KR20190067338A - Device for air blower at settling tank of sewage treatment machine - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sedimentation tank aerator for a wastewater treatment apparatus, and more particularly, to a sedimentation tank aeration apparatus for a wastewater treatment apparatus that removes channel phenomena generated in a sedimentation tank of a wastewater treatment apparatus, ≪ / RTI >
The present invention relates to a first aeration tank, A second aeration tank installed on a side surface of the first aeration tank and having wastewater aerated in the first aeration tank into the inside thereof; And a sidewall surface of the sidewall of the second aeration tank, the sidewall of the sidewall being spaced apart from the sidewall of the sidewall and being spaced apart from the sidewall of the sidewall, ; An air lift pump connected between the settling tank and the first aeration tank for allowing the sediment under the settling tank to be delivered to the first aeration tank and a disinfection tank into which the treated wastewater from the settling tank flows, A sediment tank aerator for supplying air to the sidewall of the sediment tank is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for air-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sedimentation tank aerator for a wastewater treatment apparatus, and more particularly, to a sedimentation tank aeration apparatus for a wastewater treatment apparatus that removes channel phenomena generated in a sedimentation tank of a wastewater treatment apparatus, ≪ / RTI >

In general, manure and domestic wastewater generated from long-term isolated environments such as ships are in need of self-treatment due to recent environmental concerns and regulations. The most common technique for treating such wastewater is to purify the water after various purification steps and to disinfect and discharge the water.

Further, in order to increase the efficiency of the purification process, a moving bed bio reactor (MBBR), which is a floating microbial reactor, is included in a tank in which each process is performed, and air supplied from an external blower is supplied to the lower side To the first aeration device and the second aeration device provided in the first aeration device and the second aeration device to circulate the sewage water by the air from the first aeration device and the second aeration device to contact the MBBR and activate the microorganisms in the interior ) Method is used.

Conventional apparatuses include a first aeration tank, a second aeration tank, and a settling tank, and the purified wastewater is moved to the next stage in each stage to purify the wastewater. After the purified water in the first aeration tank and the second aeration tank has passed, the floatation is settled in the central bulkhead formed in the settling tank, and the purified water is collected on the sidewall surface formed next to the central bulkhead without floating, .

The sludge collected at the bottom of the settling tank is an activated sludge, and is composed of mixed microorganisms involved in the treatment of sewage and wastewater, and plays a large role in the purification of the wastewater treatment apparatus.

Since the activated sludge is formed from the first aeration tank and the second aeration tank and has passed through the purification process, it is necessary to send the activated sludge again to the first aeration tank to perform its role. According to this necessity, the activated sludge is sent to the first aeration tank by the air lift pump, and this action is merely carried by the air lift pump.

At this time, the sludge is often deposited on the bottom of the settling tank due to the cohesive force of the activated sludge, so that the supply of the activated sludge to the air lift pump is not smooth and the amount of the activated sludge is recovered by the first aeration tank So that the purification action by the microorganisms in the first aeration tank is adversely affected. Channeling phenomenon occurs due to the deposited activated sludge, only a part of the activated sludge settled is conveyed, and thereafter, only the influent water increased by the amount returned to the central partition wall of the sedimentation tank is conveyed.

In addition, when the immersed activated sludge is removed from the sediment, the sedimentation tank is lifted out of the central partitions of the sedimentation tank. In the sedimentation tank, the outside of the sedimentation tank has to be moved to the disinfection tank. Problems are frequently occurring.

KR 10-1226547 B1 KR 10-1210536 B1

Disclosure of the Invention The present invention was invented to solve the above-described problems, and it is an object of the present invention to provide an apparatus and a method for dispersing and transporting activated sludge deposited on a sidewall of a settling tank to air discharged from a settler tank aerator provided on an outer surface of a settling tank central partition, An object of the present invention is to provide a sedimentation tank aerator for a wastewater treatment apparatus that improves the quality of water that is purified and passed to a disinfection tank and improves the purification function in the first aeration tank by allowing the first aeration tank to smoothly recover the activated sludge .

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

To achieve the above object, the apparatus for aerating a sedimentation tank of a wastewater treatment apparatus according to the present invention comprises a first aeration tank; A second aeration tank installed on a side surface of the first aeration tank and having wastewater aerated in the first aeration tank into the inside thereof; And a sidewall surface of the sidewall of the second aeration tank, the sidewall of the sidewall being spaced apart from the sidewall of the sidewall and being spaced apart from the sidewall of the sidewall, ; An air lift pump connected between the settling tank and the first aeration tank for allowing the sediment under the settling tank to be delivered to the first aeration tank and a disinfection tank into which the treated wastewater from the settling tank flows, Wherein a settling tank aerator for supplying air to the sidewall of the settling tank is provided.

