KR200221182Y1 - Equipment to avoid foaming in sewage and wastewater treatment plant - Google Patents

Abstract

The present invention relates to a defoaming device used in a wastewater treatment facility, and removes the bubbles generated in the aeration tank of the wastewater treatment facility by forming a blocking water film to prevent the loss of sludge to improve the efficiency of wastewater treatment. The purpose of the present invention is to provide a defoaming device in a sewage / wastewater treatment facility, and to achieve the above object, the present invention is designed in the center of the upper surface of the aeration tank in the wastewater treatment facility. The sparger 120 having the groove portion 121 formed therein was spaced apart from the nozzle 110 at a predetermined interval by installing the nozzle 110 connected to the ring 130 by a lid type, and then transferred from the water supply pipe to the center of the sparger 120. Water is discharged at a high pressure through the nozzle 110 to form the blocking water film 140 by the ejecting force, and the blocking water film 140 destroys the bubbles 150 generated inside the waste water treatment facility aeration tank. By providing the bubble removing device in a wastewater treatment plant, it characterized in that the W blocks can be achieved.

Description

Equipment to avoid foaming in sewage and wastewater treatment plant}

The present invention relates to a defoaming device used for sewage and wastewater treatment facilities, and in particular, by forming an umbrella-shaped blocking water film to remove bubbles from inside the aeration tank of the sewage and wastewater treatment facilities, bubbles are removed without using an antifoaming agent. The present invention relates to a defoaming device in a sewage treatment facility that can not only remove, but also prevent sludge from being lost by bubbles, thereby improving the efficiency of sewage treatment.

Conventionally, aerobic biological sewage and wastewater treatment facilities are used to purify sewage and various wastewater by ingesting contaminants such as organic matter, nitrogen, and phosphorus contained in the wastewater by microorganisms in aeration tanks. It is a facility that focuses on creating good conditions for microorganisms to grow by increasing dissolved oxygen by mixing in an aeration tank.

In the aerobic biological wastewater treatment facility, when aeration is performed in order to supply oxygen to the microorganisms in the aeration tank, bubbles are inevitably generated. A schematic diagram is shown in FIG. 3.

As shown in FIG. 3, a defoamer device mainly used in a conventional wastewater treatment facility includes a conveying pipe 210 which is transported to an upper aeration tank for the purpose of spraying raw water that does not contain a lot of final effluent or sludge; It consists of a cover 211 covering the face cut obliquely at the end of the feed pipe.

The transfer pipe 210 is simply connected to the pump is formed to transfer the water to be sprinkled and the obliquely cut portion and the cover 211 is strongly adhered to the end of the transfer pipe 210 pressure water transfer pipe 210 A blocking water film 140 is formed to block or crush bubbles while sticking out between the ends and the cover 211.

In the aeration tank of the wastewater treatment facility, bubbles are formed when the sludge mixture is mixed with the air supplied for supplying oxygen to the microorganisms, and the surface of the foam is composed of a film of a mixture of sludge and wastewater.

The blocking water film produced by the bubble removing device should be made to cover the entire aeration tank surface area. However, the blocking water film 140 generated by the conventional bubble removing device is formed in the shape of a fan cut in the middle as shown in Figure 3 when the foam is generated a large amount of solids and sludge mixture containing the liquid and the liquid is not separated To be discharged out of the system. Therefore, the sludge, that is, the amount of microorganisms in the aeration tank is reduced, and not only the efficiency of wastewater treatment is reduced, but also a problem that the discharged bubbles are buried outside the system and pollutes the surroundings.

In addition, in addition to the conventional defoamer such as Figure 3 is added to the antifoam to remove the bubbles in order to remove the bubbles generated in the aeration tank, not only a large amount of antifoaming agent, but also to process and purify the antifoaming agent Since a different treatment process is required, there is a problem in that excessive maintenance costs are required.

The present invention is to solve the conventional problems as described above, by forming a blocking water film that can cover the entire surface area of the aeration tank of the waste water treatment facility to effectively remove the bubbles discharged to the outside of the system, sludge The purpose of the present invention is to provide an antifoaming device in a sewage / wastewater treatment facility that can improve the efficiency of sewage treatment by preventing the loss of oil, and keep the outside of the system clean.

1 is a state showing that the bubbles are removed inside the aeration tank of the waste water treatment facility by the bubble removing device according to the present invention.

Figure 2 is a perspective view of the sparger connected to the nozzle cap to the bubble removing device.

Figure 3 is a schematic diagram of a defoamer mainly used in conventional waste water treatment facilities.

