KR101075212B1 - Waste water treatment apparatus - Google Patents

Abstract

The present invention relates to a wastewater treatment apparatus, and more particularly, by the collision and mixing of oxygen and wastewater by a plurality of partition plates installed in the wastewater flow pipe, thereby increasing the oxygen solubility in the wastewater to increase the rate of purification of the wastewater. The present invention relates to a wastewater treatment apparatus that can be increased. Wastewater treatment apparatus according to the present invention, the wastewater treatment tank in which wastewater is accommodated therein; An oxygen supply device for producing oxygen; An oxygen dissolving device connected to the waste water treatment tank and dissolving oxygen supplied from the oxygen supply device in the waste water discharged from the waste water to discharge oxygen dissolved waste water; A pump for moving the wastewater from the wastewater treatment tank to the oxygen dissolving device; And a plurality of distribution pipes for introducing oxygen dissolved waste water into the waste water treatment tank so that oxygen dissolved waste water discharged from the oxygen dissolving device flows into the waste water treatment tank.

Description

Wastewater Treatment System {WASTE WATER TREATMENT APPARATUS}

The present invention relates to a wastewater treatment apparatus, and more particularly, by the collision and mixing of oxygen and wastewater by a plurality of partition plates installed in the wastewater flow pipe, thereby increasing the oxygen solubility in the wastewater to purify the wastewater without odor. The present invention relates to a wastewater treatment apparatus capable of increasing speed.

Conventionally, in order to treat wastewater, an apparatus for increasing dissolved oxygen in wastewater by simply injecting dissolved oxygen using a brower or the like into a wastewater treatment tank has been used. However, such a conventional apparatus has a problem that a lot of odor is generated due to aeration in the waste water treatment tank.

Therefore, much research has been conducted on how to reduce the occurrence of odor and improve the rate of purification of waste water.

An object of the present invention has been made to solve the above problems, the first object of the present invention is the collision and mixing of oxygen and waste water by a plurality of partition plates blocking the path of the waste water flow pipe in the oxygen dissolving device It is to provide a waste water treatment apparatus that can increase the solubility of oxygen in the waste water to activate the aerobic bacteria to improve the rate of purification of the waste water.

It is a second object of the present invention to provide a wastewater treatment apparatus by circulating wastewater in a wastewater treatment tank by a pump and dissolving oxygen in the circulated wastewater, so that the solubility of oxygen can be increased throughout the wastewater within a short time. .

It is a third object of the present invention to provide a wastewater treatment apparatus capable of preventing sludge settling by distributing a plurality of distribution pipes and then introducing them into the wastewater treatment tank when the circulating oxygen dissolved wastewater is re-introduced into the wastewater treatment tank. .

Wastewater treatment apparatus according to the present invention, the wastewater treatment tank in which wastewater is accommodated therein; An oxygen supply device for producing oxygen; An oxygen dissolving device connected to the waste water treatment tank and dissolving oxygen supplied from the oxygen supply device in the waste water discharged from the waste water to discharge oxygen dissolved waste water; A pump for moving the wastewater from the wastewater treatment tank to the oxygen dissolving device; And a plurality of distribution pipes for introducing oxygen dissolved waste water into the waste water treatment tank so that oxygen dissolved waste water discharged from the oxygen dissolving device flows into the waste water treatment tank.

The oxygen dissolving device includes a waste water flow pipe to which waste water is supplied; An oxygen flow pipe connected to the waste water flow pipe to supply oxygen to the waste water flow pipe; A gas-liquid mixing part which is closed at both ends and surrounds the wastewater flow pipe; First partition plates partitioning the wastewater flow pipe and the gas-liquid mixing part along a longitudinal direction of the wastewater flow pipe in the gas-liquid mixing part; A second partition plate positioned between the first partition plates in the gas-liquid mixing part and partitioning the waste water flow pipe and the gas-liquid mixing part along a length direction of the waste water flow pipe, the outer surface of the waste water flow pipe At least one through opening is formed in each of the spaces partitioned by the first partition plates and the second partition plates, and is located in an area of the first partition plate located between the outer surface of the wastewater flow pipe and the inner surface of the gas-liquid mixing portion. At least one through opening is formed, and preferably at least one through opening is formed in an area of the second partition plate located inside the wastewater flow pipe.

A plurality of through openings of the wastewater flow pipe are arranged along the outer circumferential surface of the wastewater flow pipe, and a plurality of through openings of the first partition plate are arranged along the outer circumferential surface of the wastewater flow pipe, and the through openings of the second partition plate Preferably, the through opening is the same size as the inner diameter of the wastewater flow pipe.

Wastewater treatment apparatus according to the present invention has the following effects.

