KR102181756B1 - Process water treatment plant - Google Patents

Abstract

Started process water treatment facility. A process water treatment facility according to an embodiment of the present invention includes a closed water treatment tank that receives process water therein and has one or more process water outlets on its side; A combined water header installed on the upper part of the water treatment tank and mixing process water recovered from a plurality of areas and supplying it into the water treatment tank; A partition wall that divides the inner lower part of the water treatment tank into a dripping area in which process water falls from the combined water header and a storage area provided with a process water discharge port, and allowing process water in the dripping area to flow into the storage area beyond the upper end thereof; A discharge overflow wall that surrounds the process water discharge port in the storage area at a height lower than that of the partition wall; And one or more gas discharge pipes extending upward from the upper surface of the water treatment tank above the storage area.

Description

Process water treatment facility{PROCESS WATER TREATMENT PLANT}

The present invention relates to a process water treatment facility capable of easily separating and discharging harmful gas contained in process water while simplifying the facility configuration and capable of discharging process water smoothly to a subsequent process.

Excess gas generated in the melting furnace of the steelworks Finex facility and off gas generated in the flow furnace contain a large amount of high-temperature dust, so this is a wet scrubber. Cooling and vibration suppression are performed using process water.

Process water discharged from the scrubber contains concentrated harmful gases and sludge. Therefore, such process water is discharged by separating harmful gases using process water treatment facilities. The sludge is precipitated and purified in a settling tank, and after cooling in a cooling tower, it can be used as water for various facilities.

A typical process water treatment facility includes a water treatment tank that collects process water discharged from various facilities and supplies it to a settling tank, and a gas separation device installed in the water treatment tank to separate harmful gases such as carbon monoxide from the process water flowing into the water treatment tank. .

However, in the conventional process water treatment facility, since the sludge is fixed in the flow path of the gas separation device while the process water passes through the gas separation device, separation of gas from the process water and flow of the process water may not be smooth. Also, since the gas separation device is in the water treatment tank, maintenance was difficult.

An aspect of the present invention is to provide a process water treatment facility that simplifies the configuration of the facility and allows the harmful gas contained in the process water to be easily separated and discharged, and the process water can be smoothly discharged to a subsequent process.

According to an aspect of the present invention, a closed water treatment tank containing process water therein and provided with at least one process water discharge port on a side thereof; A combined water header installed above the water treatment tank and mixing process water recovered from a plurality of areas and supplying it into the water treatment tank; A partition wall that divides the inner lower part of the water treatment tank into a falling water area in which process water falls from the sum header and a storage area provided with the process water discharge port, and allowing the process water of the falling water area to flow into the storage area beyond the upper end thereof; An exhaust wall that surrounds the process water outlet in the storage area at a height lower than that of the partition wall; And one or more gas discharge pipes extending upward from the upper surface of the water treatment tank above the water storage area may be provided.

The falling water area includes a first falling area and a second falling area respectively provided by first and second partition walls on both sides of the water treatment tank, and the process water outlet is a first process water provided on both sides of the storage area. A discharge port and a second process water discharge port, and the discharge discharge wall may include a first discharge discharge wall and a second discharge discharge wall respectively provided at the first and second process water discharge ports in the storage area.

The process water treatment facility may further include a sludge holding frame installed in a lattice shape at the bottom of the dripping water area and having an open top for inflow of sludge.

The partition wall may include a plurality of sludge discharge holes provided so as to pass through both sides at an upper position of the sludge holding frame.

The combined header may include a plurality of discharge pipes that are installed to extend transversely to the upper portion of the water treatment tank and extend from a lower portion thereof through the upper surface of the water treatment tank to the top of the falling water area, and have a diameter smaller than that of the combined header. have.

The gas discharge pipe may include an ejector or a discharge fan forcibly discharging the gas inside the water treatment tank.

In the process water treatment facility according to an embodiment of the present invention, since the process water flowing into the water treatment tank can flow naturally to the process water outlet through the falling water area and the storage area, the process water can be smoothly supplied to the subsequent process. In addition, since the process water falls into the dripping zone, primary gas separation, secondary gas separation while crossing the partition wall, and tertiary gas separation while crossing the discharge overflow wall, harmful gases contained in the process water can be easily separated and discharged. have.

In the process water treatment facility according to an embodiment of the present invention, since the sludge layer is formed by the sludge holding frame installed at the bottom of the falling water area, erosion of the bottom of the water treatment tank can be prevented, and the sludge is discharged through the sludge discharge hole of the partition wall. Because it is discharged, the height of the sludge layer formed at the bottom of the dripping water area can always be kept constant.