<Explanation of symbols for main parts of the drawings>

110: nozzle 120: sparger 121: groove

130 ring 140 blocking film 150 bubble

In order to achieve the above object, the present invention has a spar 120 formed at the center of the upper surface of the aeration tank upper surface of the waste water treatment facility, with a groove portion 121 formed at the center, and a predetermined distance from the nozzle 110. After installing the nozzle 110 connected to the 130, the water flowing from the water supply pipe in the center of the sparger 120 is ejected at a high pressure through the nozzle 110 by a large umbrella-shaped blocking water film by the force ejected And forming bubbles (140) and removing the bubbles generated in the aeration tank of the wastewater treatment facility, characterized by breaking and blocking the bubbles (150) generated inside the wastewater treatment facility aeration tank by the blocking water film (140). This can be achieved by providing a device.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited to the following description.

In addition, in order to prevent confusion with a conventional apparatus, the same code | symbol is used for the same apparatus.

1 is a state diagram showing that the bubbles 150 generated in the aeration tank of the waste water treatment facility according to the present invention is removed, as shown in Figure 1 when spraying water at a high flow rate through the nozzle 110 After hitting the sparger 120 connected to the end of the nozzle 110 by the ring 130, the water spreads in all directions. The sparger 120 has a groove part 121 having a size of about 3 mm, and the water spreads in an umbrella shape. It is to be distributed in a 360 ° direction. That is, the umbrella-shaped blocking film 140 is formed.

When the umbrella-shaped blocking water film 140 is formed in this way, the bubble 150 generated in the aeration tank water-surface upper part is caught by the blocking water film 140 and no longer rises up, but is crushed by the water stream of the blocking water film 140, or an umbrella-shaped blocking. It is trapped in the water film 140. However, air bubbles released without being dissolved and supplied for the purpose of supplying oxygen to the microorganisms in the aeration tank are discharged to the outside of the aeration tank without any problem.

The sparger 120 connected to the end of the nozzle 110 by the ring 130 is attached to the end of the nozzle 110 when the water supply from the nozzle 110 is stopped, thereby blocking the nozzle 110. Therefore, when the operation is stopped, clogging of the nozzle 110 due to foreign matters may be prevented at the same time.

As described above, the sparger 120 connected to the nozzle 110 and the ring 130 is installed at the upper center of the water surface inside the aeration tank of the waste water treatment facility, and then the water transferred to the center of the sparger 120 is connected to the nozzle ( By forming a barrier water film 140 by the force ejected by the high pressure through the 110 and the barrier water film 140, by destroying the bubbles 150 generated in the aeration tank of the waste water treatment facility by the barrier water film 140, The bubble 150 to be discharged to the outside can be removed using the blocking water film 140 without using an antifoaming agent, which not only keeps the outside of the system clean, but also prevents sludge from being lost. It will be able to increase efficiency.

FIG. 2 is a perspective view of a sparger connected to the bubble removing device by a nozzle lid, and as shown in FIG. 2, the sparger 120 has a groove 121 formed in the center thereof, and the nozzle 110 and the ring ( 130).

When the sparger 120 is installed at the end of the nozzle 110 and water is supplied to the groove portion 121 of the sparger 120 through the nozzle 110, the water spreads in all directions by the pressure, and the umbrella shape The barrier water film 140 is formed, and thus, the bubble 150 formed of the air and sludge mixture liquid collides with the barrier water film 140 and is destroyed, thereby completely separating the air and the sludge mixed liquid, thereby discharging the bubble discharged to the outside of the system. It can be effectively removed.

As described above, the present invention installs a nozzle connecting the sparger with a ring at the upper surface of the aeration tank in the wastewater treatment facility, and then discharges the water at a high pressure in the center of the sparger to form an umbrella-shaped blocking water film. Bubbles generated inside the aeration tank are destroyed by the water film to discharge only air to the outside of the system to keep the outside clean, and to prevent sludge loss, thereby improving the efficiency of wastewater treatment. It is a useful design to control the bubbles generated in the aeration tank.

In addition, by removing the bubbles generated in the aeration tank without using an antifoaming agent is a useful design that provides a side effect that can reduce the excessive maintenance costs.

Claims (1)

In the device for removing bubbles generated in the aeration tank of the waste water treatment facility, After installing a nozzle connecting a sparger with a groove on the center top of the water surface inside the aeration tank of the sewage / waste water treatment facility, the water transferred from the water supply pipe at the center of the sparger is ejected at high pressure through the nozzle. An apparatus for removing bubbles in a wastewater treatment facility, characterized by forming an umbrella-shaped shielding film by the force, and destroying and blocking bubbles generated in the aeration tank of the wastewater treatment facility.