KR100905591B1 - An Appartus for Controlling Temperature in Hot Stove - Google Patents

Abstract

The present invention relates to a combustion temperature control apparatus for a blast furnace hot blast furnace used to maintain a constant hot blast temperature of the hot blast furnace for supplying hot air to the blast furnace blast furnace,

In the temperature control apparatus of the blast furnace hot stove to control the dome temperature of the heat storage chamber 10 of the hot stove repeating the combustion-blowing process of burning the blast furnace gas and coke gas and blowing the heat generated by the combustion into the blast furnace. And a blowing amount / dome temperature calculator 70 for calculating a change value of the dome temperature according to the fluctuation of the blowing amount, and a hot wind calculating a deviation between the hot air temperature at the blast furnace inlet at the end of the blowing step and the preset value of the hot air temperature set in advance. A temperature deviation calculator 80, a hot air temperature deviation / dome temperature calculator 81 for calculating a change value of the dome temperature according to the hot wind temperature deviation at the end of the blowing step calculated by the hot air temperature deviation calculator, and the air volume / dome Dome temperature according to the change in the air volume calculated by the temperature calculator and the dome temperature according to the hot air temperature deviation at the end of the previous blowing process calculated by the hot air temperature deviation / dome temperature calculator. A dome temperature setter that determines the new dome temperature setpoint by summing the change value and the dome temperature setpoint of the previous blowing process, compares the dome temperature setpoint set by the dome temperature setter with the current dome temperature, It provides a blast furnace hot stove temperature control device including a dome temperature controller 14 for controlling the dome temperature by adjusting the amount of gas and coke gas,

According to the present invention, it is possible to stably provide hot air at a constant temperature to the blast furnace vents, thereby improving the pulverized coal combustion efficiency.

Hot stove, combustion chamber, heat storage chamber, mixed cooling chamber, hot air temperature control device

Description

An Appartus for Controlling Temperature in Hot Stove

1 is a block diagram showing a conventional hot stove combustion temperature control apparatus.

Figure 2 is a block diagram showing a hot stove combustion temperature control apparatus according to the present invention.

3 is a flow chart showing the operation of the hot stove combustion temperature control apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: heat storage chamber 11: combustion chamber

14: dome temperature controller 15, 90: dome temperature setter

101: dome temperature detector 20: blower

24: blower flow rate setter 44: hot air temperature setter

70: air flow rate / dome temperature calculator 80: hot air temperature deviation calculator

81: hot air temperature deviation / dome temperature calculator

The present invention relates to a combustion temperature control apparatus for a blast furnace hot blast furnace used to maintain a constant hot blast temperature of the hot blast furnace for supplying hot blast to the blast furnace blast furnace, more specifically, the first according to the blow flow rate supplied from the blower Calculation of the new dome temperature using the compensation temperature and the second compensation temperature according to the temperature deviation at the end of the blowing, so that combustion of the blast furnace hot stove can be prevented from lowering the hot air temperature that may occur at the end of the blowing. It relates to a temperature control device.

In general, the operation of the blast furnace hot stove is performed in the combustion chamber 11 by mixing a mixed gas of blast furnace gas (BFG) and coke gas (COkes Oven Gas: COG) with combustion atmospheric air. Combustion step of burning and storing the heat generated at this time in the heat storage chamber 10, by operating the blower 20 to supply high-pressure air to store the heat stored in the heat storage chamber 10 to the blast hole (40) 41) is a blowing step of blowing. Four hot air furnaces operating as described above are provided, two are combustion, and two are blowing air.

In such a hot stove, it is very important to keep the temperature constant, so that the control is performed to keep the temperature of the hot stove constant in the combustion step and the blowing step. First, in the combustion step, the dome temperature detected by the dome temperature detector 101 installed in the dome above the heat storage chamber 10 and the set dome temperature manually set by the facility operator in the dome temperature setter 15 are The dome temperature error is calculated by comparing with the dome temperature controller 14, and the flow rate of the mixed gas of blast furnace gas (BFG) and coke gas (COG) supplied to the combustion chamber according to the dome temperature error is mixed in the mixed gas controller 53. Determined and controlled That is, if the detected dome temperature is lower than the set dome temperature, the amount of the mixed gas is increased. If the detected dome temperature is higher than the set dome temperature, the amount of mixed gas is reduced. The mixed gas controller 53 controls the mixed gas control valve 52 to detect the flow rate supplied from the mixed gas flow detector 51 and maintain the flow rate of the mixed gas determined according to the dome temperature error.