1 is a perspective view of a process water treatment facility according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line II-II' of FIG. 1.
3 is a cross-sectional view taken along line III-III' of FIG. 1.
4 is a perspective view showing the configuration of a sludge holding frame installed at the bottom of a dripping area of a process water treatment facility according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are presented in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains, and may be embodied in other forms without being limited thereto. In the drawings, in order to clarify the present invention, portions not related to the description may be omitted, and the size of components may be slightly exaggerated to help understanding.

1 is a perspective view of a process water treatment facility according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line II-II' of FIG. 1, and FIG. 3 is a cross-sectional view taken along line III-III' of FIG.

1 to 3, a process water treatment facility according to an embodiment of the present invention includes a water treatment tank 10, a first sum header 20, a second sum header 30, and a first partition wall 40. , The second partition wall 50, the first process water discharge port 60, the second process water discharge port 70, the first discharge discharge wall 80, the second discharge discharge wall 90, the first gas discharge pipe ( 110), may include a second gas discharge pipe 120.

The water treatment tank 10 may store process water flowing into the interior and discharge it to the first or second process water outlets 60 and 70. The water treatment tank 10 may be a hexahedral structure made of steel or concrete, and its upper surface is closed so that harmful gases (carbon monoxide, etc.) separated from the inside can be collected and discharged through the first or second gas discharge pipes (110, 120). It can be a form.

The inside of the water treatment tank 10 is formed by a first partition wall 40 and a second partition wall 50 in the center of the storage area 13 and the first and second falling water areas 11 and 2 on both sides of the storage area 13. It may be divided into a falling water area 12.

As shown in FIG. 2, the first and second partition walls 40 and 50 have the process water flowing into the first and second falling areas 11 and 12, It may be provided at a height lower than the upper and lower heights inside the water treatment tank 10 so as to flow into the region 13.

The first combined header 20 and the second combined header 30 are provided on both upper sides of the water treatment tank 10 so that process water can be supplied to the first and second falling zones 11 and 12. . The first combined header 20 may be located above the first falling water area 11, and the second combined header 30 may be located above the second falling water area 12.

The first combined header 20 may be in the form of a tube extending transversely to the upper portion of the water treatment tank 10 and having both ends closed. The first combined water header 20 includes a plurality of inlet pipes 21 through which process water recovered from the plurality of areas flows into the inside of the plurality of areas on one side, and the first falling water area of the water treatment tank 10 ( 11) It has a plurality of discharge pipes 22 to be supplied to the top.

The plurality of discharge pipes 22 may extend from the lower portion of the first combined header 20 to the top of the water treatment tank 10 through the upper surface of the water treatment tank 10, and the diameter of the first combined header 20 It can be provided smaller than the diameter. Therefore, the process water flowing from the plurality of facilities to the first sum header 20 through the plurality of inlet pipes 21 is mixed in the first sum header 20 to make the state uniform, and then the plurality of discharge pipes 22 are opened. It may be supplied to the first dripping zone 11 of the water treatment tank 10 through the water treatment tank 10.

The second combined header 30 may also be provided in the same manner as the first combined header 20 above the second falling water area 12 of the water treatment tank 10. Therefore, the process water introduced into the second sum header 30 through the plurality of inlet pipes 31 is also mixed in the second sum header 30, and then the second water treatment tank 10 through the plurality of discharge pipes 32 It may be supplied to the falling water area 12.

The first process water discharge port 60 and the second process water discharge port 70 transfer the process water that has passed from the first dripping zone 11 and the second dripping zone 12 to the storage zone 13 to a subsequent process such as a settling tank. It is provided on both sides of the storage area 13 so that it can be supplied. The drain pipes 61 and 71 connected to the first process water discharge port 60 and the second process water discharge port 70 can selectively open and close the first process water discharge port 60 and the second process water discharge port 70. On/off valves 62 and 72 are respectively installed.

The first discharge overflow wall 80 and the second discharge overflow wall 90 are installed in the first and second process water discharge ports 60 and 70 in the storage area 13, respectively. The first and second discharge overflow walls 80 and 90 are in the storage area 13 at a lower height than the first or second partition walls 40 and 50 around the first or second process water discharge ports 60 and 70. It can be provided in a form that surrounds and divides.

In such a process water treatment facility, the mixed process water flowing into the first or second combined headers 20 and 30 falls into the first or second dripping zones 11 and 12, and harmful gases such as carbon monoxide contained in the process water Can be separated first. Process water in the first and second dripping areas 11 and 12 crosses the first partition wall 40 or the second partition wall 50 and moves to the storage area 13 in the center of the water treatment tank 10, Can be divided into secondary. In addition, the process water in the storage water area 13 crosses the first or second discharge overwalls 80 and 90 in the process of being discharged to the first or second process water discharge ports 60 and 70, so that harmful gases are separated into the third stage. I can.

In this way, the process water treatment facility separates harmful gases in the first, second, and third stages until the process water flowing into the water treatment tank 10 is discharged through the first or second process water outlets (60, 70). It can increase the separation effect of harmful gases contained in process water.

