KR200201224Y1 - air rise restraint device of circulation type aeration tank - Google Patents

Abstract

The present invention relates to an air flotation suppression apparatus of a circulating aeration tank, and more particularly, to effectively prevent sludge settling, and to increase the sewage treatment efficiency by increasing the oxygen transfer to the sewage by slowing the air injury rate in the aeration tank. It relates to an air injury suppression device of the circulation aeration tank that can be made.

According to the present invention, a plurality of aeration tanks 10 installed adjacent to each other, air supply means 20 for supplying air to the bottom of each aeration tank 10, and the sewage of the aeration tank 10 to the next aeration tank 10 In the circulation aeration tank provided with a plurality of circulation pipes (30) for circulating to, and a pump 40 for pumping the sewage of the aeration tank 10 with the lowest water level to the aeration tank 10 with the highest water level, each aeration tank (10) Inside the predetermined level inside the screen 50 of the net form is installed horizontally downwards in the aeration tank 10 when the sewage of the aeration tank 10 overflows to the next aeration tank 10 through the circulation pipe (30) Sewage not only slows the speed of air injuries, but also slows the speed of air floated by the screen 50, thereby increasing the sewage treatment capacity by increasing oxygen transfer to the sewage. Air aeration in the aeration tank The first apparatus is provided.

Description

Air rise restraint device of circulation type aeration tank

The present invention relates to an air injury suppression apparatus of a circulation type aeration tank, and more specifically, it is possible to efficiently prevent sludge settling by circulating sewage inside the aeration tank, and to increase oxygen transfer by slowing down the air injury rate in the aeration tank. The present invention relates to an air flotation suppression apparatus of a circulation aeration tank capable of increasing sewage treatment efficiency.

In general, the aeration device used in the activated sludge process has the function of dissolving oxygen by supplying air to the influent sewage to biologically treat the sewage by aerobic microorganisms and mixing sewage in the aeration tank to prevent precipitation inside the aeration tank. . The type of equipment used for this purpose is provided with a diffuser means at the bottom of the aeration tank to supply air through it to prevent the sludge settling, and the sewage of the sludge by agitating the sewage with a wooden rod at the top of the aeration tank. There is a mechanical aerator to prevent settling.

As shown in FIG. 1, the conventional aeration type aeration tank includes a main pipe 22 connected to an air supply device, and a branch pipe 24 connected to the main pipe 22 and extending to the bottom of the aeration tank 10. And the air is discharged from the bottom surface of the aeration tank 10 by the air supply device 20 formed of the air dispersing means 26 provided at one end of the branch pipe 24 so that the air passes upward while passing through the sewer layer. This is done to treat the sewage.

The oxygen transfer efficiency depends on the porosity of the diffuser, the size of the generated bubbles, and the depth of the aeration tank. In general, the oxygen transfer efficiency of the fine bubbles is higher than that of the coarse bubbles, but the diffuser means 26 that generates the fine bubbles has a small hole. There was a difficulty in maintenance because it could be blocked by sludge settled in the lower part. In addition, when the depth of the aeration tank 10 is deepened (depth aeration tank), the oxygen transfer efficiency is good, but there is a problem in that the settling property is worsened due to an increase in dissolved oxygen.

Accordingly, the depth of the aeration tank 10 is not increased, and the holes of the air dispersing means 26 are not blocked by the micro bubbles, and the residence time of the air (ie, the contact time with the sewage of the air) is increased to transmit oxygen. In order to increase the efficiency, a method for increasing the sewage treatment efficiency was considered.

The present invention is to solve the problems as described above, the object of the present invention is to effectively prevent the sludge settling, and to increase the sewage treatment efficiency by increasing the oxygen transfer to the sewage by slowing the air floating rate in the aeration tank It is an object of the present invention to provide an air injury suppression apparatus of a circulating aeration tank.

1 is a perspective view of a conventional air aeration tank

Figure 2 is a plan view of the screen constituting the air injury suppression apparatus of the circulation aeration tank according to the present invention

3 is a schematic plan view of the air injury suppression apparatus

4 is a schematic side cross-sectional view of the air injury suppression apparatus;

<Explanation of symbols for main parts of the drawings>

10. Aeration tank 20. Air supply means

30. Circulation pipe 40. Pump

50. Screen

According to the present invention, a plurality of aeration tanks 10 installed adjacent to each other, air supply means 20 for supplying air to the bottom of each aeration tank 10, and the sewage of the aeration tank 10 to the next aeration tank 10 In the circulation aeration tank provided with a plurality of circulation pipes (30) for circulating to, and a pump 40 for pumping the sewage of the aeration tank 10 with the lowest water level to the aeration tank 10 with the highest water level, each aeration tank (10) Inside the predetermined level inside the screen 50 of the net form is installed horizontally downwards in the aeration tank 10 when the sewage of the aeration tank 10 overflows to the next aeration tank 10 through the circulation pipe (30) Sewage not only slows the speed of air injuries, but also slows the speed of air floated by the screen 50, thereby increasing the sewage treatment capacity by increasing oxygen transfer to the sewage. Air aeration in the aeration tank The first apparatus is provided.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

2 is a plan view of the screen constituting the air injury suppression apparatus of the circulation aeration tank according to the present invention, Figures 3 to 4 shows an embodiment of the air injury suppression apparatus of the circulation aeration tank according to the present invention. Air floatation suppression apparatus according to the present invention is a plurality of aeration tank 10 installed adjacent to each other, the air supply means 20 for supplying air to the bottom of the aeration tank 10, and a plurality of circulating the sewage of the aeration tank 10 Two circulation pipes 30, a pump 40, and a screen 50 provided at a predetermined level inside the aeration tank 10.

