KR20060073271A - Apparatus for diagnosing melting damages of bellows in a furnace and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for diagnosing blast furnace tuft loss, by measuring the water supply amount and the drainage amount of the cooling mouth cooling water flowing into the blast furnace to calculate the difference as a loss amount, the amount of cooling water set in advance to determine whether or not blast furnace tuft loss According to the table, the operating mode of the blast furnace vents can be variably controlled by operation, depressurization, and shelter depending on the amount of coolant loss currently calculated, and the operation mode is displayed on the monitor and transmitted to the main computer for blast furnace control. It is supposed to alarm the weather state.

According to the present invention, since it is not necessary to measure the carbon monoxide (CO) concentration in a pair of three in order to check the melt loss deformation of the tuyere, it is possible to solve the conventional problem that the workload is increased, especially when detecting a tuyere abnormality By suddenly stopping the blast furnace irrespective of the flow rate of the coolant cooling water flowing into the blast furnace, it is possible to completely solve the conventional problem of delayed maintenance work and consequently the molten iron production.

Blast Furnaces, Blowholes, Furnaces, Yongson, Coolant

Description

Apparatus for diagnosing melting damages of bellows in a furnace and method

1 is a block diagram of a typical blast furnace.

2 is a photograph showing the yongseon state of blast furnace tuyere.

Figure 3 is a graph showing the flow loss state of the blast furnace vents.

Figure 4 is a schematic block diagram showing a blast furnace blast furnace damage diagnosis apparatus of the present invention.

Figure 5 is a flow chart showing a blast furnace blast furnace diagnostic procedure of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: blast furnace 2: blow pipe

3: tuyere 4: melt

5: upper half melt 6: lower half melt

The present invention relates to an apparatus and method for diagnosing blast furnace tuft loss, and more particularly, to a blast furnace tuft loss diagnosis apparatus and method for diagnosing whether or not the blast furnace tuft is melted according to the result of measuring the amount of cooling water loss and controlling the operation mode. .                         

Referring to FIG. 1, a general blast furnace 1 has a high temperature (for example, 1200 ° C.) flowing through an external hot air tube (not shown) and 36 air blower tubes (not shown) and blow pipes 2 connected to the hot air tube. As the hot air of) is finally blown into the main body of the blast furnace (1) through the tuyere (3) is fixed so that the front end is projected into the blast furnace (1), and the iron ore preloaded in the interior of the blast furnace (1) and The coke (hereinafter referred to as "charge") and the hot air are reacted with reduction so that the melt 4 is produced. At this time, the hot melt 4 is lowered and collected in the lower furnace of the tuyere 3, and the melt 4 collected in the furnace is a blast furnace among the outlets (not shown) installed at four lower parts of the blast furnace 1. (1) It is discharged to the outside through any one opening which is opened by the opening opening excavation hole (not shown) installed in the outside.

The melt production process of the blast furnace (1) is made repeatedly, sometimes the melt (4) gathered in the furnace of the blast furnace (1) due to the instability of the furnace floats from the bottom in the form of semi-melt to the lower portion of the tuyere (3) A melt phenomenon (phenomena in which the charge falls 2 to 3 m) occurs in which the melt that rises or descends to the bottom of the blast furnace 1 flows down without being completely melted on the upper part of the tuyere 3.

Accordingly, in the related art, a pressure or an impact by the upper semi-melt 5 and the lower semi-melt 6 is applied to upper and lower portions of the tuyere 3, respectively, to protrude into the blast furnace 1, as shown in FIG. The tip end of the tuyere (3) had a problem that the hand is deformed, and in order to solve this problem, in the prior art, the operator directly carried out daily inspection to check whether the tuyere deformation of the tuyere (3), and actually When the erosion was found, the worker repeatedly performed the melt production after exchanging the molten tuyere 3 while the blast furnace 1 was at rest.

