KR101159767B1 - Apparatus for treating dust - Google Patents

Abstract

Disclosed is a dust treatment apparatus. The disclosed invention comprises: a storage for storing dust; A transfer unit for mixing and transporting the dust discharged from the storage unit with the fluid; And a precipitation part for collecting the dust mixed with the fluid by the transport part and transported.
According to the present invention, by treating the dust stored in the storage unit with the fluid to be transferred to the sedimentation unit and the wet treatment method of sedimentation in the sedimentation unit, it is possible to efficiently process the dust and to reduce the transport cost.

Description

Dust treatment unit {APPARATUS FOR TREATING DUST}

The present invention relates to a dust treatment apparatus, and more particularly to a dust treatment apparatus for treating the dust generated in the process of extruding coke in the coke oven.

In general, in a coke oven that produces coke, when coal is charged into a carbonization chamber and heated for a predetermined time, volatiles of the coal are removed, and only coke having a pure carbon component remains inside the carbonization chamber. The coke thus produced is extruded by an extruder and discharged. In addition, dust generated in the process of extruding coke is collected in a dust collecting facility for collecting dust and then stored in a dust silo. The dust stored in the dust silo is transported by a vehicle, such as a dump truck, to a post-process for dust treatment.

The above technical configuration is a background art for helping understanding of the present invention, and does not mean a conventional technology well known in the art.

It is an object of the present invention to provide a dust treatment apparatus that can economically and efficiently treat dust collected in the process of extruding coke.

Dust treatment apparatus according to the present invention comprises: a storage unit for storing dust; A transfer unit for mixing and transporting the dust discharged from the storage unit with a fluid; And a precipitation unit for collecting the dust mixed with the fluid by the transfer unit and transported.

In addition, the settling portion, the drain portion connected to the transfer portion; And an inflow portion communicating with the drainage portion and in which the dust, which is mixed with the fluid and transported by the transfer portion, is precipitated.

In addition, the precipitation unit preferably further includes a filter unit for filtering the dust not precipitated in the inlet.

The transfer unit may further include a transfer pipe unit connecting the storage unit and the drainage unit; A discharge part for transferring the dust discharged from the storage part to the transfer pipe part; And a fluid supply unit supplying a fluid to the transport pipe so that the dust is mixed with the fluid and transported.

According to the dust treatment apparatus of the present invention, the dust stored in the storage unit is mixed with the fluid to be transferred to the sedimentation unit and treated in a wet treatment method of sedimentation in the sedimentation unit, so that dust is efficiently compared with a transport method using a vehicle such as a dump truck. It is possible to treat the dust, reduce the transportation cost, and also has the advantage of not blowing dust or polluting the environment during the dust transport and treatment.

In addition, the present invention performs a process for treating the dust stored in the storage unit using one sedimentation unit and a process for purifying the discharge water generated in the facility, such as a digestion tower, and the precipitated dust with the other foreign matter precipitated This can improve the efficiency of the work and reduce the cost of the work.

1 is a side view showing a schematic configuration of a dust treatment apparatus according to an embodiment of the present invention.
2 is a plan view showing the configuration of the settling portion according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing the configuration of the inside of the precipitate according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the dust treatment apparatus according to the present invention. For convenience of description, the thicknesses of the lines and the size of the elements shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a side view showing a schematic configuration of a dust treatment apparatus according to an embodiment of the present invention, Figure 2 is a plan view showing the configuration of a precipitation unit according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Side cross-sectional view showing the structure of the sedimentation part according to the example.

Referring to Figure 1, the dust treatment apparatus 100 according to an embodiment of the present invention includes a storage unit 110, the transfer unit 120 and the precipitation unit 130.

The storage unit 110 stores dust. According to this embodiment, the storage unit 110 is installed at a position adjacent to the coke oven (not shown) to store the dust generated in the coke oven. As one example, the dust stored in the storage 110 is generated in the process of extruding coke to an extruder (not shown). The dust generated as described above is collected by a dust collecting facility installed in a coke oven and then transferred to a storage unit 110 by a transport facility (not shown) and stored.

