KR101121923B1 - Method for preventing level deviation of blast furnace burden, and apparatus - Google Patents

Abstract

The present invention relates to a method for preventing blast furnace charge level deviation, and sequentially charging the coke and iron ore into the blast furnace 1 through the first charging hopper (11a) installed on the upper part of the blast furnace, and accumulating the coke and iron ore And setting an alarm to charge the charge into the blast furnace 1 through the second charging hopper 11b if the charging amount is more than or less than the set reference value.
The present invention sets an alarm when the cumulative charge amount of the blast furnace charge is more than or less than the set reference value, so that the driver changes the charge hopper, or the charge is automatically switched to another charge hopper. There is an advantage of ensuring breathability.

Description

Method for preventing level deviation of blast furnace burden, and apparatus

The present invention relates to a method and apparatus for preventing blast furnace charge level deviation, and more particularly, to a method and apparatus for preventing blast furnace charge level deviation for ensuring circumferentially uniform ventilation.

The process of charging iron ore into the blast furnace, burning coke to remove oxygen from the iron ore and dissolving it into pig iron is called the iron making process.

The blast furnace is an upright type reaction furnace constructed as a fireproof wall, and charges raw materials such as iron ore, coke, limestone and other raw materials from the top, and heats or reduces iron ore with CO gas generated by the combustion of coke by hot air. Is a kind of continuous reactor that produces molten pig iron.

In the blast furnace operation, it is important to ensure circumferential air permeability so that CO gas can reduce the iron ore, and the air permeability is mainly determined by the porosity of the solid layer composed of iron ore and coke.

It is an object of the present invention to provide a blast furnace charge level deviation preventing method and apparatus which ensures uniform circumferential uniform air permeability by eliminating the charge level deviation due to the loading hopper one side position.

According to a feature of the present invention for achieving the above object, the present invention comprises the steps of sequentially loading the coke and iron ore into the blast furnace through a first charging hopper installed on the top of the blast furnace, and the cumulative loading of the coke and iron ore Setting an alarm to charge the charge into the blast furnace through the second charging hopper if it is above or below the set reference line.

The coke and iron ore is charged in the order of coke, allele iron ore, core coke, small iron ore.

The cumulative charging amount is measured by the stock level which is the distance from the blast furnace to the charge.

The coarse iron ore includes nut coke.

The set value is 2 m.

An input unit for inputting the cumulative charging amount of coke and iron ore in the blast furnace operation, a comparison unit for measuring whether the cumulative charge amount input to the input unit with the charging reference line to determine whether the cumulative charge amount is 2m or more than 2m or less than the charging reference line, the comparison unit And an output unit for outputting an alarm when it is determined that the cumulative charging amount measured from the 2m or more or 2m or less than the charging reference line.

An input unit for inputting the cumulative charging amount of coke and iron ore input into the blast furnace through the first charging hopper, and compares the cumulative charging amount input to the input unit with the charging reference line to determine whether the cumulative charging amount is more than 2m or less than 2m than the charging baseline baseline Comparing unit, the control unit for automatically switching the charging position so that the coke and iron ore is introduced into the blast furnace through the second charging hopper when it is determined that the cumulative charging amount measured from the comparison unit is 2m or more or 2m or less than the charging reference line.

The cumulative charging amount is measured by the stock level which is the distance from the blast furnace to the charge.

According to the present invention, when the cumulative charging amount of the blast furnace charge is more than or less than the charging reference line, an alarm is set so that the driver changes the charging hopper, or the charging is automatically switched to another charging hopper, thereby enabling uniform charging of the blast furnace charge.

This prevents the level deviation of the cumulative charge amount even under conditions in which the volume of the charge is different and in which the volume of the charge increases or decreases depending on the operation. Therefore, uniform circumferential air permeability is secured, and thus aging and operation are stabilized, and the recovery rate of pig iron is also increased, thereby improving productivity.

1 is a configuration showing the state of charging the charge in the blast furnace 180 ° direction in the charging hopper.
Figure 2 is a configuration showing the state of charging the charge in the blast furnace in the 0 ° direction in the charging hopper.
3 is a configuration diagram showing a state in which the level deviation of the cumulative charging amount of the charging result of FIG. 1 and FIG.
4 and 5 is a block diagram showing a blast furnace charge level deviation preventing apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail.

The method for preventing blast furnace charge level deviation of the present invention is to sequentially load the coke and iron ore into the blast furnace 1 through the first charging hopper (11a) installed on the upper part of the blast furnace (1), the cumulative charging amount of the loaded coke and iron ore An alarm is set so that coke and iron ore may be charged into the blast furnace 1 through the 2nd charging hopper 11b if it is more than the setting value or less than this charging reference line.

When the blast furnace is charged, the charging hoppers 11a and 11b of the material loading device (BLT, Bell-less Top) 10 are located at 0 ° and 180 °, respectively, and the charge is a material control valve (MCG) ( 13), blast-furnace lower seal valve (LSV) (13), distributor (DR, distribution rocker) (15), vertical chute (VC, vertical chute) (19), swing chute (DC, distribution chute) It is charged into the blast furnace through 21. Charge (m) means coke and iron ore.