Preferably, the settling tank aerator is installed on the outer surface of a central partition wall of the settling tank, and has a discharge port arranged downward; A settling tank aeration pipe for supplying air to the settling bogie bogie; and a settling tank aerator for controlling air supplied to the settler tank augmentation pipe, wherein the settler tank augmentor operates after a predetermined time after the operation of the air lift pump A plurality of the settling tank aerator are provided on the outer surface of the central partition wall of the settling tank, and the outlet is provided with a distance of about 1 to 2 cm from the side wall surface of the settling tank.

The present invention with the above-described configuration can be expected to have the following effects.

The activated sludge transferred to the settling tank through the first aeration tank and the second aeration tank can be smoothly recovered to the first aeration tank and the purification action by the activated sludge can be maximized.

When the activated sludge deposited on the sidewall of the settling tank is continuously generated, the flow path of the purified water in which the wastewater supplied to the central bulkhead is raised to the outside of the central partition wall, that is, the sidewall surface side, after precipitation of the sediment is narrowed, A very poor problem can be solved by removing the deposited activated sludge.

In the case where the activated sludge is deposited and then desorbed, it is forced to rise upward from its release position. Since the deposition position of the activated sludge is the sidewall surface, the separated sludge is present as a float at the position of the purified water on the sidewall surface The problem is solved by dispersing the activated activated sludge by the air discharged from the sedimentation tank aerator and supplying it smoothly to the air lift pump connected to the bottom of the sedimentation tank to prevent the activated sludge from being deposited on the sedimentation tank, thereby improving the quality of the water.

The additional operation for removing the activated sludge deposited on the sedimentation tank is not required, and the loss due to the labor required for the sludge and the interruption of the operation at the time of the operation disappears.

The downward air supplied by the settling tank aerator causes the inside of the settling tank to be aerated, and the effect of purifying is also obtained in the settling tank.

The active sludge deposited by the settling tank aerator is substantially eliminated and the activated sludge is prevented from becoming sintered so that the flow is smooth and the possibility of clogging the inside of the air lift pump or the bottom of the settling tank is remarkably reduced.

1 is an overall configuration diagram of a settling tank aerator of a wastewater treatment apparatus according to a preferred embodiment of the present invention.
2 is a partial structural view of a settling tank aerator of a wastewater treatment apparatus according to a preferred embodiment of the present invention.
3 is an actual photograph of an MBBR used in a wastewater treatment apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a settling tank aerator of a wastewater treatment apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a partial block diagram of a sedimentation tank aerator of a wastewater treatment apparatus according to a preferred embodiment of the present invention, and Fig. 3 is a partial sectional view of the sedimentation tank aerator of the wastewater treatment apparatus according to a preferred embodiment of the present invention. Is an actual photograph of an MBBR used in a wastewater treatment apparatus according to a preferred embodiment of the present invention.

1, a settling tank aerator 500 of a wastewater treatment apparatus according to a preferred embodiment of the present invention includes a first aeration tank 100, a second aeration tank 200, a settling tank 300, an air lift pump 400 And a settling tank aerator 500.

First, the first aeration tank 100 will be described.

The first aeration tank 100 is a place where sewage is initially introduced, and the MBBR is contained therein, and is primarily purified by microorganisms.

The wastewater in the first aeration tank 100 is formed at the highest level as compared with the second aeration tank 200 and the settling tank 300 which will be described later. When the wastewater purified by the aeration is located at the upper portion, And the wastewater is moved to the second aeration tank 200.

The inlet screen 110 is provided at the entrance of the first aeration tank 100. Only the bulky sludge containing the small foreign matter is first introduced into the first aeration tank 100, do.

The first aeration device 130 is installed in the lower part of the first aeration tank 100 so that sufficient air is supplied from the external blower 10 so that the organic sludge of the activated sludge in the first aeration tank 100 Can be made vigorously.

The first aerator 130 is connected to and controlled by the blower 10 such as a second aerator 210, a settler tank aerator 500 and an air lift pump 400 which will be described later. do.

A first barrier 150 is provided at a portion of the first aeration tank 100 connected to the second aeration tank 200. One side of the first barrier 150 is submerged to a side lower than the maximum sewage water level of the first aeration tank 100 and the other side is connected to an outlet connected to the second aeration tank 200 from the first aeration tank 100. A screen is formed at one end of the first barrier 150 which is locked, thereby preventing the MBBR in the first aeration tank 100 from flowing into the second aeration tank 200.

At the upper part of the first aeration tank 100, there may be provided a recovery port from which the activated sludge precipitated at the lower part of the sedimentation tank 300 is recovered from the air lift pump 400. The activated sludge is moved to the second aeration tank 200 and the settling tank 300 together with the movement of the wastewater, thereby reducing the amount of activated sludge in the first aeration tank 100 by using the air lift pump 400 The amount of activated sludge in the first aeration tank 100 can be maintained. The air lift pump screen 170 is installed in the recovery port to prevent the MBBR of the first aeration tank 100 from flowing backward into the air lift pump 400.

