JP3812650B2 - Aerobic treatment tank - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a treatment tank for purifying wastewater, and more particularly to an aerobic treatment tank provided with a carrier separation screen for preventing outflow of a carrier having microorganisms immobilized at the outlet of the treatment tank.
[0002]
[Prior art]
In order to treat BOD and nitrogen in sewage and industrial wastewater at high speed and in a short time, a method using a carrier on which microorganisms are immobilized has been implemented. In this method, microorganisms are immobilized on a carrier having a density of several percent higher than that of water and put into an aerobic treatment tank, and this carrier is made to flow by a circulating water flow in the tank generated by the air diffuser and the amount of air diffused. The treated water is treated biologically.
[0003]
An example of a conventional aerobic treatment tank is shown in the sectional view of FIG. The aerobic treatment tank 1 is supplied with the treated carrier supplied from the inflow pipe 6 and the immobilization carrier 2 on which microorganisms are immobilized. At the center of the aerobic treatment tank 1, there is provided a flow guide plate 3 that divides the tank into two left and right areas and forms a clockwise circulation path in the drawing. Air is supplied to one end side. An air diffuser 4 to which an air pipe 5 is connected is installed. The air diffuser 4 generates an upward flow of water to be treated in the upper portion of the air diffuser 4 by a lift action by the generated air. Thus, a circulating flow in the clockwise direction in the figure is formed in the tank according to the circulation path formed by the flow guide plate 3, and the immobilization carrier 2 is caused to flow into the tank by this circulating flow to treat the water to be treated. I have to. The carrier separation screen 7 provided on the downstream side of the circulating flow in the upper part of the tank prevents the immobilization carrier 2 from flowing out, and the treated water that has passed through the screen flows out from the outflow pipe 8.
[0004]
The flow analysis result of the conventional aerobic processing tank is shown in FIG. The upper part of FIG. 6 shows the flow velocity vector, and the lower part shows the concentration distribution of the immobilized carrier 2. The arrows in the flow velocity vector represent the direction and size of the flow, and the longer the arrow, the faster the flow velocity. The line in the concentration distribution of the immobilization carrier 2 in the lower part of FIG. 6 is an isoconcentration line. A smaller value in the concentration line indicates a higher concentration region, and a larger value indicates a lower concentration region.
[0005]
Here, the flow velocity vector in the upper part of FIG. 6 has a high flow velocity on the upper right side of the flow guide plate 3 and a leftward flow velocity on the lower left side of the flow guide plate 3 as shown by the arrows. It shows that a clockwise circulation flow is formed in the entire tempering treatment tank 1.
[0006]
However, in experiments conducted by the present inventors, the immobilization carrier 2 may adhere to the carrier separation screen 7 and the carrier separation screen 7 may be clogged. This is because the flow rate in the right direction is higher in the part 7 of the carrier separation screen as indicated by the arrow in the upper part of FIG. The immobilization carrier flows on this flow, and the carrier concentration in the lower part of FIG. 6 is high as indicated by an isoconcentration line in the carrier separation screen. The carrier thus flowing is pressed against the carrier separation screen 7, and the carrier adheres to the carrier separation screen 7. As a result, the carrier separation screen 7 is easily clogged. Furthermore, since the carrier separation screen 7 is deeply installed in the water depth direction, maintenance is not easy.
[0007]
[Problems to be solved by the invention]
An object of the present invention is to provide an aerobic treatment tank capable of performing an aerobic treatment which eliminates the drawbacks of the prior art, is less likely to be clogged with a carrier separation screen, and is easy to maintain the screen. .
[0008]
[Means for Solving the Problems]
According to the present invention, the above problem can be solved by configuring the screen so that the fast flow at the top of the tank becomes a flow parallel to the screen , and this fast flow is directly guided to the bottom of the tank. It was made by the knowledge of.
