KR102073831B1 - Apparatus and method of removing dust - Google Patents

Abstract

Dust removal apparatus and method are provided. The dust removal device includes primary dust collection by a primary damper for controlling the amount of dust in the steelmaking furnace and secondary dust collection by a secondary damper for controlling the amount of dust in the clean house that seals the space in which the steelmaking furnace is disposed. In the used dust removal apparatus, the dust amount of primary dust collection is reduced, and the dust amount of secondary dust collection is increased based on the measurement sensor which measures the amount of dust inside a clean house, and the measured dust amount inside a clean house. By including a damper control unit for controlling the opening amount of the primary damper and the opening amount of the secondary damper, it is possible to reduce the energy loss due to excessive primary dust collection.

Description

Dust removal apparatus and method {APPARATUS AND METHOD OF REMOVING DUST}

The present application relates to dust removal generated in a steelmaking furnace such as an electric furnace.

In general, an electric furnace, which is a kind of steel making furnace, uses a high-voltage, high-current electric arc heat to melt a metal such as iron to manufacture molten metal. Such an electric furnace is completely melted when the internal temperature is high. You can smelt as you wish.

When melting the metal in such an electric furnace, dust is generated as a pollutant, and when the dust is discharged as it is, a large amount of harmful substances are discharged together, so the air must be filtered and purified only using a dust collector. The above-mentioned dust collector is, for example, Korean Patent Application Publication No. 2-013-0024193 ('dust removal apparatus for dust removal', publication date: March 8, 2013)

In particular, in the case of having a clean house that seals the electric furnace, dust is first collected through the exhaust duct of the electric furnace, and some dust leaked from the electric furnace may be collected by the dust collecting hood of the clean house. Since the above-described primary dust collecting dust generated inside the electric furnace, there is a problem that energy loss occurs when the primary dust collection is excessive.

Korean Patent Publication No. 2-013-0024193 ('dust removal device for dust removal', published date: March 8, 2013)

According to one embodiment of the present invention, there is provided a dust removal apparatus and method that can reduce energy loss.

According to the first embodiment of the present invention, the primary dust collector by the primary damper for controlling the amount of dust in the steelmaking furnace and the secondary damper for controlling the amount of dust in the clean house which seals the space in which the steelmaking furnace is disposed. An apparatus for removing dust using secondary dust collection, the apparatus comprising: a measurement sensor measuring an amount of dust in the clean house; And the opening amount of the primary damper and the opening of the secondary damper in a direction in which the amount of dust in the primary dust is reduced and in a direction in which the amount of dust in the secondary dust is increased, based on the measured amount of dust in the clean house. Provided is a dust removal device including a damper control unit for controlling the quantity.

According to one embodiment of the present invention, the damper control unit may reduce the opening amount of the primary damper when the measured amount of dust in the clean house is less than or equal to a preset reference value.

According to one embodiment of the present invention, the damper control unit increases the opening amount of the secondary damper when the measured amount of dust in the clean house exceeds a preset reference value, but increases the opening amount of the secondary damper. When the preset maximum opening amount is exceeded, the opening amount of the primary damper may be increased.

According to the second embodiment of the present invention, the primary dust collector by the primary damper for controlling the amount of dust in the steelmaking furnace and the secondary damper for controlling the amount of dust in the clean house which seals the space in which the steelmaking furnace is disposed. A dust removal method using secondary dust collection, comprising: a first step of measuring, in a measurement sensor, an amount of dust in the clean house; And a damper control unit based on the measured amount of dust in the clean house, the amount of dust of the primary dust is reduced, and the amount of opening of the primary damper and 2 is increased in a direction of increasing the amount of dust of the secondary dust. It provides a dust removal method comprising a secondary step of controlling the amount of opening of the secondary damper.

According to an embodiment of the present disclosure, the secondary step may include reducing the opening amount of the primary damper when the measured amount of dust in the clean house is less than or equal to a preset reference value.

According to one embodiment of the present invention, in the second step, when the measured amount of dust in the clean house exceeds a preset reference value, the opening amount of the secondary damper is increased, but the increased opening degree of the secondary damper is increased. When the amount exceeds the preset maximum opening amount may include increasing the opening amount of the primary damper.

According to one embodiment of the invention, based on the amount of dust in the clean house, the amount of opening of the primary damper and the amount of the secondary damper in the direction in which the amount of dust of the primary dust is reduced and in the direction of increasing the amount of secondary dust. By controlling the opening amount, energy loss due to excessive primary dust collection can be reduced.

1 is an overall configuration diagram of a dust removal apparatus according to an embodiment of the present invention.
2 is a flowchart illustrating a dust removing method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described embodiments of the present invention. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Shapes and sizes of the elements in the drawings may be exaggerated for clarity, elements denoted by the same reference numerals in the drawings are the same elements.