Next, the second aeration tank 200 will be described.

The second aeration tank 200 is installed on the side surface of the first aeration tank 100 so that the first purified water in the first aeration tank 100 can pass over and purify the waste water secondarily. The MBBR is present inside the first aeration tank 100 and can be augmented by the second aerator 210 located at the bottom. Since the second aerator 210 has the same structure as the first aerator 130, detailed description thereof will be omitted.

The first barrier screen 230 may be installed at the inlet port where the wastewater flows into the second aeration tank 200 from the first aeration tank 100. This is to prevent the MBBR present in the second aeration tank 200 from flowing back to the first aeration tank 100.

A second barrier 250 is provided at a portion connected to the settling tank 300 in the second aeration tank 200. One side of the second barrier 250 is immersed in a lower side than the maximum wastewater level of the second aeration tank 200 and the other side is passed through an outlet connected to the settling tank 300 in the second aeration tank 200, 300 may be extended so as to supply wastewater to the central partition 330.

Next, the sedimentation tank 300 is examined.

The sedimentation tank 300 is configured such that the second purified sediment is supplied from the second aeration tank 200 and the sediment flow such as the activated sludge therein is precipitated.

In detail, the sedimentation tank 300 may include a sidewall 310 and a central partition 330.

The sidewall surface 310 is formed in a shape of a quadrangular pyramid with a wide upper portion and a narrow funnel shape at the bottom, which is preferable from the viewpoints of ease of manufacture and space utilization. The sidewall 310 has a recovery port connected to the air lift pump 400 so that the activated sludge precipitated in the lower part of the sedimentation tank 300 can be recovered to the first aeration tank 100. An outlet is formed in the upper part of the sidewall surface 310 so that the purified wastewater can be moved to the disinfection tank 600 through the outlet after the sediment is settled in the settling tank 300.

The central partition wall 330 is a rectangular tubular structure that is opened in an up-and-down direction, and one side of the second barrier 250 is located at an upper portion thereof, so that sewage can be supplied from the second aeration tank 200. The center partition 330 is formed at the center of the sidewall 310 and the lower end of the center partition 330 is configured to approach the inner surface of the sidewall 310 of the settling tank 300.

The wastewater supplied from the upper portion of the central partition wall 330 is downwardly radially diffused and the wastewater purified by precipitating the precipitate therein rises along the sidewall surface 310. Therefore, The wastewater after the settling is purified by the way that it is isolated by the central partition 330.

The settling tank aerator 500 may be installed on the outer surface of the central partition 330, as will be described later.

Next, the air lift pump 400 will be described.

One side of the air lift pump 400 may be installed in the settling tank 300 and the other side may be installed on the upper side of the first aeration tank 100. The air lift pump 400 may function to recover the activated sludge under the sedimentation tank 300 to the first aeration tank 100 by the air pressure supplied from the blower 10.

In detail, the lower sediment of the sedimentation tank 300 is introduced into the air lift pump 400 together with the wastewater supplied from the upper part of the central partition wall 330 described above. The activated sludge which is supplied from the air blower 10 connected to the air lift pump 400 through the air lift pump pipe 410 and supplied into the air lift pump 400 is pumped to the first aeration tank 100 ). ≪ / RTI >

The air lift pump valve 430 for supplying air to the air lift pump 400 is preferably composed of a solenoid valve. The air lift pump valve 430 and a settling tank aeration valve 550 to be described later can operate using the time difference between them.

Next, the settling tank aerator 500 will be described.

The settling tank aerator 500 serves to disperse the sediment deposited on the sidewall surface 310 of the settling tank 300 by supplying air into the settling tank 300 and to carry it to the first aeration tank 100 for removal can do.

The settling tank aerator 500 may be comprised of a settler tank 510, a settler tank 530, and a settler tank aerator 550.

The settling gangway 510 is attached to the outer surface of the central partition wall 330 of the settling tank 300 and may be formed with a discharge port through which the air supplied from the blower 10 is discharged.

A plurality of the end portions of the sedimentation coprecipitating engine 510 may be installed on the outer surface of the central partition wall 330 of the sedimentation tank 300 so as to be close to the inner surface of the side wall surface 310 of the sedimentation tank 300 . Preferably, the sidewall 310 of the sedimentation tank 300 may be spaced from the sidewall 310 by an interval of 1 to 2 cm. If the distance from the sidewall 310 of the settling tank 300 is large, the air pressure of the air supplied from the settling operation unit 510 is dispersed, and the activated sludge deposited effectively can not be removed.

The settling fire fighting organ 510 can be supplied with air by the settling tank aeration pipe 530.

