KR20140001131U - High efficiency air diffuser capable of aerating upper and lower to the both - Google Patents

Abstract

The present invention relates to an apparatus for supplying oxygen to an aeration tank in a sewage treatment plant and a wastewater treatment plant, characterized in that the membrane 10, the body 20, the fixing frame (30). Air is supplied to the upper air branch part 8 through the upper air supply port 24 of the membrane fastened to the diffuser, and the upper membrane 2 is expanded upward, and the upper air dispersing hole 1 of the membrane is opened. As the microbubbles are aerated, air is supplied to the sewage. At this time, the air supplied through the upper air supply port 24 is also introduced into the air communication port 25 to open the lower air dispersing hole 4 which is also pore in the lower membrane (3) at the same time open the microbubble aeration lower layer The wastewater of 90 is supplied with air.
The supplied air prevents sludge deposited on the aeration tank lower layer 90 of the air diffuser, and increases the contact area between sludge and air, thereby reducing the amount of sludge generated and also reducing the amount of sludge conveyed.
Therefore, it is a high-efficiency diffuser that can maximize microbial sewage treatment capacity even with small air volume. It is possible to prevent the sludge deposit, reduce the amount of conveyed sludge and save the blowing energy by making air diffuse and mix in the upper and lower parts of the diffuser.It is installed in the bioreactor aeration tank of activated sludge method when treating wastewater. It relates to an air diffuser.

Description

High efficiency air diffuser capable of aerating upper and lower to the both}

The present invention relates to an diffuser device for supplying oxygen by installing in an aeration tank in sewage and wastewater treatment plants. Membrane) by controlling the interval between the upper air injection hole and the fine air diffuser perforated to prevent the coalescing as much as possible, through this to increase the contact area with oxygen to increase the activation of microorganisms, and also to the bottom of the diffuser under the aeration tank Sludge conveyed by spreading bubbles to enable microorganisms to increase the contact area with suspended organic substances, and to prevent the precipitation of suspended substances through agitation and mixing of wastewater at the bottom of the aeration tank and to increase the air contact area with suspended substances. It relates to a high efficiency diffuser for reducing the amount of.

In general, biological treatment is required to treat contaminated sewage. Among them, an aerator is installed in the aeration tank, and the aerobic microorganisms supply oxygen necessary for oxidizing organic substances through bubbles generated through the aerator to treat sewage water.

The selection of the air diffuser is achieved through mixing with sufficient aeration even at a low air flow rate, and selects the air diffuser having a structure with a large contact area with the wastewater. In this case, oxygen transfer efficiency and economic efficiency may be considered.

In the conventional general air diffuser (60) by generating and discharging bubbles in the upper one direction, oxygen is not supplied to the bottom of the aeration tank, and fine sludge introduced into the inside during non-aeration is deposited on the bottom to block air inflow to reduce air bubbles. This will not reduce the suspended solids and the amount of sludge returned will increase. In addition, in the dispersion form of air bubbles during the aeration of the air diffuser is a phenomenon that the bubbles generated through the dispersion sphere, which is a micropores processed in the membrane of the air diffuser is coalesced to the center. As the amount of air increases, the phenomenon of coalescing to the center occurs. As the diameter of the bubble increases, the bubble rising speed increases and the oxygen transfer efficiency decreases.

As a result, the residence time of the bubbles is shortened, and as the mixing and flow decreases on the bottom of the aeration tank, sludge deposition increases, residual sludge decay occurs, and the amount of sludge returned does not decrease. As a result, operating costs are increasing, such as an increase in processing costs.

In general, in the wastewater treatment plant aeration tank as shown in FIG. 1, a sufficient spacing of the existing air dispersing device 60 is about 200 to 1,000 mm, so that a dead space is formed and the air dispersing device is fixedly installed. At the bottom of the branch pipe, the oxygen concentration is low, and the movement and contact of oxygen do not occur, resulting in a phenomenon that the efficiency is lowered. Therefore, the sludge deposition and the attachment of the microbial membrane on the upper part of the air diffuser is rapidly progressed, so that the blockage of the air outlet occurs or promotes the replacement time. As a result, the pressure of the blower increases due to uneven bubble generation, and the efficiency of the air diffuser is lowered. The oxygen transfer efficiency is lowered due to problems of proper agitation, aeration, and mixing, and sludge builds up on the bottom of the bottom of the air diffuser. Sometimes. In addition, as the number of installation of the diffuser is increased during the installation of a general diffuser, plumbing work, human and material resources are consumed, and the cost of construction increases, and the blower capacity also increases.