As shown in Figure 1, the charge (m) is charged so that iron ore and coke are laminated in a layer by the raw material loading device. By the way, the charging hopper (11a, 11b) of the raw material charging device 10 is located on one side, while the charge (m) falls naturally as shown in Figure 2, the kinetic energy in the opposite direction of the charging hopper (11) And falls in the opposite direction to the charging hopper being charged. Arrow direction in Figures 1 and 2 shows the charge kinetic energy direction.

Thus, as shown in Fig. 3, the level deviation of the cumulative charging amount occurs. If a cumulative charge amount deviation occurs, the ventilation in the blast furnace becomes uneven.

If the ventilation in the blast furnace becomes non-uniform, the gas distribution and the abnormal air pressure fluctuations occur, which causes the loading of one part to be lowered rapidly and the other portion of the load to be delayed. If this phenomenon is aggravated, the temporary descent of the charge or the drop of the charge may be stagnant, causing a hang and causing the windball to break.

In the blast furnace operation, the speed at which the charges are charged and the speed at which the charges descend are uniform to ensure circumferential ventilation and increase productivity. It is required to distribute the contents uniformly in the circumferential direction to ensure circumferential breathability.

The charging of the charges through the raw material charging device is controlled by the driver's change of the optional hopper, but in this case, the charging volume deviation occurs. This is because the volume of each charge is different and the volume may increase or decrease depending on the operating conditions.

Coke and iron ore are charged in the order of coke, allele iron ore, core coke, and small iron ore. The opposing iron ore and coke are charged to be stacked in layers, and the central coke is charged evenly in the radial direction of the blast furnace to create a soft fusion zone with excellent breathability and gas utilization.

Here, the coke not only serves as a heat source and a reducing agent as fuel, but also serves to improve air permeability in the furnace. Iron iron ore is a raw material for producing pig iron, and the smaller the particle size, the better the reducibility, but if too small, it impairs the air permeability in the blast furnace. And, the small iron ore is charged to increase the CO gas utilization rate to improve productivity.

Nut coke may be included in allele iron ore. Nut coke is a reuse of small coke and has a smaller particle size than coke and may be included for supplying iron ore or stabilizing components.

Nut coke can increase CO gas utilization and improve productivity, but can also impair breathability. This is because the smaller the particle size of the ore, the more the reaction area is increased, which is advantageous for the reduction, but excessively small, the reduction of the permeability of the reducing gas causes the reduction to be delayed.

The density of coke is 0.5 g / cm 3, the density of allele iron ore is 1.8 g / cm 3, the density of core coke is 0.5 g / cm 3, and the density of small iron ore is 1.8 g / cm 3. The nut coke is 5 g / cm 3. Due to the different densities as described above, it is impossible to uniformly distribute the charge m in the circumferential direction even if it turns while adjusting the tilt angle of the turning chute 21 of the raw material charging device 10 during charging in the blast furnace.

In addition, when the nut coke is included to increase productivity, the volume may increase or decrease depending on the operation, so that it is impossible to distribute the contents uniformly in the circumferential direction only by the turning angle or the number of charging.

Therefore, when the cumulative charging amount of coke and iron ore charged into the blast furnace by the first charging hopper (11a) is set to be higher than the set reference line, the alarm is set to charge the coke and iron ore into the blast furnace through the second charging hopper (11b). .

Of course, when the coke and iron ore is charged into the blast furnace through the second charging hopper (11b), if the cumulative loading of the coke and iron ore is more than the set reference value, the coke and the coke to the blast furnace 1 through the first charging hopper (11a) The alarm is set to charge iron ore. As described above, when the first charging hopper 11a and the second charging hopper 11b are alternately charged and the coke and the iron ore are charged through the cumulative charging amount, the contents may be uniformly distributed in the circumferential direction.

The cumulative charge is measured at the stock level, the distance from the top of the blast furnace to the charge. The stock level is measured using the unbalance of the CO gas flow according to where the cumulative charges are high and low.

The setting value is 2m. If the cumulative charge amount is measured to be 2m or more than 2m below the charging baseline, it is determined that the charge level deviation has occurred. This is because the cumulative charging amount is stable in the circumferential air permeability decrease of the rising gas in the above set value range. However, if the set value is out of the breathable non-uniformity, it is difficult to operate stable.

The blast furnace charge level deviation preventing device of the present invention is an input unit 31 for inputting the cumulative charge amount of coke and iron ore in the blast furnace (1) during the operation of the blast furnace, cumulative charge amount inputted to the input unit 31 compared with the charging reference line A comparator 32 that measures whether the charge amount is 2 m or more or 2 m or less from the charging reference line, and an output part that outputs an alarm when it is determined that the cumulative charge amount measured from the comparator 32 is 2 m or more or 2 m or less than the charging reference line. 34 may be included.