(1) Increase the flow time of waste water and oxygen in the oxygen dissolving device to increase the time that oxygen can come into contact with the waste water, thereby increasing the solubility of oxygen in the waste water, thereby activating aerobic bacteria, Can increase the rate of purification.

(2) Waste water and oxygen impinge on the partition plates that block their flow paths and the flow paths are altered, and this impact increases the contact area of waste water and oxygen momentarily, thus increasing the solubility of oxygen in the waste water. Can be.

(3) By dissolving oxygen in the waste water in the oxygen dissolving device, the problem that odor was generated by aeration was solved.

(4) By dissolving oxygen in the circulated waste water while circulating the waste water of the waste water treatment tank by a pump, it is possible to increase the solubility of oxygen throughout the waste water within a short time.

(5) Sludge sedimentation can be prevented by distributing oxygen dissolved waste water circulated after dissolution of oxygen and flowing into the waste water treatment tank after being distributed into a plurality of distribution pipes when it is re-introduced into the waste water treatment tank.

1 is a view schematically showing a wastewater treatment apparatus according to the present invention.
2 is a schematic view showing the structure of the oxygen dissolving device of the wastewater treatment device according to the present invention.

Hereinafter, the wastewater treatment apparatus according to the present invention will be described in more detail with reference to the accompanying drawings. 1 is a view schematically showing a wastewater treatment apparatus according to the present invention.

The wastewater treatment apparatus according to the present invention comprises a wastewater treatment tank 1, a pump 2, an oxygen supply device 3, an oxygen dissolving device 4, and distribution pipes 5.

The wastewater supplied from the outside is accommodated in the wastewater treatment tank 1.

The waste water is discharged from the waste water treatment tank 1 to have a circulating flow which is re-introduced back into the waste water treatment tank 1 via the oxygen dissolving device 4 and the distribution pipes 5. The pump 2 discharges the waste water from the waste water treatment tank 1 so that the waste water can be circulated and injects the waste water into the oxygen dissolving device 4, and the waste water treatment tank 1 and the oxygen dissolving device 4. It is preferred to be located between).

The waste water flowing by the pump 2 is mixed with oxygen generated by the oxygen supply device 3 and then flows into the oxygen dissolving device 4. The oxygen dissolving device 4 dissolves oxygen in the waste water to produce and discharge "oxygen dissolved waste water". The process of dissolving oxygen in the waste water will be described later.

Oxygen-dissolved wastewater discharged from the oxygen dissolving device 4 is re-introduced into the wastewater treatment tank 1, which is branched into a plurality of distribution pipes 5 to prevent sludge settling. Reentrants through locations.

Through this circulation process, pure oxygen is dissolved in the waste water in the waste water, and dissolved oxygen of the waste water is increased, so that aerobic bacteria are active, and thus, the waste water is quickly purified.

Hereinafter, the structure of the oxygen dissolving device 4 will be described in detail. 2 is a schematic view showing the structure of the oxygen dissolving device of the wastewater treatment device according to the present invention.

The oxygen dissolving device 4 of the wastewater treatment device according to the present invention includes a wastewater flow pipe 10, an oxygen flow pipe 20, a gas-liquid mixing unit 30, a first partition plate 40, and a second partition plate 50. Is done.

A waste water flow pipe 10 for supplying waste water from the waste water treatment tank 1 and an oxygen flow pipe 20 for supplying oxygen generated in the oxygen supply device 3 are connected to each other. Oxygen is injected into the wastewater flowing along the wastewater flow pipe 10 toward the outlet 12, and the wastewater containing oxygen passes through the oxygen dissolving device 4, thereby increasing the contact time and contact area therebetween. Increased oxygen solubility in wastewater.

Preferably, the wastewater flow pipe 10 is a pipe-shaped member, and a set of 12 through holes 11 are arranged along the outer circumferential surface of the wastewater flow pipe 10, and a plurality of through-holes along the longitudinal direction of the wastewater flow pipe 10 are provided. The opening sets 12 are arranged spaced apart from each other.

The wastewater flow pipe 10 is surrounded by the gas-liquid mixing part 30 with both ends closed. Since the oxygen flow pipe 20 is connected to the wastewater flow pipe 10 outside the gas-liquid mixing part 30, the wastewater containing oxygen flows into the gas-liquid mixing part 30.

The gas-liquid mixing unit 30 is preferably a cylindrical tank, and the first partition plate 40 and the second partition plate 50 are alternately positioned therein, and the wastewater flow pipe 10 and the gas-liquid mixing unit 30 are alternately positioned. Is divided into a plurality of spaces.