In order to solve the above problems, the oxygen supply to effectively prevent the mixing and flow of aeration and air bubbles from the bottom of the air supply pipe of the lower part of the existing air dispersing device to prevent the coalescing of bubbles generated during the aeration and bubbles to rise vertically to solve the problem The mixing and aeration of the effluent efficiently and agitation so that sufficient contact between the activated sludge and the organic matter in the sewage is important, and a high efficiency diffuser is required to maintain the performance of the diffuser continuously.

The present invention is to solve the above problems, the technical problem of the present invention to stably release the fine bubbles to create the optimum conditions for the activation of microorganisms to contact the air to the deposited sludge formed on the bottom of the diffuser device In order to increase the agitation effect of the sludge through mixing and flow, and to achieve stable aeration, mixing and diffusion of bubbles generated in the air diffuser, fine bubbles are generated in the upper part of the air diffuser and bubbles smaller in size than the upper part of the air diffuser. Through the high-efficiency diffuser capable of aeration of the upper and lower bidirectional to release the air to diffuse and mix well, the flow and mixing of the wastewater in the aeration tank lower layer 90 of the bottom of the connecting pipe of the diffuser is stable and aerated To prevent sludge settling on the bottom of the diffuser and the catcher 80 To provide a diffuser device that can reduce that purpose.

As shown in FIG. 4, the upper and lower integral membranes 10 and the edges constitute a body 20 having a retainer portion 21 of a retainer structure, and a fixing frame 30 for fastening the membrane and the body. As shown in the figure, the oxygen in the supplied air is efficiently dissolved in the sewage water, the diffusion and residence time of the bubbles are increased, and the shooter 80 is reduced to increase the dissolved oxygen to activate the microorganisms, and BOD and MLSS are biologically It is characterized in that the decomposition and removal to achieve the prevention and stirring of the sludge of the aeration bottom layer 90.

The present invention is a diffuser device according to the present invention in order to achieve the above object, the air supplied from the blower is a plurality of membranes for dispersing the air compressed in the water supply port 23 through the air supply pipe (50) in water Is formed in the upper and lower portions except the membrane center portion (5), the lower membrane (3) having fine pores larger than the pore size of the upper membrane (2) is formed in one integral structure, the membrane outer peripheral portion (6) The body 20 is formed in close contact with the protrusion 21 on the outer circumferential surface, the lower membrane 3, the first membrane fixing groove 22 and the second membrane fixing groove 32 of the body 20 and the fixing frame 30 The air supply port 23 penetrates the lower part of the inner center of the membrane 10 and the diffuser device in which the membrane fixing part 7, which is an O-ring type projection which is fixed tightly and prevents detachment even during aeration, is penetrated. Into the blower which is vertically extended The airframe tube fastening portion 26 and the fastening frame 30 which are connected to the air supply pipe 50 to the outer circumferential surface of the air supply port and the air supply port and the fastening frame 30 are respectively formed by screw threads. And two or more connecting hole air communication holes 25 for connecting the upper and lower parts to the upper part of the inner part, and the retainer part having one or more protrusions on the outer circumferential surface of the retainer shape for tightly fixing the membrane outer peripheral part 6 to the inner edge thereof. The body 20 is formed with a first membrane fixing groove 22 for tightly fixing the 21 and the membrane fixing part 7 and the fixing frame 30 as a binding means for binding and fixing the membrane 10 and the body 20. It is configured to include.

The air flowing into the air supply port 23 is branched into the micropores of the upper membrane 2 through the upper air supply port 24 and discharged into the microbubbles, and the upper air branch part 8 and the lower air powder therein. It is characterized in that the base (9) is opened so that the bubbles are discharged to the upper air dispersing opening (1) and the lower air dispersing opening (4).