When the flow rate of the mixed gas supplied according to the dome temperature error determined by the dome temperature controller as described above is determined, the flow rate of combustion air is set in the air-fuel ratio setter 60 according to the mixed gas flow rate, In order to control the flow rate of the combustion air accordingly, in the combustion air controller 33, the flow rate of the combustion air detected by the combustion air flow rate detector 31 and the flow rate of the combustion air set by the air-fuel ratio setter 60 are set. Compared to control the combustion air control valve (32). As the combustion air, a general atmospheric air is used, and the air / fuel ratio setting unit 60 has a mixing ratio of a mixed gas and a combustion air that can be completely burned in advance, so that a mixed gas of blast furnace gas and coke gas is supplied. As the flow rate changes, the combustion air corresponding to the changed flow rate of the mixed gas is calculated.

By the control as described above, the mixed gas of the blast furnace gas (BFG) and the coke gas (COG) and the air for combustion are supplied to the combustion chamber 11 to be burned in the combustion chamber 11 to generate high temperature heat, which is generated at this time. Heat is stored in the heat storage chamber (10). After the combustion continues for a certain time, the equipment operator manually closes the mixed gas shutoff valve 54 and the combustion air shutoff valve 34 to end the combustion step and proceed to the blowing step.

When the blowing step is started, the facility driver opens the blow shutoff valve 25 and the hot air shutoff valve 28 to burn heat stored in the heat storage chamber 10 by using the high pressure air supplied by the blower 20. 11) and the mixed cooling chamber 12, and is supplied to the tuyere 41 of the blast furnace 40. At this time, the flow rate of the high pressure air supplied by the blower 20 is controlled by the blowing flow rate controller 23. The blower flow rate setter 24 sets the preset blower flow rate and the blower flow rate detected by the blower flow rate detector 21 to be controlled by the blower flow controller 23 so that the actual blower flow rate matches the set blower flow rate. do. In the mixed cooling chamber 12, hot air having passed through the heat storage chamber 10 and the combustion chamber 11 and cold air provided through the cold air shutoff valve 26 are mixed to produce hot air having a desired temperature.

Most important in the blowing step as described above is that the temperature of the hot air supplied to the blast holes 41 of the blast furnace must maintain a constant high temperature. In order to keep the temperature of the hot air supplied to the blast furnace 41 of the blast furnace at a high temperature, a hot air temperature detector 42 is installed at the inlet of the blast furnace to detect the hot wind temperature immediately before being supplied into the blast furnace, and the hot air temperature controller 43. The hot air temperature detected by the hot air temperature detector 42 is compared with the set hot air temperature set by the hot air temperature setter 44 in advance. The hot air temperature controller 43 maintains the set hot air temperature set by the hot air temperature setter 44 by controlling the amount of cold air supplied to the mixed cooling room by adjusting the opening / closing amount of the cold air control valve 27.

The temperature control apparatus of the conventional hot stove as described above is a case where the heat stored in the heat storage furnace decreases or the amount of air blown increases in the process of continuously repeating the combustion step and the blowing step. There is a problem in that the temperature is lowered, the pulverized coal combustion efficiency is lowered, thereby increasing the fuel cost of the blast furnace operation.

The present invention has been made to solve the above-mentioned conventional problems, the present invention, whenever the operation of the blast furnace hot-blast operation repeats the combustion-blowing process, the fluctuation of the air volume and the set hot air temperature at the end of the previous blowing process and the actual It is an object of the present invention to provide a blast furnace hot stove combustion temperature control device that stably provides high temperature hot wind to the blast furnace vent by updating the dome temperature set value of the heat storage chamber according to the deviation of the hot wind temperature.

The present invention as a technical constituent means for achieving the above object, the heat storage chamber upper part of the hot stove to alternately repeat the combustion-blowing process of burning the blast furnace gas and coke gas, and blowing the heat generated by the combustion into the blast furnace In the temperature control device of the blast furnace hot stove to control the dome temperature,

A blowing amount / dome temperature calculator for calculating a change value of a dome temperature for correcting the temperature of the heat storage chamber according to a change in the blowing amount set in the blowing process, a hot air temperature at the blast furnace inlet at the end of the blowing step, and the hot air set in advance A hot air temperature deviation calculator for calculating a deviation of the set value of the temperature, a hot air temperature deviation / dome temperature calculator for calculating a change in the dome temperature according to the hot air temperature deviation at the end of the blowing stage calculated by the hot air temperature deviation calculator, Variation value of the dome temperature according to the fluctuation of the set blowing amount calculated by the air blowing amount / dome temperature calculator, and the change value of the dome temperature according to the hot air temperature deviation at the end of the previous blowing process calculated by the hot air temperature deviation / dome temperature calculator And a dome temperature setter for setting a newly updated dome temperature setpoint by summing the dome temperature setpoints of the previous blowing process, and updating by the dome temperature setter. It is characterized by providing a blast furnace hot stove temperature control device comprising a dome temperature controller for controlling the dome temperature by comparing the dome temperature set value and the current dome temperature detection value and adjusting the amounts of combustion blast furnace gas and coke gas. .