The aeration tank 10, as shown in Figure 3 or 4, consisting of a reservoir of a predetermined capacity, a plurality of are formed adjacent to each other. The air supply device 20 is a main pipe 22 arranged in parallel with each other, the branch pipe 24 connected to the main pipe 22 at regular intervals and installed on the bottom surface of the aeration tank 10, It consists of a plurality of diffuser means 26 installed in the engine 24.

The circulation pipe 30, as shown in Figure 4, the lower end is installed between the air dispersing means 26 and the bottom bottom of the aeration tank 10, from the bottom of the aeration tank 10 to the next aeration tank ( 10, the aeration tank 10 is configured such that the height of the side wall is substantially the same, while the circulation pipe 30 is configured to gradually decrease its height while proceeding to the next aeration tank 10. The pump 40 is provided with return pipes 42 at both ends thereof to connect the two aeration tanks 10 to each other. The sewage of the aeration tank 10 having the lowest water level is the highest in the aeration tank 10. To the pump.

The screen 50 is formed in a net form of a material such as nylon, and is installed horizontally by a fixing member 52 at a predetermined level inside the aeration tank 10. In addition, the edge of the screen 50 is designed to bend downward with a slight inclination to prevent rising air bubbles from leaking into the gap between the screen 50 and the wall inside the aeration tank 10. In addition, the screen 50 should be installed in the form of a module having a reinforcing effect by the frame portion to facilitate maintenance and to suppress deformation due to buoyancy of the air bubbles.

The spacing of the net structure of the screen 50 should be appropriately configured in consideration of the size of air bubbles generated in the air dispersing means 26 below the aeration tank 10 and the vortices caused by the sewage flowing downward. The thickness or size should be appropriate so that the air bubbles stop for a while in the aeration tank 10 and then move upwards as the buoyancy increases, so that the residence time is not too long.

The air float suppressing device of the circulating aeration tank configured as described above has a lower portion because the sewage is circulated to the next stage by the circulation pipe 30 provided between the air dispersing means 26 installed on the bottom surface of the aeration tank 10 and the bottom of the aeration tank 10. It is possible to prevent the air hole of the air dispersing means 26 caused by the sludge accumulated in the blockage.

In addition, the air float suppressing device is formed so that its height gradually decreases while the circulation pipe 30 provided in each aeration tank 10 proceeds to each aeration tank 10, and the water surface of the aeration tank 10 is circulated. If the height of the pipe 30 or more, the sewage of the bottom of the aeration tank 10 is overflowed to the upper portion of the next aeration tank 10 through the circulation pipe 30 to circulate. Then, the air supplied by the air dispersing means 26 installed at one end of the branch pipe 24 extending to the bottom of each aeration tank 10 rises upward from the bottom of the aeration tank 10. Accordingly, the sewage flowing from the front aeration tank 10 is downwardly moved downward from the top, and oxygen released from the air dispersing means 26 below the aeration tank 10 rises from the bottom to the upper portion of the air to which the downward sewage is upward. By decreasing the relative speed, the contact time is increased in the aeration tank 10, thereby increasing the oxygen transfer efficiency.

In addition, the air levitation suppression device has a screen 50 of the net form is installed horizontally at a predetermined position inside the aeration tank 10, the air is slowed down the floating speed through the overflow process of the sewage is the screen 50 As a result, the flotation speed is further slowed down, which makes oxygen transfer to the sewage more effective, thereby providing high efficiency sewage treatment.

According to the present invention as described above, the air float suppressing device of the circulation type aeration tank is circulated by the sewage inside the aeration tank by the circulation pipe can prevent the air hole of the air dispersing means by the sedimentation of sludge, the previous aeration tank In order to reduce the relative velocity of air upward in the next aeration tank, the net-shaped screen installed in parallel to a predetermined position inside the aeration tank further reduces the air floating rate, so that oxygen transfer to the sewage can be efficiently increased. Therefore, there is an advantage of having a high efficiency sewage treatment capacity.

Claims (1)

A plurality of aeration tanks 10 installed adjacent to each other, air supply means 20 for supplying air to the bottom of each aeration tank 10, and a plurality of circulating sewage of the aeration tank 10 to the next aeration tank 10 In the circulation aeration tank equipped with two circulation pipes 30 and the pump 40 which pumps the sewage of the aeration tank 10 having the lowest water level to the aeration tank 10 having the highest water level, the predetermined inside each aeration tank 10. At the level, a screen 50 having a mesh shape is horizontally installed so that the air is lifted by the sewage flowing downward in the aeration tank 10 when the sewage of the aeration tank 10 overflows through the circulation pipe 30 to the next aeration tank 10. Not only is the speed slowed down, but the air floated by the screen 50 is further slowed down to increase the oxygen transfer to the sewage to increase the sewage treatment capacity, characterized in that the air aeration of the circulating aeration tank Restraining device.