In addition, the membrane 10 by the projection of the retainer-shaped outer peripheral surface of the body 20 is in close contact with the plastic resin upper surface of the inner center of the body, is fixed to the body, the membrane fixing part by the fixing frame 30 as the binding means (7) is fixed to prevent the membrane from leaving the body by the air pressure of the upper air branch (8) and the lower air branch (9) during aeration.

The membrane is molded into a single vertical body made of a soft material such as an EPDM material having a low impact resistance and abrasion resistance, and the upper air dispersing opening 1 has a size of 1.0 to 2.0 mm, and the lower air dispersing opening 4 has a size. Is a fine permeable device that is larger than the upper part (within 3mm), which is a perforated membrane, and it mixes well by vortex generation caused by bubbles aerated in the upper and lower part when aerated, reducing the load of sludge and In order to prevent the upper and lower air dispersing spheres of different sizes, the lower air dispersing sphere 4 processes the slit slightly larger than the upper air dispersing sphere 1, so that the sludge deposition and active flow occurring at the lower side can be prevented. It is possible to rise and efficiently prevent sludge settling and increase the contact area of sludge and air to reduce the sludge generated load.

As described above, in the high-efficiency diffuser capable of bidirectional aeration of upper and lower portions of the diffuser, a plurality of fine pores which disperse the air conveyed to the air supply port 23 into the water above the diffuser membrane are used to increase the size of the fine pores in the upper and lower portions. Differently, by forming the spacing between the micropores to 3 ~ 5mm to reduce the coalescence of the bubbles, the diffusion of the bubbles to reduce the shooter 80 and to promote the activation of the sludge generated in the lower aeration tank 90.

In addition, unlike the bubbles generated in the air dispersing spheres that are formed as densely as in the membrane of the conventional diffuser, the bubbles aerated in the upper and lower parts of the diffuser reduce the coalescence of air, and at the same time induce the flow of bubbles in all directions to mix. And the effect of circulation can be made to increase the contact area with the microorganisms in the bubble.

Due to such agitation and mixing, it is possible to suppress sludge deposition and deposition of biofilm deposited on the air outlet of the upper part of the air diffuser, thereby preventing discoloration of the air bubbler air outlet, and increasing the efficiency and color by generating uniform bubbles. In addition, it is also effective to reduce the cost due to the increased air flow. The aeration system at the sewage treatment plant is the most energy-intensive part of the sewage treatment, and 20 to 60% of the overall operating costs As the operating cost of the ventilation system, efficient use of energy is important, so it can be operated economically.

1 is a cross-sectional view of the aeration tank of the sewage treatment plant
Figure 2 is a cross-sectional view AA 'of the high-efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention
3 is a perspective view of a high-efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention
4 is a block diagram of a high-efficiency diffuser device capable of upper and lower bidirectional aeration according to an embodiment of the present invention
5 is an exploded perspective view of the upper direction of the high-efficiency diffuser device capable of upper and lower bidirectional aeration according to an embodiment of the present invention
Figure 6 is a perspective view of the downward separation of the high-efficiency diffuser device capable of upper and lower bidirectional aeration according to an embodiment of the present invention
7 is a cross-sectional view taken along the AA 'of the high-efficiency diffuser device capable of aerobic bidirectional aeration according to an embodiment of the present invention
Figure 8 is a cross-sectional view BB 'of the body of the high-efficiency diffuser capable of aerobic aerobic upper and lower according to an embodiment of the present invention
9 is a cross-sectional view CC 'of the fixing frame of the high-efficiency diffuser device capable of upper and lower bidirectional aeration according to an embodiment of the present invention

The high-efficiency diffuser device capable of upper and lower bidirectional aeration according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 to 9 illustrate a high-efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention, Figure 3 is a perspective view of a high-efficiency diffuser capable of both upper and lower bidirectional aeration according to an embodiment of the present invention, Figure 4 Figure 6 is a block diagram of a high-efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention, Figure 5 is an exploded perspective view of the upper direction of the high-efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention, Figure 6 7 is a cross-sectional view of a lower portion of the high efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention, and FIG. 8 is a cross-sectional view BB 'of the body of the high-efficiency diffuser capable of upper and lower bidirectional aeration according to an embodiment of the present invention, Figure 9 is a top and bottom according to an embodiment of the present invention C-C 'sectional drawing of the fixing frame of the high efficiency diffuser which can perform a bidirectional aeration is shown, respectively.

