the mixed air temperature detector 18 installed in the mixing chamber 17; The selector 26 selects a control input value with the value automatically calculated by the calculator 23, and a control value manual input unit 27 for controlling the closed air recovery control valve 16.

Hereinafter, the operation of the present invention configured as described above will be described in detail with reference to FIGS.

When the driver selects the conventional combustion mode in performing combustion for the purpose of heat storage in the process of circulating the blowing and combustion process in the hot stove facility to supply the heat source, the combustion is performed by the conventional operation method, and the conventional combustion If no mode is selected, heat recovery combustion is started, and it is selected according to the presence or absence of a blower after blowing.

When the heat recovery combustion is started, the waste air recovery valve 15 and the air shutoff valve 8 are opened, and after 10 seconds, the gas shutoff valve 6 is opened, and the air control valve 9 and the gas control valve 7 are opened. Control will be performed.

At this time, the selector 26 performs control by the manual value set by the driver, and detects and inputs the setting value by the magnification setter and the combustion air temperature detector 22 and the waste air temperature detector 21. By selecting the method of performing the control with the input value obtained by the automatic operation.

(Example of control input value calculation using combustion / recovery air temperature)

       Control input value (X) = [(A × 5) + (B) / 6]

              = [(30 × 5) + (600) / 6] = 125 degrees

At this time, A = combustion air temperature (22 in Fig. 2),
B = waste air recovery temperature (21 in FIG. 2)

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The above example is a calculation example when the combustion air: waste air is set to 5: 1 in the magnification setter, and the air temperature is 30 degrees and the waste air temperature is 600 degrees.

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The waste air recovery control valve 16 is automatically controlled by a control input value 27 or 23 input to the controller 28 and a feedback value of the mixed air temperature detector 18 installed in the mixing chamber 17. Control.

According to the above formula, since the input value is 125 degrees, the following control is performed according to the mixed air temperature detector 18 fed back. In parallel with the conventional combustion control method, an interlock for operating the waste air recovery control valve 16 is required.

Therefore, when each value detected by the waste air flow detector 19 and the waste air pressure detector 20 becomes a high value set by the driver in order to prevent backflow to the gas pipe, the existing output value is held. Each value detected by the waste air flow detector 19 and the waste air pressure detector 20 is a high, high or low, low value set by the driver. In this case, the waste air recovery valve 15 is crossed.

At this time, the driver's interlock setting value is set according to each blast furnace operation matter, that is, temperature change. When the combustion proceeds under the above conditions, when the temperature of the heat storage chamber 3 becomes higher than the value set by the driver, the combustion is terminated, the combustion system valve is closed and the air is ready for blowing.

According to the combustion device using the waste air of the hot stove facility of the present invention as described above, by using the waste air generated when the back pressure after the hot stove blower is used as the combustion air to increase the oxygen concentration and increase the energy savings by raising the temperature, pulverized coal By reducing the oxygen concentration of the waste gas supplied to the blowing facility, there is a useful effect that can prevent the explosion due to ignition in advance.

Claims (2)

After the heat storage in the heat storage chamber and the cold air produced in the blower passes through the heat storage chamber through the cold wind and hot air flow while the accumulated heat in the heat storage chamber is converted into hot air to supply to the blast furnace, gas installed in the combustion chamber and In a hot stove facility comprising a combustion device portion that is discharged through the air cut-off valve and the gas and air control valve respectively after the gas and air is supplied, and the waste air generated at this time is discharged to the year through the waste air back pressure valve, flue valve. , Preventing waste air outflow to the atmosphere and pulverized coal production equipment through the waste air recovery valve installed between the heat storage chamber and the waste air back pressure valve, and the combustion air and waste air are mixed with the waste air recovery valve to supply final combustion air. A waste air control unit connected to the mixing chamber through a waste air recovery control valve; Input the ratio setting for calculating the final air ratio for the combustion air and the waste air temperature control through the calculator connected to the waste air and the combustion air temperature detector through the air temperature input unit. An additional operation control unit; A controller for controlling the waste air recovery control valve through a value fed back from the mixed air temperature detector installed in the mixing chamber, a selector for selecting a control input value with a value automatically calculated by the calculator, and the waste air recovery control valve. An input control unit including a control value manual input unit for controlling; Combustion apparatus using waste air of the hot stove facility, characterized in that consisting of. The method of claim 1, The waste air control unit includes a waste air recovery valve installed between the heat storage chamber and the waste air back pressure valve, a mixing chamber connected to the waste air recovery valve through a waste air recovery control valve, and a mixed air temperature detector installed in the mixing chamber, and the combustion chamber. A combustion air temperature detector installed in an air line, a waste air flow rate and pressure detector respectively installed at a rear end of the waste air recovery control valve, and a waste air temperature detector connected between the waste air recovery valve and the waste air recovery control valve; Combustion apparatus using waste air of hot stove facility.

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