The through-opening set 12 is positioned for each space partitioned by the first partition plate 40 and the second partition plate 50, and the first partition plate 40 is located at both ends of the gas-liquid mixing unit 30. It is preferable.

The first partition plate 40 has through openings 41 in a region located outside of the wastewater flow pipe 10. The plurality of through openings 41 may be arranged in a circular shape along the outer circumferential surface of the wastewater flow pipe 10.

The second partition plate 50 has a through opening 51 in a region located inside the wastewater flow pipe 10. The through opening 51 is preferably a circular opening having the same inner diameter as that of the wastewater flow pipe 10, but a plurality of through openings may be arranged in an area located inside the wastewater flow pipe 10.

Looking at the flow of waste water containing oxygen, the waste water containing oxygen introduced into the gas-liquid mixing unit 30 through the waste water flow pipe 10 impinges on the first partition plate (40). The collision is made of oxygen and the waste water is mixed, the waste water containing oxygen is discharged out of the waste water flow pipe 10 through the through opening (11).

The waste water containing oxygen impinges on the inner surface of the gas-liquid mixing part 30 and once again the oxygen and waste water are mixed, after which the waste water containing oxygen passes through the through-hole 41 of the first partition plate 40 through the second partition plate. Will flow toward The wastewater containing oxygen impinges on the second partition plate 50 and mixes oxygen and wastewater, and the wastewater containing oxygen flows into the wastewater flow pipe 10 through the through opening 11 of the wastewater flow pipe 10. Will flow.

The wastewater containing oxygen introduced into the wastewater flow pipe 10 collides with each other, and is located next through the through opening 51 of the second partition plate 50 (that is, located at the outlet 12 side). The first partition plate 40 flows in the direction of the first partition plate 40. Subsequently, the flow form of the waste water including oxygen is repeated as described above and finally becomes oxygen dissolved waste water and is discharged through the outlet 12 of the waste water flow pipe 10.

Through this process, oxygen and waste water undergo numerous collisions, and the movement path increases while repeating the inflow and outflow through the through-opening 11 for the wastewater flow pipe 10, and thus, the wastewater and oxygen Contact time and contact area are increased, thereby greatly improving the solubility of oxygen in waste water.

The exemplary embodiments described above are intended to be illustrative, not limiting, in all aspects of the invention. Accordingly, the present invention is capable of many modifications and implementations that can be made by those skilled in the art from the description contained herein. All such modifications and variations are considered to be within the scope and spirit of the invention as defined by the following claims.

1: wastewater treatment tank
2: pump
3: oxygen supply
4: oxygen dissolving device
5: distribution tubes
10: wastewater flow pipe
11: through opening
12: exit
20: oxygen flow tube
30: gas-liquid mixing unit
40: first partition plate
41: through opening
50: second partition plate
51: through opening

Claims (3)

delete A waste water treatment tank in which waste water is received;
An oxygen supply device for producing oxygen;
An oxygen dissolving device connected to the waste water treatment tank and dissolving oxygen supplied from the oxygen supply device in the waste water discharged from the waste water to discharge oxygen dissolved waste water;
A pump for moving the wastewater from the wastewater treatment tank to the oxygen dissolving device; And
It includes a plurality of distribution pipes to guide the oxygen dissolved waste water to the waste water treatment tank so that the oxygen dissolved waste water discharged from the oxygen dissolving device flows into the waste water treatment tank,
The oxygen dissolving device
A waste water flow pipe to which waste water is supplied;
An oxygen flow pipe connected to the waste water flow pipe to supply oxygen to the waste water flow pipe;
A gas-liquid mixing part which is closed at both ends and surrounds the wastewater flow pipe;
First partition plates partitioning the wastewater flow pipe and the gas-liquid mixing part along a longitudinal direction of the wastewater flow pipe in the gas-liquid mixing part;
Located between the first partition plate in the gas-liquid mixing unit, including a second partition plate for partitioning the waste water flow pipe and the gas-liquid mixing section along the longitudinal direction of the waste water flow pipe,
At least one through opening is formed in an outer surface of the wastewater flow pipe for each space partitioned by the first partition plates and the second partition plates,
At least one through opening is formed in an area of the first partition plate positioned between an outer surface of the wastewater flow pipe and an inner surface of the gas-liquid mixing portion,
And at least one through opening is formed in an area of the second partition plate located inside the waste water flow pipe.
The method of claim 2,
A plurality of through-holes of the wastewater flow pipe are arranged along the outer circumferential surface of the wastewater flow pipe,
A plurality of through-holes of the first partition plate is arranged along the outer circumferential surface of the wastewater flow pipe,
The through opening of the second partition plate is a wastewater treatment apparatus, characterized in that the through opening of the same size as the inner diameter of the wastewater flow pipe.

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