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the blast furnace hot stove temperature control apparatus according to the present invention. In the accompanying drawings, components having the same or substantially the same configuration and function will use the same reference numerals.

Figure 2 is a block diagram showing a hot stove combustion temperature control apparatus according to the present invention. Referring to Figure 2, the present invention is the air flow rate / dome temperature calculator 70 for calculating the change value of the dome temperature according to the change in the air flow rate, the hot air temperature of the blast furnace inlet at the end of the blowing stage and the previously set hot air temperature Hot air temperature deviation calculator (80) for calculating the deviation of the set value, and hot air temperature deviation / dome temperature calculator for calculating the change value of the dome temperature according to the hot air temperature deviation at the end of the blowing stage calculated by the hot air temperature deviation calculator ( 81), a change in the dome temperature according to the change in the blowing amount calculated by the blowing amount / dome temperature calculator, and a dome temperature according to the hot blowing temperature deviation at the end of the previous blowing process calculated by the hot air temperature deviation / dome temperature calculator. And a dome temperature setter for determining a new dome temperature setpoint by summing the change value of the previous blowing process and the dome temperature setpoint of the previous blowing process, the dome temperature setpoint set by the dome temperature setter, and the current dome temperature. T is configured by including dome temperature controller 14 to control the dome temperature to control the amount of blast furnace gas and coke oven gas for combustion.

The air flow rate / dome temperature calculator 70 calculates a dome temperature to be corrected according to the changed air flow rate when the air flow rate set by the air flow rate setting device 24 is changed. As described above, four blast furnace hot stoves are used, and two of the four stages alternately burn, and two stages alternately blow. If the hot stove in the blowing process undergoes a combustion process and then enters the blowing process again, the blowing may be performed at a different blowing amount than that of the previous blowing process. That is, the air volume set in the air volume setter 24 in the previous air blowing process and the air volume set in the air volume setter 24 in the current air blowing process may have different values, and thus, the heat storage room ( 10) There is a need to vary the temperature of the upper dome. For example, if the amount of blowing is increased, the amount of heat stored in the heat storage chamber 10 is blown to the tufts 41 of the blast furnace 40 at the same time, so that the hot air temperature may be lowered at the end of the blowing. In this case, the heat stored in the heat storage chamber 10 must be increased, and thus, more combustion must be performed in the combustion chamber 11. Therefore, the blowing amount / dome temperature calculator 70 receives the set blowing amount from the blowing amount setter 24, compares it with the blowing amount in the previous blowing process, and corrects the heat storage room temperature according to the difference in blowing amount. Calculate That is, when the current set blowing amount is increased than the previous set blowing amount, the blowing amount / dome temperature calculator calculates the dome temperature to be increased so that hot air of a constant temperature can be blown to the blast furnace at the same time. In other words, the amount of change of the dome temperature according to the set air flow amount is programmed in the air volume / dome temperature calculator 70, and a dome temperature correction value capable of correcting the amount of change in the dome temperature according to the air volume change is calculated.

The hot air temperature deviation calculator 80 calculates a deviation between the temperature of the hot air blown into the blast furnace and the set hot air temperature set in the hot air temperature setter 44. As described above, the hot air supplied to the tuyere 41 of the blast furnace 40 must maintain a constant high temperature until the end of the blow, but the heat stored in the heat storage chamber is reduced at the end of the blower so that the actual hot air is supplied to the tuyere 41. It is difficult to maintain the hot air temperature at the set hot air temperature set by the hot air temperature setter 44. The hot air temperature deviation calculator 80 is for correcting the temperature deviation between the set hot air temperature and the actual hot air temperature at the end of the air blowing, and is activated when the air blowing process starts after the combustion process is finished and the open signal of the hot air shutoff valve is input. To start. Subsequently, the actual hot air detected by the hot air temperature detector 42 which continuously detects the set hot air temperature set by the hot air temperature setter 44 and the temperature of the hot air immediately before the hot air enters the air vent 41 while the blowing is in progress. Calculate the deviation of the temperature. Subsequently, when the blowing is completed, the hot wind temperature deviation calculator 80 receives the cutoff signal of the hot wind shutoff valve 28 to complete the operation, and stores the deviation of the hot wind temperature at the end of the blowing immediately before the blowing is completed.