[0009]
That is, the aerobic treatment tank according to the present invention comprises a treatment tank in which a circulation flow path is formed by forming a flow passage in the upper part and the lower part of the water to be treated and the carrier holding microorganisms, and a screen. The attached flat V-shaped screen receiving frame is disposed in the upper flow passage, the sharp portion of the screen receiving frame is directed to the upstream side of the upper flow passage, and the rear edge of the screen receiving frame is the side wall of the processing tank. A screen unit directed to the side, a water intake area for screen passing water disposed at the rear of the screen unit, and a guide plate disposed at the rear of the screen unit for guiding the circulating flow toward the bottom of the treatment tank. It is provided with.
[0010]
In this case, an opening for passing treated water can be provided in the water intake region, and the area of the opening for passing treated water can be made variable. Further, an air diffuser may be provided near the lower part of the screen.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, specific embodiments of an aerobic treatment tank according to the present invention will be described in detail with reference to the drawings. FIG. 1 is a sectional view of an aerobic treatment tank according to the embodiment, and FIG. 2 is a plan view thereof. The same members as those in the conventional example shown in FIG. The difference from the conventional configuration is that the V-shaped screen unit 11 is installed at the upper part of the tank on the anti-main air diffuser side.
[0012]
That is, as shown in FIGS. 1-2, the aerobic processing tank 1 which concerns on embodiment is supplied with the support | carrier (not shown) which fixed the microorganisms with the to-be-processed water supplied from the inflow pipe 6. FIG . It is a container. A flow guide plate 3 is installed at the center of the aerobic treatment tank 1, which divides the inside of the tank 1 into two areas on the left and right sides, and forms a flow passage at the upper and lower parts. A circulation channel that circulates around the flow guide plate 3 is formed in the vertical plane inside the tank. A main air diffuser 4 is installed in a region on the left side of the figure partitioned by the flow guide plate 3, and an air pipe 5 that supplies air to the main air diffuser 4 is connected. Further, the water to be treated is supplied to the installation area of the main air diffuser 4 through the inflow pipe 6 described above. Therefore, on the left region side partitioned by the flow guide plate 3, a lift action by the air diffused from the main air diffuser 4 works, and the water to be treated rises. Therefore, a clockwise circulation flow in FIG. 1 is formed in the entire aerobic treatment tank 1, and the carrier rides in this clockwise circulation flow and flows in the aerobic treatment tank 1. become. A screen means 10 having a screen for separating the carrier is installed at the upper part of the tank on the opposite side of the area where the main air diffuser 4 is installed. The screen means 10 prevents the carrier from flowing out. The screen-passing water flows out from the outflow pipe 8 as treated water .
[0013]
As shown in FIGS. 1 and 2 , the screen means 10 is located on the side opposite to the area where the main air diffuser 4 is installed in the area partitioned by the flow guide plate 3 in the aerobic treatment tank 1 . A plurality of V-shaped screen units 11 shown in FIG. 3 are arranged in the upper part of the region . By installing the screen means 10 in the upper part of the tank in this way, maintenance is facilitated.
[0014]
FIG. 3 is a perspective view of the screen unit 11 constituting the screen means 10 . In FIG. 3, the screen unit 11 is configured by attaching to a screen receiving frame 13 a screen 12 that allows passage of treated water while preventing passage of a carrier . The screen receiving frame 13 is formed by bending a metal strip into a V shape and attaching the screen 12 to windows opened on the slope portions on both sides thereof. The screen receiving frame 13 is arranged so as to be V-shaped when viewed from the top with respect to the aerobic treatment tank 1 , and in particular, the sharp portion 13 </ b> P which is a bent edge is upstream of the circulation flow of the aerobic treatment tank 1. It is arranged to point to. The rear edge of the screen receiving frame 13, which is the opposite end of the sharp portion 13P, is cut obliquely, and the lower edge length is formed longer than the upper edge length, and is set to have a downward slope in FIG. . And the inclined plate 14 which consists of a flat body is attached along this inclined edge, and it is set so that a rear part opening may be covered. The inclined plate 14 is formed wider than the opening width of the screen receiving frame 13, and an area corresponding to the opening width of the screen receiving frame 13 is constituted by the punching metal 17 </ b> P, and a large number of openings 15 through which the screen passing water can flow as treated water. Is formed. Moreover, the flange part which becomes the protrusion part of the inclination board 14 is the guide board 16 which makes the direction change of the to-be-processed water and the circulating flow of a support | carrier .