The harmful gas separated in the water treatment tank 10 is externally or separately through the first gas discharge pipe 110 or the second gas discharge pipe 120 extending upward from the upper surface of the water treatment tank 10 above the storage area 13. Can be discharged to gas treatment facilities in The first gas discharge pipe 110 and the second gas discharge pipe 120 include opening/closing valves 111 and 121 that can be selectively opened and closed, and discharge means such as a transfer area and a discharge fan for forcibly discharging the gas inside the water treatment tank 10 (112, 122) may be included, respectively.

1, 2, and 4, a sludge holding frame 130 capable of maintaining sludge at a set height is installed at the bottom of the first and second falling areas 11 and 12. The sludge holding frame 130 may be provided in the form of a lattice-shaped frame with an open top, and extends to a height set upward from the bottom so that the sludge is filled therein to form a sludge layer.

Since the sludge holding frame 130 forms a sludge layer at a set height on the bottom of the first and second dripping areas 11 and 12, the first combined header 20 or the second combined header 30 Even if the process water falls, it is possible to prevent the bottom of the water treatment tank 10 from being eroded by the process water.

The first partition wall 40 and the second partition wall 50 have a plurality of sludge discharge holes 41 formed to penetrate both sides at a higher position than the sludge holding frame 130, as shown in FIGS. 1 and 2. 51). Therefore, when the sludge stacked under the first and second falling water areas 11 and 12 reaches the plurality of sludge discharge holes 41 and 51, the sludge is discharged to the storage area 13 through the sludge discharge holes 41 and 51. Can be. As a result, the height of the sludge layer formed under the first and second dripping areas 11 and 12 can be maintained at a set height (sludge discharge hole height).

As described above, in the process water treatment facility according to the embodiment of the present invention, the process water flowing into the water treatment tank 10 can flow naturally to the process water outlet through the falling water area and the storage area. Can supply smoothly. In addition, since the process water falls into the dripping zone, primary gas separation, secondary gas separation while crossing the partition wall, and tertiary gas separation while crossing the discharge overflow wall, harmful gases contained in the process water can be easily separated and discharged. have.

Process water treatment facility according to an embodiment of the present invention can prevent erosion of the bottom of the water treatment tank 10 because the sludge layer is formed by the sludge holding frame 130 installed at the bottom of the falling water area, and the sludge of the partition wall Since the sludge is discharged through the discharge holes 41 and 51, the height of the sludge layer formed at the bottom of the dripping water area can be kept constant.

10: water treatment tank, 11: first falling water zone,
12: second falling water area, 13: reservoir area,
20: first sum header, 30: second sum header,
40: first partition wall, 41, 51: sludge discharge hole,
50: second partition wall, 60: first process water outlet,
70: second process water outlet, 80: first discharge overflow wall,
90: the second discharge overflow wall, 110: the first gas discharge pipe,
120: second gas discharge pipe, 130: sludge holding frame.

Claims (6)

A closed water treatment tank containing process water therein and having one or more process water outlets on the side thereof;
A combined water header installed above the water treatment tank and mixing process water recovered from a plurality of areas and supplying it into the water treatment tank;
A partition wall that divides the inner lower part of the water treatment tank into a falling water area in which process water falls from the sum header and a storage area provided with the process water discharge port, and allowing the process water of the falling water area to flow into the storage area beyond the upper end thereof;
An exhaust wall that surrounds the process water outlet in the storage area at a height lower than that of the partition wall; And
Process water treatment facility comprising at least one gas discharge pipe extending upward from the upper surface of the water treatment tank above the water storage area. The method of claim 1,
The falling water zone includes a first falling zone and a second falling zone respectively provided by first and second partition walls on both sides of the water treatment tank,
The process water discharge port includes a first process water discharge port and a second process water discharge port provided respectively on both sides of the storage area,
The discharge discharge wall is a process water treatment facility including a first discharge discharge wall and a second discharge discharge wall provided respectively at the first and second process water discharge ports in the storage area. The method of claim 1,
Process water treatment equipment further comprising a; a sludge holding frame installed in a lattice shape at the bottom of the dripping water area and opened at an upper portion for inflow of sludge. The method of claim 3,
The partition wall is a process water treatment facility including a plurality of sludge discharge holes provided so as to pass through both sides at a position above the sludge holding frame. The method of claim 1,
A process including a plurality of discharge pipes, wherein the combined header is installed to extend transversely in the upper portion of the water treatment tank, and extends from the bottom thereof to the top of the falling water area through the upper surface of the water treatment tank. Water treatment facility. The method of claim 1,
The gas discharge pipe is a process water treatment facility including an ejector or a discharge fan forcibly discharging the gas inside the water treatment tank.

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