KR101228766B1 - Apparatus and Method for Treating Linz-Donawitz Gas and Blast Furnace Gas - Google Patents

Abstract

An apparatus and method for treating BFG and LDG by-product gas generated during blast furnace operation or converter operation are provided.
The blast furnace and converter by-product gas treatment device as an example of the configuration, the first line provided for the holder processing of the BFG between the blast furnace and the BFG holder; and the second provided for the treatment of the LDG holder between the converter and the LDG holder line; And a first connection line provided between the blast furnace and the LDG holder for LDG holder processing of the BFG and a second connection line provided for the BFG holder processing of the LDG between the BFG holder and the second line. It can be configured to include; BFG and LDG holder combined line.
According to the present invention, it is possible to prevent gas processing delays or processing interruptions in advance, and in particular, to enable recovery of previously inevitably treated defense gases, and ultimately, renewable energy through by-product gas (waste gas). It is to provide an improved effect to enable the acquisition.

Description

Apparatus and Method for Treating Linz-Donawitz Gas and Blast Furnace Gas}

The present invention relates to an apparatus and a method for treating by-product gas such as blast furnace gas and converter gas generated during blast furnace operation or converter operation, and more specifically cross-linking of the existing dedicated blast furnace gas or converter gas holders. By enabling the use, it is possible to prevent the gas treatment delay or the processing interruption in advance, and in particular, it is possible to recover the previously inevitably treated defense gas, and ultimately secure the renewable energy through the by-product gas (waste gas). The present invention relates to a blast furnace and converter by-product gas treatment apparatus and method for enabling the same.

In general, blast furnace gas (hereinafter referred to as 'BFG'), a gas produced when iron ore, coke, and lime are obtained by reduction of iron ore by the reaction of iron ore in a steelmaking process, Linz-Donawitz Gas (hereinafter referred to as 'LDG') generated in the steelmaking process to reduce carbon, silicon, manganese, phosphorus, sulfur, and add necessary elements to make molten steel with target components and temperature Due to the calorific value, impurities of various stages are purified and then used as fuel gas in each steelmaking process such as powder, wire rod and hot rolled steel.

Therefore, BFG and LDG, which are by-product gases generated in the blast furnace and the converter of the steelworks, are stored in the holder and recycled as a heat source if necessary, and the carbon monoxide is discharged to the chimney if it is less than the prescribed amount.

That is, such BFG and LDG are sent to the gas combustion facility 50, for example, a power plant, etc. as shown in FIG. 1, and are used as a very economical heat source.

For example, in a steel mill, a holder for a BFG (see '20' in FIG. 1) for storing a BFG and a holder for an LDG (see '40' in FIG. 1) for storing an LDG are operated.

However, at present, the BFG holder and the LDG holder operated in the steel mill are separately operated separately.

For example, since BFG and LDG are used separately because of the characteristics of the holder even though their composition ratios are almost the same, when the operation is stopped due to not only gas waste but also the problem of the holder itself, there is a problem in that related operations are also stopped.

In particular, since the BFG holder is normally operated in the first stage, the blast furnace itself is inevitable when the BFG holder is abnormally shut down.

In addition, when a problem occurs in the LDG holder, LDG generated in the iron making process cannot be stored in the holder regardless of the content of carbon monoxide.

The present invention has been proposed in order to solve the above-mentioned conventional problems, and an object of the present invention is to prevent gas processing delays or processing interruptions in advance, and in particular, to enable recovery of previously inevitably treated dissipation gas. Accordingly, the present invention is to provide a blast furnace and converter by-product gas treatment apparatus and method that can ensure renewable energy through by-product gas (waste gas).

As a technical aspect for achieving the above object, the present invention, the first line provided for the holder processing of the BFG between the blast furnace and the BFG holder;

A second line provided for holder processing of the LDG between the converter and the LDG holder; And

BFG and LDG including a first connection line provided between the blast furnace and the LDG holder for LDG holder processing of BFG and a second connection line provided between the BFG holder and the second line for BFG holder processing of LDG. Holder combination line;

It provides a blast furnace and converter by-product gas treatment device configured to include.