1 is an overall configuration diagram of a dust removing device according to an embodiment of the present invention, in which primary dust collection by the primary damper DP1 for controlling the amount of dust in the steelmaking furnace 10 and the steelmaking furnace 10 are arranged. In the dust removal apparatus using secondary dust collection by the secondary damper DP2 which controls the amount of dust in the clean house 20 which seals the closed space, the measurement sensor 100 which measures the amount of dust in the clean house 20 inside ) And the opening amount of the primary damper DP1 and the secondary in the direction in which the amount of dust of the primary dust is reduced and the amount of dust of the secondary dust is increased, based on the measured amount of dust in the clean house 20. The damper controller 110 may control the opening amount of the damper DP2.

Hereinafter, with reference to Figure 1, it will be described in detail dust removal apparatus according to an embodiment of the present invention.

As shown in FIG. 1, a clean house 20 may be disposed in the building house 30, and a canopy hood 31 may be disposed above the building house 30 so as to correspond to the clean house 20. In addition, the steelmaking furnace 10 is disposed inside the clean house 20 to seal the space in which the steelmaking furnace 10 is disposed, and the dust collecting hood 21 may be disposed above the clean house 20. The steelmaking furnace 10 described above may include a converter, an electric furnace, etc., and is a furnace for manufacturing molten metal by melting a metal such as iron using electric arc heat of high pressure and high current.

The canopy hood 31 is connected to the main duct 32, the dust collection hood 21 is connected to the dust collecting duct 22, and the steelmaking furnace 10 may be connected to the steelmaking duct 12. The duct 22 and the steelmaking duct 12 may be connected to the main duct 32, and the main duct 32 may be connected to the dust collector 40. The main duct 32, the dust collecting duct 22, and the steel duct duct 12 described above may be individually connected to the dust collector 40.

On the other hand, the primary dampers (DamPer, DP1) are installed in the steelmaking duct 12 through which the dust generated in the steelmaking furnace 10 flows, by controlling the opening amount under the control of the damper controller 110, steelmaking furnace (10) The amount of dust inside can be controlled (hereinafter referred to as 'primary dust collection').

Secondary dampers (DamPer, DP2) are installed in the dust collecting duct 22 through which the dust in the clean house 20 flows, and by controlling the opening amount under the control of the damper controller 110, the interior of the clean house 20 The amount of dust can be controlled (hereinafter referred to as 'secondary dust collection').

That is, when the clean house 20 is provided to seal the steelmaking furnace 10, the dust is first collected through the primary damper DP1 and the steelmaking duct 12 of the steelmaking furnace 10. Some dust leaked from 10 may be secondary dust collected by the secondary damper DP2 and the dust collection hood 21 of the clean house 20. Meanwhile, dust collecting through the canopy hood 31 may be tertiary dust collecting.

On the other hand, the measurement sensor 100 is installed in the clean house 20, it can measure the amount of dust in the clean house (20). The measured amount of dust inside the clean house 20 may be transmitted to the damper controller 110.

In addition, the damper controller 110 may be configured such that the amount of dust of the primary dust is reduced and the amount of dust of the secondary dust is increased based on the amount of dust in the clean house 20 measured by the measuring sensor 100. The opening amount of the primary damper DP1 and the opening amount of the secondary damper DP2 can be controlled.

Specifically, the damper controller 110 may reduce the opening amount of the primary damper DP1 when the measured dust amount in the clean house 20 is less than or equal to a preset reference value, and the measured inside of the clean house 20 may be reduced. If the amount of dust exceeds the preset reference value, the opening amount of the secondary damper is increased, but if the increased amount of opening of the secondary damper DP2 exceeds the preset maximum opening amount, the amount of opening of the primary damper DP1 is increased. You can.

Table 1 below shows the case where the opening amount of the damper is fixed and the opening amount of the damper modified according to the embodiment of the present invention is illustrated by way of example, and (a) shows the fixed opening of the primary damper DP1. The amount of measurement, (b) is the fixed opening amount of the secondary damper DP2, (c) is the correction opening amount of the primary damper DP1 according to one embodiment of the present invention, (d) is one embodiment of the present invention According to this means the correction opening amount of the secondary damper (DP2).

As shown in Table 1, during the ignition, the temperature rise, the ignition, and the temperature increase process of the steelmaking furnace 10, the correction opening amount (see (c)) of the primary damper DP1 is determined by the primary damper ( It can be seen that it is controlled to be smaller than the fixed opening amount (see (a)) of DP1).

As described above, according to one embodiment of the present invention, based on the amount of dust in the clean house, the amount of opening of the primary damper in the direction in which the amount of dust in the primary dust is reduced and in the direction in which the amount of dust in the secondary dust is increased. And by controlling the opening amount of the secondary damper, it is possible to reduce the energy loss due to excessive primary dust collection.