The hot air temperature deviation / dome temperature calculator 81 receives the deviation of the hot air temperature at the end of the blowing air calculated and calculated by the hot air temperature deviation calculator 80, and calculates a correction value of the dome temperature according to the hot air temperature deviation at the end of the air blowing. do. In other words, the hot air temperature deviation / dome temperature calculator 81 is programmed with a change value of the dome temperature that can correct the hot air temperature deviation according to the hot air temperature deviation. For example, if the temperature deviation at the end of the blow is -50 ° C, it is programmed in the hot air temperature deviation / dome temperature calculator 81 that the dome temperature should be increased by 70 ° C further to correct the end of the blow at -50 ° C. It is.

The dome temperature setter 90 is a change value of the dome temperature according to the air flow amount fluctuation calculated by the air flow rate / dome temperature calculator 70 and the hot air temperature calculated by the hot air temperature deviation / dome temperature calculator 81. The new value of the dome temperature is calculated by adding up the dome temperature change value to correct the deviation and the previous dome temperature setting value. This new dome temperature setpoint is used during the next combustion-blowing process. For example, the set value of the dome temperature in the previous combustion-blowing process is 1300 ° C., the hot wind temperature deviation of the end of the blowing in the previous combustion-blowing process is 30 ° C., and the blowing amount set in the next combustion-blowing process is the previous combustion- If it is assumed that the blowing amount is increased by 2m ³ / s from the set blowing amount, the blowing amount / dome temperature calculator 70 calculates the dome temperature to be changed according to the increased blowing amount setting, the dome corresponding to increasing the 2m ³ / s The temperature fluctuation value is 30 ° C., and the hot air temperature deviation / dome temperature calculator 81 calculates a dome temperature for correcting the hot air temperature deviation 30 ° C. at the end of the blower, and a change in the dome temperature for correcting the 30 ° C. If the value is 50 ° C., the dome temperature setter 90 has a dome temperature set value of 1300 ° C. of the previous combustion-blowing process, and a dome temperature fluctuation value 30 ° C. calculated by the blowing amount / dome temperature calculator 70. The hot air temperature deviation / dome Also by summing the dome temperature variation 50 ℃ calculated by the calculator 81 and then the combustion-sets the set value of the dome temperature for the blowing process in 1380 ℃.

The dome temperature controller 14 compares the dome temperature in the dome temperature detector 101 for detecting the temperature of the upper dome of the heat storage chamber 10 with the dome temperature set value set in the dome temperature setter 90. Adjust the amount of combustion gas to correct the error. For example, the dome temperature controller 14 compares the dome temperature detected by the dome temperature detector 101 with a dome temperature set value set by the dome temperature setter 14 so that the actual dome temperature is a dome temperature set value. If it is lower, the amount of combustion blast furnace gas and coke gas to be increased to raise the dome temperature to the dome temperature set value is calculated, and the amount of combustion blast furnace gas and coke gas to be increased at this time is mixed gas controller ( 53, the mixed gas controller 53 increases the amount of combustion blast furnace gas and coke gas supplied using the mixed gas flow control valve 52.

FIG. 3 is a flowchart illustrating an operation of a hot stove temperature control device according to the present invention. Hereinafter, the operation of the present invention will be described in detail with reference to FIG. 3.

As described above, the blast furnace hot stove burns a mixed gas for combustion in the combustion chamber 11 to generate high heat, and stores the heat in the heat storage chamber 10, and mixes the heat stored in the heat storage chamber 10 with the cooling chamber. The blowing process of blowing the hot air mixed with the cold air in 12 to the tuyere 41 of the blast furnace 40 is repeated. When the operation of the hot blast is repeated one cycle consisting of a combustion-blowing process, the present invention provides a hot blast temperature blown to the blast furnace blast furnace by newly updating the set value of the dome temperature when one cycle is completed and the next cycle is executed. It can be kept constant until the end of the blowing. As described above, since the present invention has a period of the combustion-blowing process, the following description will be made to explain the operation of the present invention by dividing the first period including the combustion-blowing process and the second period following the end of the first period. .