Preferably, the first connection line is connected between a third line connected between the BFG holder and the gas combustion facility, and a fourth line connected between the LDG holder and the gas combustion facility.

More preferably, the first line is further connected to a fifth line associated with the coke plant, and the first and second connection lines and the first to fifth lines, the on-off valve and the water sealing sides to control the gas flow It may be provided.

More preferably, the BFG holder and the LDG holder are provided to have the same gas receiving capacity and pressure to cross-acquire the LDG and the BFG, and the sealing structures of the BFG holder and the LDG holder are configured to be the same. will be.

In addition, as another technical aspect, the present invention includes a steel mill by-product gas treatment step of treating the BFG to the BFG holder, the LDG to the LDG holder,

The present invention provides a blast furnace and converter by-product gas treatment method configured to process BFG to an LDG holder when the BFG holder is stopped, and to treat LDG to a BFG holder when the LDG holder is stopped.

Preferably, the step of treating the BFG to the LDG holder when the operation of the BFG holder is stopped, the first line and the first connection line and a part of the first line of the BFG holder included in the by-product gas treatment device is closed Through the third and fourth lines, the BFG can be processed in the LDG holder.

More preferably, the step of processing the LDG to the BFG holder when the operation of the LDG holder is stopped, the second line of the LDG holder side included in the by-product gas treatment device is partially closed, the second line associated with the second line LDG can be processed in the BFG holder through the connection line.

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According to the present invention as described above, it is possible to mutually use the blast furnace gas or converter gas holders that are previously operated separately.

Therefore, the present invention makes it possible to prevent gas processing delays and processing interruptions in advance.

In particular, it is possible to recover the previously inevitably treated dispersal gas, and ultimately to provide an excellent effect, such as to ensure renewable energy through by-product gas (waste gas).

1 is a schematic diagram showing the overall configuration of the blast furnace and converter by-product gas treatment apparatus according to the present invention,
2 is a schematic diagram showing a configuration of LDG holder processing of BFG through the present invention device;
3 is a schematic diagram showing a BFG holder processing configuration of LDG through the present invention apparatus.

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

First, FIG. 1 illustrates a case in which the BFG holder 20 and the LDG holder 40 are normally operated. In FIG. 2, when the BFG holder 20 is abnormally stopped, BFG is applied to the LDG holder 40. FIG. 3 illustrates a case where the LDG holder 40 is stored in the BFG holder 20 when the LDG holder 40 is stopped.

In addition, the valve provided in each line which controls the flow of gas in FIGS. 1-3 is represented by V1-V11, and the water sealing side installed in each line is demonstrated by WT1-WT11.

And, in Figures 1 to 3, installed in each line to distinguish the opening and closing of the valves for the holder flow control of the BFG or LDG to indicate, and at the same time to seal the gas in both sides of the holder when the holder is inoperable The opening and closing of the bongbong side were marked separately.

The blast furnace and converter by-product gas treatment device 1 of the present invention includes a first line 110 and a converter 30 which are largely provided for the holder treatment of BFG between the blast furnace 10 and the BFG holder 20. A first connection between the LDG holder 40 and a second line 120 provided for the processing of the LDG holder, and a third connection between the blast furnace and the LDG holder for the LDG holder processing of the BFG. The line 210 and the BFG and LDG holder combination line 200 including a second connection line 220 provided for the BFG holder processing of the LDG between the BFG holder and the second line may be divided.

Accordingly, the first and second lines are used when the BFG and LDG are normally stored in the holders 20 and 40, and the first and second connection lines 210 and 220 of the parallel line are used as the holders. It is used to enable the storage of BFG or LDG on either side in case of abnormal downtime.

For example, as shown in FIG. 1, when each holder is in normal operation, a holder combination line for treating BFG and LDG with the LDG holder 40 and the BFG holder 20, respectively, as described in detail below. On-off valves V8 and V11 installed on the first and second connection lines 210 and 220 which are 200 are closed.

Thus, the gas flow through the first and second connection lines is blocked, so that the BFG and the LDG are normally stored in the corresponding holders 20 and 40, respectively.