1 and 2, the transfer unit 120 mixes and transfers the dust discharged from the storage unit 110 with the fluid. The transfer part 120 includes a transfer pipe part 122, a discharge part 124, and a fluid supply part 126.

The transfer pipe part 122 connects the storage part 110 and the drain part 132 of the precipitation part 130 to be described later. As an example, one side of the transfer pipe 122 is connected to the inside of the storage unit 110 via the discharge unit 124 to be described later, the other side of the transfer pipe 122 is connected to the drain 132. The dust discharged from the storage unit 110 is mixed with the fluid in the transfer pipe 122 and is transferred to the drain 132 through the transfer pipe 122.

The discharge part 124 is provided between the storage part 110 and the transfer pipe part 122 to transfer the dust discharged from the storage part 110 to the transfer pipe part 122. In this embodiment, the discharge portion 124 is illustrated as including a screw (not shown) rotatably installed in the lower portion of the storage unit 110. The discharge part 124 transfers the dust discharged from the storage unit 110 to the transfer pipe part 122 using the rotation of the screw. Since the transfer of dust by the rotation of the screw will be apparent to those skilled in the art, a detailed description thereof will be omitted. In the present embodiment, the discharge part 124 is illustrated as transferring the dust using the rotation of the screw, but the present invention is not limited thereto, and the discharge part 124 of the present invention various modifications of the configuration for transferring the dust Note that implementation is possible.

The fluid supply unit 126 supplies the fluid to the transport pipe 122 so that the dust discharged to the transport pipe 122 is mixed with the fluid and transported. In the present embodiment, the fluid supply unit 126 is connected to an external water source, the precipitation unit 130, etc., and feeds the water supplied through the supply pipe (not shown) and the supply pipe to the feed pipe unit 122. It is illustrated as including a pump to. According to the present embodiment, the dust conveyed to the conveying pipe part 122 by the discharge part 124 is mixed with the fluid supplied to the conveying pipe part 122 by the fluid supply part 126, and the drainage part along the flow of the fluid ( 132).

2 and 3, the precipitation unit 130 collects the dust mixed with the fluid through the transfer unit 120 and transferred. The precipitation unit 130 includes a drain 132, an inlet 134, a filter 136, and a receiving unit 138.

The drain 132 is connected to the transfer unit 120. According to the present embodiment, one side of the drain 132 is connected to a drain hole (not shown) through which discharge water generated in a facility such as a fire extinguishing tower (not shown) is discharged, and the drain part adjacent to the inlet 134 ( The other side of the 132 is connected to the transfer pipe 122 of the transfer unit (120).

The drain portion 132 is connected to the inlet portion 134 adjacent to the inlet portion 134, and thus the fluid flowing into the drain portion 132, for example through the transfer pipe 122 The fluid, the discharge water flowing through the drain, and the like flow into the inlet 134 through the drain 132. In addition, foreign matters such as dust included in each fluid are also introduced into the inlet 134 along the flow of the fluid.

In the inlet 134, the dust mixed with the fluid through the drain 132 is transferred. An accommodation space for accommodating the fluid is formed inside the inlet 134. Dust included in the fluid introduced into the inlet 134 is deposited on the bottom surface of the inlet 134.

The filter unit 136 filters the fluid introduced into the inlet 134. The filter part 136 is disposed between the inlet part 134 and the receiving part 138 to partition the inlet part 134 and the receiving part 138. The fluid in which the dust precipitates at the inlet 134 passes through the filter unit 136 and enters the receiving unit 138, where the dust not precipitated at the inlet 134 is filtered by the filter unit 136. . Therefore, only the fluid in which dust is filtered flows into the receiving portion 138.

The receiving part 138 receives the fluid filtered by the filter part 136. An accommodating space is formed inside the accommodating part 138 to accommodate the fluid, and the fluid accommodated in the accommodating part 138 is required through a supply pipe (not shown) connected to the necessary equipment, for example, a drain 132. It is fed back to the facility to discharge the effluent flowing into the furnace.