As shown in the drawings, the high-efficiency diffuser device 100 capable of the upper and lower bidirectional aeration according to an embodiment of the present invention includes a membrane portion 10, the body 20, and the fixing frame 30.

As shown in Figure 2 and 5, the membrane portion 10 has air dispersing holes (1), (4) are formed in each of the upper and lower membranes, the inner body and the body 20 is inserted into the fastening body and A space including a membrane outer periphery (6) is formed to be in close contact, the O-ring shape is tightly fixed by the first membrane fixing groove 22 and the second membrane fixing groove (32) at the end of the lower membrane (3) Is configured to form a membrane fixing part (7). In addition, it is molded integrally with a soft material such as EPDM material having low impact resistance and abrasion resistance, wherein the size of the upper air dispersing holes 1 is 1.0 to 2.0 mm, and the spacing between the micropores is 3 to 5 mm. By reducing the coalescence of the bubbles, the size of the lower air dispersion sphere (4) is larger than the upper air dispersion sphere (1) (3mm).

As shown in Figure 5 and 6, the body 20 of the high-efficiency diffuser device 100 capable of the upper and lower bidirectional aeration according to an embodiment of the present invention is the air supplied from the upper air supply port 24 in the center Four air communication ports 25 are formed to allow air to flow into the furnace, and the retainer portion 21 and the membrane fixing part 7 having retainer-shaped protrusions adhere to the outer circumferential surface of the membrane 10 to be closely fixed. Forming the first membrane fixing groove 22 having a circular groove shape symmetrical with the second membrane fixing groove 32 of the fixing frame 30 to enable the fixing, fastening the fixed frame so that the body fastening portion 31 is connected and fastened A thread is formed on the outer circumferential surface of the portion 27, and a thread is formed on the outer circumferential surface of the air diffuser device fastening portion 26 to be fastened to the air supply pipe 50. The air communication port 25 formed on the upper portion of the body 20 is composed of four at 90 ° intervals with a size of 1/40 to 1/20 of the air supply port 23, but is not limited thereto.

Therefore, due to the structure of the air communication port 25 to efficiently branch the incoming air to the lower portion of the aeration tank lower layer 90 to discharge 10% to 20% of the aeration amount of the air diffuser to efficiently reduce the amount of fine bubbles Allow to dispense.

As shown in Figure 5, 6, 9, the fixing frame 30 of the high-efficiency diffuser device 100 capable of upper and lower bidirectional aeration according to an embodiment of the present invention is fixed to the fastening frame fastening portion 27 of the body 20 A female screw is formed in the body fastening portion 31 to be fastened, and a second membrane fixing groove 32 symmetrical to the first membrane fixing groove 22 for tightly fixing the membrane fixing part 7 to the body 20 is formed. As shown in FIG. 7, the upper air branch part 8 floats during aeration to prevent the membrane 10 from escaping from the body 20.

The high-efficiency diffuser device 100 capable of upper and lower bidirectional aeration according to an embodiment of the present invention is shown in FIG. As an air diffuser installed in place of the existing air diffuser 60 in the wastewater treatment plant aeration tank, it is used to be installed in the air supply pipe at the bottom of the wastewater treatment plant aeration tank. 7 is constantly installed in the air supply pipe 50, as shown in Figure 7, the air supplied from the air supply port 23, the upper air supply port 24 of the membrane is fastened to the high-efficiency diffuser capable of the upper and lower two-way aeration Air is supplied to the upper air branch part 8 of the upper part of the air diffuser, and at the same time, the upper membrane 2 is expanded to the upper part, and fine air bubbles are aerated into the upper air dispersing hole 1 of the membrane. do.