On the contrary, as shown in FIGS. 2 and 3, when the BFG holder 20 or the LDG holder 40 is stopped, the valves V11 and V5 of the first and second connection lines 210 and 220 ( V8) (V9) are selectively opened and one of each holder and the first and second connection lines is to close the valves installed in that line to enable flow of only one of BFG or LDG.

On the other hand, as shown in Figures 1 to 3, more specifically, the first connection line 210 to enable the storage processing of the BFG to the LDG holder 40, the BFG holder 20 and LDG holder 40 and the third and fourth lines 130 and 140 connected between the gas combustion facility 50 (such as a power plant facility).

That is, as shown in FIG. 2, the third line 130 is connected between the first line 110 and the gas combustion facility 50, and the fourth line 140 is the LDG holder 40. And a part of the first line 110 connected to the gas combustion facility 50 and thus connected to the blast furnace 10, the third line 130, the first connection line 210 and the fourth line ( Through 140, the BFG may be stored in the LDG holder 40.

At this time, the valves V1 and V4 of the BFG holder 20 and the fourth line 140 are closed, and the valves V2 and V11 and V5 of the third and first connection lines and the holder-side fourth line are closed. Is open. Then, the valves V6, V7 and V9 of the second line and the second connection line are closed.

As shown in FIG. 2, the water-sealed sides WT1 and WT10 provided on the upstream and downstream (inlet and outlet side) lines of the BFG holder 20 which have been stopped are closed to close the flow of gas to both sides of the holder. Shut off completely.

At this time, preferably as shown in Figures 1 and 2, the first line 110 in the apparatus of the present invention is the fifth line 150 is connected to the coke facility 60 (for example coke oven) Can be further connected. Therefore, the coke oven gas (COG) generated in the coke process can also be stored and stored in the BFG holder 20 or LDG holder 40 via the first and second lines and the first and second connection lines. It is also possible to perform combustion treatment in a power plant or the like which is the facility 50.

Next, as shown in FIGS. 2 and 3, the BFG holder 20 or the combined processing of the BFG and the LDG according to the suspension of the LDG holder 40 will be described in more detail. First, as shown in FIG. 2, the BFG When the operation of the holder 20 is abnormally stopped, the opening and closing valves V1 (V10) and the water sealing side WT1 (WT10) of the upstream and downstream sides (inlet and outlet side) of the BFG holder 20 are respectively. The valve V2 of the first line 110, the second line 120, the first connection line 210, and the fourth line 140 is closed and sealed to block gas inflow or outflow into the holder 40. ) V11 and V5 are opened, and the valve V4 of the fourth line 140 is closed to store (temporarily) the BFG generated in the blast furnace 10 in the LDG holder 40.

Therefore, as compared to using one separately operated BFG holder interlocked with the blast furnace as in the prior art, in the case of the present invention, when the BFG holder is stopped, the gas path can be adjusted quickly and stored and processed by the LDG holder 40. It is.

At this time, the second connection line 220 connected between the downstream side (outlet side) of the LDG holder 40 and the BFG holder 20 closes and closes the valves V6 and V8.

Next, as shown in FIG. 3, when the operation of the LDG holder 40 is abnormally stopped, the upstream and downstream valves V6 and V5 and the water sealing valve WT7 and WT6 of the LDG holder 40 are stopped. Are closed or closed respectively.

A second connection line 220 is connected between the portion of the second line 120 on the LDG holder side and the BFG holder 20 to store and process the LDG as the BFG holder 20.

Therefore, the LDG generated in the converter 30 is distributed in a state in which the valve V9 is opened through a part of the second line 120 and the second connection line 220 and stored in the BFG holder 20. .

At this time, preferably, as shown in FIG. 3, at least the valve V1 of the upstream (inlet side) first line 110 of the BFG holder 20 is closed so that BFG is introduced or discharged when the LDG holder is stored. It is not to lose.

Next, as described above, the BFG holder 20 and the LDG holder 40, respectively, separately operated to store only BFG or LDG, but in the case of the present invention, one of the holders or the operation stops as needed. In the device of the present invention, the BFG holder 20 and the LDG holder 40 preferably use a gas that is mutually matched to allow the cross-acceptance of the LDG and the BFG. It is to provide a capacity and pressure. It is also desirable to configure the sealing structure of such holders in the same way.