However, according to the method by which the operator directly checks whether there is a melt loss of the tuyere (3) with the naked eye, the work load is increased because the concentration of carbon monoxide (CO) is measured in a pair of three to confirm the melt loss of the tuyere. In particular, there is a problem in that the maintenance work is delayed by suddenly stopping the blast furnace irrespective of the inflow amount of the cooling water coolant flowing into the blast furnace when the abnormality of the wind hole 3 is detected, and the molten iron production is reduced as a result.

The present invention is to solve the above-mentioned problems, the object of the present invention is to measure the water supply and drainage amount of the cooling water cooling water flowing into the blast furnace to calculate the difference as a loss amount, in order to determine whether the blast furnace blast damage in advance The present invention provides a blast furnace blowhole diagnosing device and a method for variably controlling the operation mode of the blast furnace blowhole with operation, depressurization, and idle air according to the set cooling water loss amount table.

In order to achieve the above object of the present invention, an embodiment of the blast furnace tuyere loss apparatus according to the present invention, the water supply flowmeter for measuring the water supply amount of the coolant flowing into the tuyere; A drain flow meter for measuring the amount of drainage discharged from the tuyere; A memory unit for storing a preset cooling water loss amount table to determine whether or not the blast furnace is damaged; And calculating the actual cooling water loss from the water supply and the drainage measured by the water supply flow meter and the drain flow meter, and operating, depressing, and venting the operation mode of the blast furnace vent according to the cooling water loss amount currently calculated by referring to the cooling water loss table of the memory unit. It is composed of arithmetic / control unit which variably controls and displays the operation mode on the monitor and transmits to the blast furnace control main computer to alert the operator of the current blast furnace status.

In order to achieve the above object of the present invention, an embodiment of the blast furnace molten iron loss method according to the present invention, the step of measuring the water supply amount of cooling water flowing into the tuyere; Measuring the amount of water discharged from the tuyere; Calculating an actual amount of cooling water loss from the measured amount of water and the amount of discharged water; Variably controlling an operation mode of the blast furnace tuyere with operation, depressurization, and shelter air according to the currently estimated amount of cooling water loss by referring to a preset cooling water loss amount table to determine whether the blast furnace tuyere is damaged; And displaying the corresponding operation mode of the blast furnace tuyere that is variably controlled on the monitor and transmitting the same to the main computer for controlling the blast furnace to alert the operator of the present tuyere condition.

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

3 and 4, the water supply flow meter 33 measures the water supply amount of the cooling water flowing into the tuyere 3.

The water supply flow meter 33 is disposed between the water supply main pipe 30 and the water supply pipe 31 connecting the air outlet 3, that is, a rear end of the water supply flow meter 33, that is, the water supply flow meter 33 and the air outlet. Between (3), the water supply valve 32 which opens and closes the flow path of cooling water which flows into the tuyere 3 is arrange | positioned.

The drain flow meter 36 measures the amount of drainage discharged from the tuyere 3.

The drain flow meter 36 is disposed between the drain container 38 and the drain pipe 34 connecting the tuyere 3, that is, the rear end of the drain flow meter 35, that is, the drain flow meter 35 and the tuyere. A drain valve 35 for opening and closing the flow path of the cooling water discharged from the tuyere 3 is disposed between the three parts, and the drain bypass valve 37 is parallel to the drain valve 35 to the drain pipe 34. Branched at and connected between the sump 38.

The memory unit 40 stores a cooling water loss amount table set in advance in order to determine whether or not the blast furnace is damaged.

The calculation / control unit 50 calculates the actual coolant loss amount from the water supply amount and the discharge amount measured by the water supply flow meter 33 and the drain flow meter 35, and is currently calculated by referring to the cooling water loss amount table of the memory unit 40. According to the amount of cooling water loss, the operation mode of the blast furnace tuyere 3 can be variably controlled by operation, depressurization, and idle air, and the corresponding operation mode is displayed on the monitor 60 and transmitted to the main computer 70 for blast furnace control. The manager) is alerted to the current state of the blast furnace 3 of the blast furnace.