[0015]
The arrangement form of the screen unit 11 configured as described above is set so as to be V-shaped in a plan view with the sharp portion 13P facing the upstream side of the circulating flow of the water to be treated and the carrier . When the screen unit 11 having this arrangement form is arranged at the upper corner of the aerobic treatment tank 1 , the inclined plates 14 provided in each screen unit 11 are set so as to be aligned adjacent to each other , as shown in FIG. As shown, a plurality of V-shaped screen units 11 are mounted side by side so as to have a saw-tooth shape toward the upstream of the circulating flow, and constitute screen means 10 .
[0016]
The screen means 10 configured by arranging a plurality of screen units 11 side by side has a form in which the upper part is opened, but the water to be treated is placed in the upper V-shaped opening so that the water line is below the upper edge. And the carrier does not get over.
[0017]
In addition, below each screen unit 11 , a screen sub-air diffuser 18, which is an air diffuser, is installed to discharge bubbles. The bubbles released from the screen sub-aeration device 18 affect the flow of water to be treated in the vicinity of the screen 12, but the bubbles do not rise straight toward the water surface in the water, It moves in the water at random while affecting each other and escapes from the water surface to the atmosphere. For this reason, when bubbles are flowing along the surface of the screen 12, it is possible to cause a sufficient water flow along the surface of the screen 12 and prevent the carrier from adhering to the screen 12. Some of the bubbles pass through the screen 12 and escape to the atmosphere from the secondary side of the screen 12. In this case, the water level on the secondary side rises higher than that on the primary side due to the amount of bubbles that have escaped to the secondary side. As a result, the carrier to be attached to the screen 12, will be opposite force is applied, even more, the carrier hardly adhere to SCREEN 12, preventing clogging of the screen 12 due to the carrier from adhering can do.
[0018]
As shown in FIG. 1, the rear portion of the screen unit 11 is divided into a treated water intake area 17 by a punching metal 17P , and this intake area 17 flows through the tank body side through an opening 15 of the punching metal 17P. This is possible, and the treated water is discharged out of the system through the outflow pipe 8 opened here. Here, the surface of the punching metal 17P serves as a resistor that can obtain treated water evenly over the entire surface of the screen 12. Further, the punching metal 17P is slanted, and the screen unit 11 is easily manufactured. Further, between the adjacent screen units 11 , guide plates 16 that are flange portions of the inclined plates 14 are joined to each other, and the parallel flow that has passed between the screen units is reflected below the aerobic treatment tank 1. Let me guide you .
[0019]
In the present embodiment, the opening 15 formed by the punching metal 17P is an opening of the same size, but this is appropriately set so that the flow velocity of the treated water is constant according to the position of the outflow pipe 8. The aperture ratio may be changed. The aperture ratio can be adjusted by preparing two punching metals and sliding them. Further, although the punching metal 17P is installed obliquely in the same manner as the guide plate 16 , the punching metal 17P may be structured to have an angle or be installed vertically independently of the guide plate 16 .
[0020]
In the aerobic treatment tank 1 according to the present embodiment configured as described above, the water to be treated is installed horizontally because a circulating flow is generated in the tank due to the air lift action by the bubbles released from the main air diffuser 4. It flows from the serrated inlet of the screen means 10. Then, the carrier and the water to be treated are separated by the screen 12, and the treated water that has passed through the screen 12 passes through the opening 15 of the punching metal 17 </ b> P and flows out of the system from the water intake region 17 through the outflow pipe 8. .