For example, when the BFG hole EJ 20 is inoperable, the pressure of the LDG holder 40 must be adjusted in order to store the BFG in the LDG holder 40 in order to prevent operation of the blast furnace. Similarly, the pressure of the BFG holder 20 should also be adjusted. In the case of the LDG holder 40, as shown in Figs. 1 to 3, the pressure of the LDG holder 40 should be set based on the IDF capacity. In order to be able to use the alternative, the set pressure of the BFG holder 20 and LDG holder 40 is about 600mmAq at the same pressure.

Next, in the present invention, it is preferable to consider the sealing structure of the BFG holder 20 and the LDG holder 40 as well.

For example, the BFG holder 20 is an oil seal type, and the LDG holder 40 is a double seal structure, but both of these BFG holders 20 and the LDG holder 40 are rubber seals. It is preferable to adjust the structure to a rubber seal type or a single type, which takes the above set pressure into consideration.

In addition, in the case of such a sealing structure of the holder, such as a single rubber seal type (Single Rubber Seal Type), it is the most problematic to give a sudden change in the operating speed among the factors that shorten the life of the rubber seal. It is the hardening phenomenon of the rubber which arises.

Therefore, in addition to the sealing structure of the holders, it is desirable to secure the gas storage capacity of the holders to some extent in order to solve the problem of hardening of the rubber. In this embodiment, when the single rubber seal structure is used, the gas storage capacity of the holder or the like Is preferably about 70,000 m 3.

In addition, although schematically shown in the drawings, it is necessary to adjust the pipe diameters of the pipes carrying BFG and the pipes carrying LDG. For example, it is desirable to adjust the pipe diameter of the existing BFG dedicated line to the pipe of the dedicated LDF line. Do.

And, in the present invention, the on-off valves (V1 to V 11) installed in each of the lines to control the gas flow using a known electric butterfly valve (Butter-Fly Valve), filling the tube with water to complete the gas flow The water sealing edges WT1 to WT 11 to be shut off can be provided adjacent to the valve. However, although not shown by a separate reference in the drawings, such a water seal side may include a curved pipe portion, a water supply pipe and a drain pipe for filling the water.

Of course, the water seal side is in various forms, although schematically illustrated in the drawings, a mode for appropriately controlling the BFG and LDG transportation processing of the present invention may be selected.

Next, the method of treating BFG and LDG using the blast furnace and converter by-product gas treatment apparatus 1 described so far is briefly summarized as follows.

First, the BFG and LDG processing method of the present invention, as shown in Figure 1, the BFG stored in the BFG holder 20, and the by-product gas basic processing step of storing and processing the LDG in the LDG holder 40 In particular, as shown in FIGS. 2 and 3, when the BFG holder 20 or the LDG holder 40 is stopped, the LDG or BFG is temporarily connected to the BFG holder 20 and the LDG holder 40 (temporarily). ) To prevent the blast furnace itself from shutting down, especially when the BFG holder is shut down.

On the other hand, the step of processing the BFG to the LDG holder 20 when the operation of the BFG holder is stopped, as shown in detail in Figure 2, the BFG holder 20 of the blast furnace and converter by-product gas treatment device 1 of the present invention Partially close the side first line 110, and the path of the fourth line 140 associated with the first line 110-> third line 130-> first connection line 210-> LDG holder Therefore, the BFG is stored in the LDG holder 40.

Of course, it is natural to properly open or close the on / off valves provided in each line to form such a gas flow path. In particular, when the operation of the BFG holder 20 is stopped, the valves V1 (V9) and the water sealing side WT1 (WT10) of the upstream and downstream sides (inlet and outlet side) of the BFG holder 20 as shown in FIG. Close all of them.

Next, as shown in Figure 3, the step of storing the LDG in the BFG holder 20 when the operation of the LDG holder 40 is stopped, LDG holder of the blast furnace and converter by-product gas treatment device 1 of the present invention The second line 110 on the 40 side is partially closed, and the LDG is stored in the BFG holder 20 through the second line 120-> the second connection line 220.