2 is a flowchart illustrating a dust removal method according to an embodiment of the present invention. Hereinafter, a dust removal method according to an embodiment of the present invention will be described with reference to FIGS. 1 to 2. However, for the sake of brevity of the invention, a description of overlapping parts with respect to FIG. 1 will be omitted.

1 to 2, the measurement sensor 100 is installed in the clean house 20, and may measure the amount of dust in the clean house 20 (S201). The measured amount of dust inside the clean house 20 may be transmitted to the damper controller 110.

On the other hand, the damper control unit 110 is based on the amount of dust in the clean house 20 measured by the measurement sensor 100, the dust amount of the primary dust is reduced in the direction, the dust amount of the secondary dust is increased in the direction The opening amount of the primary damper DP1 and the opening amount of the secondary damper DP2 can be controlled.

In detail, the damper controller 110 determines whether the measured amount of dust in the clean house 20 exceeds a preset reference value (S202), and as a result of the determination, the amount of dust in the clean house 20 is less than or equal to a preset reference value. In the case of having a value of, the opening amount of the primary damper DP1 can be reduced (S203). Here, reducing the opening amount of the primary damper DP1 means that the amount of dust of the primary dust collection by the primary damper DP1 is reduced.

On the other hand, in the case where the measured dust amount in the clean house 20 has a value exceeding a preset reference value, it may be determined whether the opening amount of the currently set secondary damper DP2 exceeds the maximum opening amount (S204). . As a result of the determination, if the maximum opening amount is not exceeded, the opening amount of the secondary damper DP2 may be increased (S206). However, if the maximum opening amount is exceeded, the opening amount of the primary damper DP1 can be increased (S205). The above-described S201 to S206 may be repeatedly performed.

As described above, according to one embodiment of the present invention, based on the amount of dust in the clean house, the amount of opening of the primary damper in the direction in which the amount of dust in the primary dust is reduced and in the direction in which the amount of dust in the secondary dust is increased. And by controlling the opening amount of the secondary damper, it is possible to reduce the energy loss due to excessive primary dust collection.

The present invention is not limited by the above-described embodiment and the accompanying drawings. It is intended that the scope of the claims be defined by the appended claims, and that various forms of substitution, modification, and alteration can be made without departing from the spirit of the invention as set forth in the claims. Will be self explanatory.

10: steelmaking furnace 12: steelmaking furnace duct
20: clean house 21: dust collection hood
22: dust collecting duct 30: building
31: canopy hood 32: main duct
40: dust collector 100: measuring sensor
110: damper control unit DP1: primary damper
DP2: secondary damper

Claims (6)

In the dust removal apparatus using the primary dust collection by the primary damper for controlling the amount of dust in the steelmaking furnace, and the secondary dust collection by the secondary damper for controlling the amount of dust in the clean house that encloses the space in which the steelmaking furnace is disposed. In
A measurement sensor measuring an amount of dust in the clean house; And
The opening amount of the primary damper and the opening amount of the secondary damper in a direction in which the dust amount of the primary dust is reduced and in a direction in which the dust amount of the secondary dust is increased, based on the measured dust amount in the clean house. Dust removal device comprising a damper control unit for controlling the.
The method of claim 1,
The damper control unit,
The dust removal device for reducing the opening amount of the primary damper when the measured amount of dust in the clean house is less than a predetermined reference value.
The method of claim 1,
The damper control unit,
If the measured amount of dust in the clean house exceeds a preset reference value, the opening amount of the secondary damper is increased,
And increase the opening amount of the primary damper when the increased opening amount of the secondary damper exceeds a preset maximum opening amount.
In the dust removal method using the primary dust collection by the primary damper for controlling the amount of dust in the steelmaking furnace and the secondary dust collection by the secondary damper for controlling the amount of dust in the clean house which encloses the space in which the steelmaking furnace is disposed. In
In the measuring sensor, the first step of measuring the amount of dust in the clean house; And
In the damper control unit, based on the measured amount of dust in the clean house, the amount of dust of the primary dust is reduced, the amount of opening of the primary damper and the secondary in the direction of increasing the amount of dust of the secondary dust A method for removing dust comprising a second step of controlling the amount of opening of the damper.
The method of claim 4, wherein
The second step,
And reducing the opening amount of the primary damper when the measured amount of dust in the clean house is less than or equal to a predetermined reference value.
The method of claim 4, wherein
The second step,
If the measured amount of dust in the clean house exceeds a preset reference value, the opening amount of the secondary damper is increased,
Increasing the opening amount of the primary damper when the increased opening amount of the secondary damper exceeds a preset maximum opening amount.

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