The cumulative charging amount is measured at the stock level, which is the distance from the upper part of the blast furnace, and the comparison unit 32 receives the charging reference line value stored in the storage unit 33 and compares the cumulative charging amount measured at the stock level.

In another embodiment, the present invention provides an input unit 41 for inputting a cumulative charging amount of coke and iron ore input into the blast furnace 1 through the first charging hopper 11a, and a charging reference line for the cumulative charging amount input to the input unit 42. The comparison unit 42 that measures whether the cumulative charging amount is 2 m or more or 2 m or less than the charging baseline baseline, and when it is determined that the cumulative charging amount measured by the comparing part 42 is 2 m or more or 2 m or less than the charging baseline, And a controller 44 for automatically switching the charging position so that the iron ore is introduced into the blast furnace 1 through the second charging hopper 11b.

In another embodiment, the cumulative charge amount is measured at the stock level, which is the distance from the upper part of the blast furnace to the charge, and the comparator 42 receives the charge baseline value stored in the storage part 43 and the cumulative charge amount measured at the stock level. Compare.

The operation of the present invention will be described below.

When charging the blast furnace, the coke, the coarse iron ore (including nut coke), the central coke, and the small iron ore are loaded in the blast furnace 1 through the first charging hopper 11a of the raw material charging device (BLT, Bell-less Top) 10. do.

When the cumulative charging amount of the blast furnace charge during charging is 2m or more or 2m or less than the charging reference line as a result of the measurement at the stock level, the output unit 34 sounds an alarm. The driver then adjusts the control valve 13 so that the charge m is charged into the blast furnace 1 through the second charging hopper 11b.

In addition, when the charge (m) is charged in the blast furnace (1) through the second charging hopper (11b), the cumulative charge is measured at the stock level, and as a result, the driver outputs an alarm when the output part sounds an alarm 2m or more than 2m below the charging reference line. Again controls the control valve 13 so that the charge (m) is charged into the blast furnace (1) through the first charging hopper.

In addition, in the case of automatic switching, when the cumulative charging amount of the blast furnace charge during charging becomes 2 m or more or 2 m or less from the charging reference line as a result of measurement at the stock level, the controller 44 closes the first charging hopper 11a and the second charging hopper 11b. Control valve 13 to open.

This adjustment prevents the level deviation of the cumulative charge amount even under conditions in which the volume of each charge is different and in which the volume of the charge increases or decreases depending on the operation. Therefore, circumferential air permeability of the rising gas is secured and stable blast furnace operation is possible.

In the present embodiment, the first charging hopper 11a and the second charging hopper 11b are described as being sequentially used, but this is only for convenience of explanation and the order of use of the charging hoppers 11a and 11b is the type of the charged material. It can be changed according to.

1: Blast furnace 10: Raw material charging device
11a: 1st hopper 11b: 2nd hopper
13: Raw material control valve 15: Blast furnace top lower seal valve
17: Splitter 19: Vertical Suit
21: turning suit m: charges
31, 41: input 32, 42: comparison
33, 43: storage unit 34, 44: control unit

Claims (8)

Sequentially charging coke and iron ore into the blast furnace through a first charging hopper installed in the upper part of the blast furnace,
And setting an alarm to charge the charge into the blast furnace through the second charging hopper if the cumulative charge amount of the coke and the iron ore is greater than or equal to a predetermined value than the charging reference line. The method according to claim 1,
The coke and iron ore
Method for preventing blast furnace charge level deviation, characterized in that the charge is loaded in the order of coke, allele iron ore, central coke, small iron ore. The method according to claim 1,
The cumulative charging amount of the blast furnace charge level deviation preventing method characterized in that the measured by the stock level which is the distance from the top of the blast furnace to the charge. The method according to any one of claims 1 to 3,
The blast furnace load level deviation preventing method characterized in that the iron coke includes the nut coke. The method of claim 4,
The set point is a blast furnace charge level deviation preventing method, characterized in that 2m. Input section for inputting the cumulative charging amount of coke and iron ore in the blast furnace operation,
A comparison unit for comparing the cumulative charging amount inputted to the input unit with a charging baseline to determine whether the cumulative charging amount is 2 m or more or 2 m or less than the charging base line,
And an output unit for outputting an alarm when it is determined that the cumulative charging amount measured by the comparing unit is 2 m or more or 2 m or less than the charging reference line. Input unit for inputting the cumulative charging amount of coke and iron ore injected into the blast furnace through the first charging hopper,
A comparison unit for comparing the cumulative charging amount inputted to the input unit with a charging baseline to determine whether the cumulative charging amount is 2 m or more or 2 m or less than the charging baseline baseline,
And a control unit for automatically switching the charging position so that the coke and iron ore are introduced into the blast furnace through the second charging hopper when it is determined that the cumulative charging amount measured by the comparing unit is 2 m or more or 2 m or less than the charging reference line. Charge level deviation prevention device. The method according to claim 6 or 7,
The cumulative charging amount of the blast furnace charge level deviation preventing device characterized in that the measurement by measuring the stock level which is the distance from the top of the blast furnace to the charge.

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