At this time, the second connection line is preferably constructed in a pit structure on the discharge side of the BFG holder 20.

In the LDG holder processing and the BFG holder storage processing of the BFG or LDG, the opening or closing of each line, as described above, organically controls the valve V and the water sealing edge WT provided in each line. Can be implemented by operation. However, since the operation is complicated in the case of the water seal, as shown in Figs. 2 and 3, only the water sealing edges on both sides of the holder which are stopped are operated to block the inflow or discharge of the holder of the gas.

2 and 3, between the gas combustion facility 50, that is, the power plant, the third line 130 connected to the first line 110 on the BFG holder 20 side, and the LDG holder 140. The valves V3 and V4 of the fourth line 140 connected to are transported BFG and LDG via the line only when necessary, and thus are closed when the holder cross-stores the BFG and LDG of the present invention. In the drawings, however, valves associated with the power plant in FIGS. 2 and 3 are shown in an open state.

However, in the case where the BFG is stored in the LGG holder 40 in FIG. 2, it is obvious that the valve V4 of the fourth line must be closed.

1 to 3, the carbon monoxide content is 30% or less, the valve (V7) (V10) of the flue line used in the case of dissipation is kept closed and opened only during dissipation to enable gas flow. .

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 .... Blast Furnace and Converter By-Product Gas Treatment 10 .... Blast Furnace
20 .... BFG Holder 30 .... Converter
40 ... LDG holder
110 .... First line for holder processing of BFG
120 .... 2nd line for holder processing of LDG
130,140,150 ... 3rd to 5th lines
200 .... BFG and LDG Holder
210 .... First connection line for LDG holder processing of BFG
220 .... 2nd connection line for LDG's BFG holder processing
V .... On-off valve WT .... Water seal side (Seal port)

Claims (8)

A first line 110 provided between the blast furnace 10 and the BFG holder 20 for holder processing of the BFG;
A second line 120 provided between the converter 30 and the LDG holder 40 for holder processing of the LDG; And
A first connection line 210 provided between the blast furnace and the LDG holder for LDG holder processing of the BFG and a second connection line 220 provided for the BFG holder processing of the LDG between the BFG holder and the second line. BFG and LDG holder combination line (200) including;
Blast furnace and converter by-product gas treatment device configured to include. The method of claim 1,
The first connection line 210 is connected to the third line 130 between the BFG holder 20 and the gas combustion facility 50, and between the LDG holder 40 and the gas combustion facility 50. Blast furnace and converter by-product gas treatment device, characterized in that connected between the fourth line (140). The method of claim 2,
The fifth line 150 is further connected to the first line 110, the coke plant 60,
The first and second connection lines 210, 220 and the first to fifth lines 110, 120, 130, 140, and 150 are provided with an on-off valve and a water sealing valve for controlling gas flow. Blast furnace and converter by-product gas treatment device, characterized in that. The method of claim 1,
The BFG holder 20 and the LDG holder 40 are configured to have the same gas receiving capacity and pressure so as to allow cross-accommodation of the LDG and the BFG, and the BFG holder 20 and the LDG holder 40 Blast furnace and converter by-product gas processing device, characterized in that the sealing structure is configured in the same way. The blast furnace and converter by-product gas treatment step of treating the BFG to the BFG holder, and LDG to the LDG holder,
A blast furnace and converter by-product gas processing method configured to process a BFG to an LDG holder when the BFG holder is stopped, and to process an LDG to a BFG holder when the LDG holder is stopped. The method of claim 5,
The step of treating the BFG to the LDG holder when the operation of the BFG holder is stopped, is included in the by-product gas treatment device 1 described in claim 3,
The first line 110 of the BFG holder 20 is partially closed, and the BFG is stored in the LDG holder through the first line, the first connection line 210, and the third and fourth lines 130 and 140. Blast furnace and converter by-product gas treatment method, characterized in that The method of claim 5,
The step of treating the LDG to the BFG holder when the operation of the LDG holder is stopped, is included in the by-product gas treatment apparatus 1 described in claim 3,
Partly closing the second line 110 on the side of the LDG holder 40 and storing the LDG in the BFG holder through the second connection line 220 associated with the second line. Way, delete

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