The settling tank aeration pipe 530 connects the blower 10 and the settling tank type brine tank 510 so that the settling tank aeration tank 530 can be provided corresponding to the number of the settling tank type brine engines 510 formed in a plurality. In detail, the settling tank aeration pipe 530 may be formed from a single path from the blower 10 to a settling tank aeration valve 550 to be described later, and may be formed from a settling tank aeration valve 550 in plurality.

The settling tank aeration valve 550 is installed in the settling tank aeration pipe 530, and is preferably formed of a solenoid valve so that it can be intermittently opened and closed. Specifically, the settling tank aeration valve 550 can be opened after 1 to 2 minutes after the above-described air lift pump valve 430 is opened.

The activated sludge is more smoothly supplied to the empty space in the air lift pump 400 which is generated when the activated sludge in the air lift pump 400 moves to the first aeration tank 100 due to the opening of the air lift pump valve 430 In order to make it possible.

The wastewater purified in the settling tank 300 is transferred to the disinfection tank 600. The disinfection tank 600 corresponds to the last stage before the discharge of purified sewage, where chemical treatment is performed to remove bacteria such as E. coli present in the purified sewage.

The disinfection tank 600 may be equipped with a disinfection tank aerator 610 in which a disinfestation gangway is installed so that medicines supplied for chemical treatment are well mixed. Thereby enabling effective mixing with purified sewage.

Finally, the relationship of the first aerator 130, the second aerator 210, the air lift pump 400, and the settling tank aerator 500 will be described.

The air supplied from the blower 10 can be connected to the first aerator 130, the second aerator 210, the air lift pump 400 and the settling tank aerator 500 by the main piping connected thereto. That is, air supplied from one blower 10 is supplied to each device by a branched pipe.

In detail, a manual valve may be installed in the piping connected to the first aerator 130 and the second aerator 210. The first aerator 130 and the second aerator 210 need to be purified by the continuous aeration of the first aerator 100 and the second aerator 200 by the supply of air, .

An air lift pump valve 430, which is an electronic valve, and a settling tank aeration valve 550 are installed in the piping connected to the air lift pump 400 and the settling tank aerator 500 to automatically open and close the valve. The supply of air to the air lift pump 400 and the settling tank aerator 500 does not have to be continuous.

As described above, the air lift pump valve 430 and the settling tank aeration valve 550 can be opened and closed by a time-lag interaction, and the air lift pump 400 can be operated after 1 to 2 minutes Air supplied to the settling tank aerator 500 may be supplied.

That is, while the air lift pump valve 430 is opened and air is being supplied to the air lift pump 400, the settling tank aerator valve 550 is opened after one to two minutes to supply air to the settling tank aerator 500 After a few seconds, the settling tank aeration valve 550 may be closed.

The main pipe of the blower 10 is also connected to the disinfection tank aerator 610 of the disinfection tank 600 to supply air to the disinfection tank.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

10: Blower
100: First aeration tank
110: Inlet screen
130: first aeration device
150: 1st barrier
170: Air lift pump screen
200: Second aeration tank
210: second aeration device
230: first barrier screen
250: second barrier
300: settling tank
310: side walls
330: central bulkhead
400: Air lift pump
410: Air lift pump piping
430: Air lift pump valve
500: Settling tank aeration unit
510: Settling bombing agency
530: Settling tank aeration pipe
550: Settling tank aeration valve
600: disinfection tank
610: Disinfection tank aeration unit

Claims (4)

A first aeration tank;
A second aeration tank installed on a side surface of the first aeration tank and having wastewater aerated in the first aeration tank into the inside thereof;
And a sidewall surface of the sidewall of the second aeration tank, the sidewall of the sidewall being spaced apart from the sidewall of the sidewall and being spaced apart from the sidewall of the sidewall, ;
An air lift pump connected between the settling tank and the first aeration tank for allowing the sediment under the settling tank to be delivered to the first aeration tank;
And a waste disposal tank in which waste water treated from the settling tank flows into the waste water treatment apparatus,
And a settling tank aerator for supplying air to the sidewall of the settling tank. The method according to claim 1,
The settling tank aerator includes:
A sedimentation vortex engine installed at an outer surface of a central partition wall of the sedimentation tank and having a discharge port directed downward;
A settling tank aeration pipe for supplying air to the settling bogie bogie;
And a settling tank aeration valve for adjusting the air supplied to the settling tank aeration pipe. 3. The method of claim 2,
Wherein the settling tank aeration valve operates after a predetermined time after the operation of the air lift pump. The method according to claim 1,
Wherein the plurality of the settling tank aerator are installed on the outer surface of the central partition wall of the settling tank, and the outlet is provided so as to have a distance of 1 to 2 cm from the side wall surface of the settling tank.

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