The apparatus for diagnosing blast furnace blast furnace openings according to the present invention configured as described above operates as follows by the method shown in FIG.

When the blast furnace starts to operate, first, the water supply flow rate meter 33 measures the water supply amount of the cooling water flowing into the tuyere 3 (S10).

Subsequently, when the coolant introduced into the tuyere 3 is discharged through the tuyere 3, the drain flow rate meter 35 measures the amount of drainage discharged from the tuyere 3 (S12).

After both the water supply amount and the drainage amount to the air outlet 3 is measured as described above, the calculation / control unit 50 first calculates the actual cooling water loss amount from the currently measured water supply amount and the drainage amount (S14).

Subsequently, the operation / control unit 50 determines the operation mode of the blast furnace tuyere 3 according to the cooling water loss amount currently calculated by referring to the cooling water loss amount table preset in the memory unit 40 to determine whether the blast furnace tuyere is damaged. Variable operation is controlled by operation, sensation of wind, and no wind (S16).

At this time, the operation / control unit 50 distinguishes the degree of the coolant loss amount into small, medium, and small, and if the actual coolant loss amount is determined to be "small", it controls the tuyere 3 in the operation mode, and if it is determined to be "medium", The wind blowing mode 3 is controlled, and if it is determined as "large", the wind blowing 3 is controlled in the idle mode.

In addition, at the same time, the operation / control unit 50 displays the corresponding operation mode of the blast furnace tuyere 3 that is currently variable controlled on the monitor 60 and transmits the same to the blast furnace control main computer 70 to an operator or manager. The state of the blast furnace (3) of the present blast furnace (S18), so that the maintenance work of the operator or manager according to the result of the melting damage of the blast furnace (3) is performed.

As described above, according to the blast furnace blast furnace pulsation loss diagnosis apparatus and the method according to the present invention, it is not necessary to measure the carbon monoxide (CO) concentration in a pair of three as in the prior art in order to confirm the erosion loss of the blast blast conventionally added to the workload It is possible to solve the problem of the problem, and in particular, when the abnormality is detected, it is possible to completely stop the maintenance work by delaying the blast furnace irrespective of the amount of coolant flowing into the blast furnace and consequently reducing the amount of molten iron. I can eliminate it.

What has been described above is just one embodiment for carrying out the apparatus for blast furnace blast furnace damage and the method according to the present invention, the present invention is not limited to the above embodiment, the present invention as claimed in the following claims Without departing from the gist of the present invention, those skilled in the art to which the present invention pertains to the technical spirit of the present invention to the extent that various changes can be made.

Claims (2)

A water supply flow meter for measuring a water supply amount of the cooling water flowing into the tuyere; A drain flow meter for measuring the amount of drainage discharged from the tuyere; A memory unit for storing a preset cooling water loss amount table to determine whether or not the blast furnace is damaged; And The actual coolant loss amount is calculated from the water supply and drainage measured by the water supply flow meter and the drain flow meter, and the operation mode of the blast furnace vent is changed to operation, depressurization, and idle air according to the cooling water loss amount currently calculated by referring to the cooling water loss amount table of the memory unit. Control and display the operation mode on the monitor and send to the blast furnace control main computer to alert the operator of the current blast furnace status. Blast furnace yonggu hand diagnostic apparatus, characterized in that consisting of. Measuring a water supply amount of cooling water flowing into the tuyere; Measuring the amount of water discharged from the tuyere; Calculating an actual amount of cooling water loss from the measured amount of water and the amount of discharged water; Variably controlling an operation mode of the blast furnace tuyere with operation, depressurization, and shelter air according to the currently estimated amount of cooling water loss by referring to a preset cooling water loss amount table to determine whether the blast furnace tuyere is damaged; And Displaying the corresponding operation mode of the blast furnace vent which is currently variable controlled on the monitor and transmitting it to the main computer for blast furnace control to alert the operator of the current blast furnace status. Blast furnace blast furnace diagnostic method, characterized in that consisting of.

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