Hereinafter, the operation and effects of the dust treatment apparatus 100 according to the present embodiment will be described with reference to FIGS. 1 to 3.

When the dust stored in the storage unit 110 is discharged from the storage unit 110, the discharged dust is transferred to the precipitation unit 130 by the transfer unit 120. That is, the dust discharged from the storage unit 110 is transferred to the conveying pipe part 122 by the discharging part 124, and the dust conveyed to the conveying pipe part 122 is transferred from the fluid supply part 126 to the conveying pipe part 122. Mixed with the incoming fluid. The dust mixed with the fluid as described above is transferred to the precipitation unit 130 through the transfer pipe 122 along the flow of the fluid.

Fluid and dust transported as described above is introduced into the inlet 134 through the drain 132. Inside the inlet 134, dust contained in the fluid is deposited on the bottom surface of the inlet 134.

On the other hand, the sedimentation unit 130, as well as the fluid and dust transferred through the transfer unit 120, the discharge water generated in the facility, such as a digestion tower (not shown) is also introduced. Such discharge water is introduced into the inlet 134 through a drain 132 connected to a drain hole (not shown) through which the discharge water generated in the facility is discharged. In this way, the foreign matter contained in the discharge water flowing into the inlet 134 is deposited on the bottom surface of the inlet 134 like the dust introduced into the inlet 134 through the transfer unit 120.

As described above, the dust deposited on the bottom surface of the inlet 134 together with the foreign matter may be transferred to a post-treatment process by a scraper or the like and then transferred to a post-treatment process.

The dust treatment apparatus 100 of the present embodiment as described above, by treating the dust stored in the storage unit 110 with the fluid to be transferred to the precipitation unit 130 and settle in the precipitation unit 130 by a wet treatment method. Compared to the transportation method using a vehicle such as a dump truck, it can efficiently process dust and reduce transportation costs, and it does not blow dust or pollute the environment during dust transport and disposal. .

In addition, the dust treatment apparatus 100 of the present embodiment, the process of treating the dust stored in the storage unit 110 using one sedimentation unit 130 and the discharge water generated in the facility, such as a digestion tower (not shown) The clean-up process can be carried out together and the sedimented dust can be treated together with the other sediment which has settled, thus improving the efficiency of the work and reducing the cost of the work.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. Will understand. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

100: dust treatment device 110: storage unit
120: transfer unit 122: transfer pipe
124: outlet 126: fluid supply
130: sedimentation part 132: drainage part
134: inlet 136: filter
138: receptacle

Claims (4)

A storage unit for storing dust;
A transfer unit for mixing and transporting the dust discharged from the storage unit with a fluid; And
And a precipitation unit for collecting the dust mixed with the fluid by the transfer unit and transported.
The precipitation portion,
A drain connected to the transfer part;
An inflow portion communicating with the drainage portion and in which the dust, which is mixed and conveyed by the fluid by the transfer portion, is precipitated;
A filter unit filtering the dust not precipitated at the inlet; And
It includes a receiving space is formed for receiving a fluid, the fluid in which the dust precipitated in the inlet portion flows through the filter portion;
The transfer unit
A conveying pipe part connecting the storage part and the drain part;
A discharge part for transferring the dust discharged from the storage part to the transfer pipe part; And
And a fluid supply unit supplying a fluid to the transport pipe so that the dust is mixed with the fluid and transported.
The drain portion,
Using the sedimentation unit to process the dust stored in the storage unit and the operation to purify the discharged water generated in the facility together, one side is connected to the drain outlet for the discharged water generated in the facility, the other side is Is connected to the feed pipe,
The filter unit includes:
Disposed between the inlet and the receiving part to partition the inlet and the receiving part, and to filter the dust that has not settled in the inlet so that only the dust-filtered fluid enters the receiving part,
And a fluid contained in the accommodation part is supplied back to the facility through a supply pipe connected to the facility. delete delete delete

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