At this time, the air supplied through the upper air supply port 24 is partially introduced into the air communication port 25 to simultaneously open the lower air dispersing hole 4 which is opened in the lower membrane 3, and aeration of the microbubbles is performed. Air is supplied to the wastewater of the lower layer 90. The supplied air prevents the sludge deposited in the aeration tank lower layer 90, increases the contact area of the settling sludge and the air to make the agitation so that sufficient contact between the activated sludge and the organic material is made, the existing bottom-up diffuser device In addition to reducing the amount of sludge produced, the amount of sludge conveyed can also be reduced.

Therefore, the high-efficiency diffuser device 100 capable of aerobic aeration of the upper and lower sides according to an embodiment of the present invention is a high-efficiency diffuser that stably supplies oxygen required for aerobic microorganisms to oxidize organic materials even with a small amount of air.

1 Upper Air Dispersion Sphere
2 upper membrane
3 Lower membrane
4 Lower Air Dispersion Sphere
5 Membrane Center
6 Outer membrane
7 Membrane Fixing
8 Upper air branch
9 Lower air branch
10 membrane
20 bodies
21 retainer
22 Membrane fixing groove
23 Air supply port
24 Upper air supply port
25 air communication port
26 Mounting device connection part
27 Fixing Frame Fastening Part
30 fixing frame
31 Body Fastening
32 2nd membrane fixed groove

Claims (4)

In the diffuser,
In the upper membrane (2) of the air diffuser, a plurality of upper air dispersing openings (1), which are micropores, are formed on the upper surface except for the membrane center portion (5), and lower air having fine pores larger than the pore size of the upper air dispersing opening (1). Membrane 10 having a lower membrane (3) having a dispersing opening (4) and a membrane fixing portion (7) in which the membrane is tightly fixed to the air diffuser (1) formed in one unitary structure, and the air supply pipe (50) to the membrane (10) An upper air supply port 24 and two or more air communication ports 25 for supplying air supplied from the upper and lower parts are formed, and a first membrane fixing groove 22 for fixing the membrane fixing part 7 is formed. The body 20 and the membrane having different sizes of threads are formed on the outer circumferential surface of the air dispensing device fastening portion 26 connected to the air supply pipe 50 and the fastening frame fastening portion 27 connected to the fixing frame 30. 10) the body 20 and the second membrane fixing groove 32 and the body High-efficiency diffuser capable of aeration in both upper and lower directions, characterized in that consisting of a fixed frame 30 fixedly connected to the fastening portion 31 The method of claim 1,
The lower air dispersing opening 4 having a larger size than the diameter of the upper air dispersing opening 1 of the membrane 10 is formed, and the body 20 is inserted into the inner center and the retainer portion of the body 20 is fastened. A space including a membrane outer periphery 6 is formed in the 21 to be in close contact, and the end of the lower membrane 3 is in close contact with the first membrane fixing groove 22 and the second membrane fixing groove 32. High-efficiency diffuser capable of aeration in both the upper and lower directions, forming a fixed O-ring membrane fixing part (7), characterized in that the membrane (10) integrally molded The method of claim 1,
At least two air communication ports 25 are formed so that air supplied from the upper air supply port 24, which is the center of the body 20, can be introduced into the lower part, and the membrane 10 is tightly fixed. A circular groove symmetrical with the second membrane fixing groove 32 of the fixing frame 30 to enable the retainer portion 21 and the membrane fixing portion 7 to be tightly fixed to the outer circumferential surface of the retainer portion 21. High-efficiency diffuser capable of aeration in both upper and lower directions characterized by a body 20 having a first membrane fixing groove 22 having a shape The method of claim 1,
The second membrane fixing groove is connected to the fixed frame fastening portion 27 of the body 20 by the body fastening portion 31 of the female screw, and symmetrical to the membrane fixing groove 22 by the membrane fixing part 7. Upper and lower bidirectionally characterized in that it has a fixing frame (30) to prevent the membrane (10) from falling off by the upper air branch (8) during aeration by the binding means for tightly fixing to the body (20) by (32) High-efficiency diffuser capable of aeration

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