When the combustion process is completed in the first cycle and the air blowing is started (S301), the blow air shutoff valve 25, the cold wind shutoff valve 26, and the hot wind shutoff valve 28 are opened to supply hot air to the blast furnace vent. At this time, when the open signal of the hot air cutoff valve 28 is applied to the hot air temperature deviation calculator 80, the operation of the hot air temperature deviation calculator 80 is started, and the hot air temperature deviation calculator 80 is hot air temperature. The temperature deviation between the actual hot wind temperature detected by the detector 42 and the hot wind temperature set value set in the hot wind temperature setter 44 is continuously calculated and stored (S302). Subsequently, when the blowing is completed, the hot wind shutoff valve 28 is cut off, and the cutoff signal is applied to the hot wind temperature deviation calculator 80 so that the hot wind temperature deviation calculator 80 recognizes that the blowing is completed, and the blowing is completed. Stores the hot air temperature deviation at the end of blowing just before Then, the hot air temperature deviation / dome temperature setter 81 uses the hot air temperature deviation of the end of the blowing air stored in the hot air temperature deviation calculator 80 to change the dome temperature for correcting the hot air temperature deviation at the end of the blowing step (A Calculate

At this time, the air blowing amount to be used in the second cycle is set at the same time by the air volume setting device 24 (S306). Subsequently, the blowing amount / dome temperature setter 70 calculates a change value B of the dome temperature according to the change in the set blowing amount by using the set blowing amount in the second period and the set blowing amount in the previous first period (S307). Subsequently, a change value A of the dome temperature for correcting the hot air temperature deviation at the end of the blowing step calculated by the hot air temperature deviation / dome temperature setter 81, and the air volume / dome temperature setter 70 The dome temperature set value C used in the first cycle and the dome temperature set value C used in the first cycle are summed up in the dome temperature setter 90 to be used in the second cycle. The dome temperature setpoint is calculated. Subsequently, when the combustion process of the second cycle is started (S104), the dome temperature controller 14 adjusts the supply amount of the blast furnace gas and the coke gas for combustion according to the new dome temperature setting value calculated by the dome temperature setter 90. To control the dome temperature.

As described above, according to the present invention, whenever the operation of the blast furnace hot furnace repeats the combustion-blowing process, the dome temperature of the heat storage chamber is changed according to the fluctuation of the air volume and the deviation of the set hot air temperature and the actual hot air temperature at the end of the previous blowing process. By updating the set value and stably providing high temperature hot air to the blast furnace vent, the temperature of the hot air supplied to the blast furnace vent can be prevented from being lowered and the pulverized coal combustion efficiency can be prevented. There is a very good effect to save.

The above description is only a description of specific embodiments of the present invention, and the present invention is not limited to these specific embodiments, and various changes and modifications of the configuration are possible from the above-described specific embodiments of the present invention. It will be apparent to those skilled in the art to which the present invention pertains.

Claims (3)

In the temperature control apparatus of the blast furnace hot stove to control the dome temperature of the heat storage chamber 10 of the hot stove which alternately burns the blast furnace gas and the coke gas and blows the heat generated by the combustion into the blast furnace. In A blowing amount / dome temperature calculator (70) for calculating a change value of the dome temperature for correcting the temperature of the heat storage chamber according to the change of the set blowing amount in the blowing process; A hot air temperature deviation calculator (80) for calculating a deviation between the hot air temperature at the blast furnace mouth opening at the end of the blowing step and a preset value of the preset hot air temperature; A hot air temperature deviation / dome temperature calculator (81) for calculating a fluctuation value of the dome temperature for correcting the hot air temperature deviation at the end of the blowing step calculated by the hot air temperature deviation calculator; A change in the dome temperature according to the fluctuation of the set blowing amount calculated by the blowing air amount / dome temperature calculator and a dome temperature for correcting the hot air temperature deviation at the end of the previous blowing process calculated by the hot air temperature deviation / dome temperature calculator. A dome temperature setter 90 for adding a change value and a dome temperature set value of a previous combustion-blowing process to set a newly updated dome temperature set value; And Blast furnace hot air including a dome temperature controller 14 for controlling the dome temperature by controlling the amount of blast furnace gas and coke gas combusted by comparing the dome temperature set value updated by the dome temperature setter with the current dome temperature detected value. Furnace temperature control device. According to claim 1, The air flow rate / dome temperature calculator 70, Blast furnace hot-blast furnace temperature control device characterized in that the fluctuation value of the dome temperature for correcting the temperature of the heat storage chamber according to the fluctuation value of the set air flow amount is programmed in advance. The hot air temperature deviation / dome temperature calculator (81) according to claim 1, Blast furnace hot stove temperature control device, characterized in that the fluctuation value of the dome temperature for correcting the hot air temperature deviation between the set hot air temperature and the actual hot air temperature at the end of the blowing.

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