[0021]
At this time, the fast flow in the upper part of the tank 1 becomes a flow parallel to the screen 12 portion and flows into the screen means 10 . Thus, the fast flow does not strike the screen 12 portion and the carrier is not pressed against the screen 12 portion as occurs in conventional aerobic treatment equipment. Also, the screen unit 11 downward, the screen for the sub air diffuser 18 is provided by the bubbles released from the screen for the sub air diffuser 18, since the water flow to the screen 12 side along occurs, the carrier Adhering to the screen 12 can be prevented.
[0022]
Then, the screen unit 10 has a wide inlet portion of the guide flow plate 3 side, since the outlet portion of the vessel side wall is narrow as compared to the flow rate of the tip side of the screen 12 (guide flow plate 3 side), the screen 12 The flow velocity on the rear end side (tank side wall side) does not decrease. Further, a guide plate 16 is installed obliquely on the rear end side of the screen 12 and plays a role of guiding a fast flow at the top of the tank to the right corner of the tank bottom as it is, thereby circulating in the tank. The flow is stabilized .
[0023]
FIG. 4 shows the flow analysis result of the water to be treated including the carrier of the aerobic treatment tank 1 according to this embodiment. FIG. 4 shows a flow analysis result in a section where the screen means 10 does not have a screen portion. The upper part shows the flow velocity vector, and the lower part shows the carrier concentration distribution. From this figure, it can be seen that in the upper part of the tank in which the screen means 10 is installed, the horizontal flow velocity parallel to the screen portion is faster as indicated by the arrow in the upper part of FIG. Furthermore, it is confirmed that the carrier concentration shown in the lower part of FIG. 4 is also averaged compared to the conventional aerobic treatment tank.
[0024]
Thus, by the screen means 10 installed in the upper part of the tank, the flow rate of the water to be treated on the screen 12 is increased, and the bubbles released from the screen sub-aeration device 18 installed below the screen unit 11 It is possible to provide the aerobic treatment tank 1 in which the carrier is not easily clogged with the screen 12 and the maintenance of the screen 12 is easy.
[0025]
【The invention's effect】
The present invention relates to a treatment tank in which a circulation flow path is formed by forming a flow passage in the upper part and the lower part of the water to be treated and the carrier holding microorganisms, and a flat V-shaped screen to which a screen is attached. A screen unit in which a receiving frame is disposed in the upper flow passage, a sharp portion of the screen receiving frame is directed to the upstream side of the upper flow passage, and a rear edge of the screen receiving frame is directed to a side wall of the processing tank;
By adopting a configuration comprising a screen water intake area disposed at the rear of the screen unit and a guide plate disposed at the rear of the screen unit for guiding the circulating flow toward the bottom of the treatment tank. , screen clogging hardly occurs at, is excellent effect that the screen maintenance can be easily obtained.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an example of an aerobic treatment tank according to the present embodiment.
FIG. 2 is a plan view showing an embodiment of the aerobic treatment tank.
FIG. 3 is a perspective view of a screen unit used in the aerobic treatment tank according to the present embodiment.
FIG. 4 is a diagram showing a flow analysis result of an aerobic treatment tank according to the present embodiment.
FIG. 5 is a cross-sectional view of a conventional aerobic treatment tank.
FIG. 6 is a diagram showing a flow analysis result of a conventional aerobic treatment tank.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ......... Aerobic processing tank , 2 ......... Immobilization support | carrier, 3 ...... Flow guide plate, 4 ...... Main air diffuser, 5 ...... Air pipe, 6 ...... Inflow pipe, 7 ... ...... carrier separation screen, 8 ......... outlet pipe, 10 ......... screen means, 11 ......... screen unit, 12 ......... screen, 13 ......... screen receiving frame, 14 ......... inclined plate, 15 ...... ... Opening, 16 ......... Guide plate , 17 ......... Water intake area, 17P ......... Punching metal, 18 ...... Sub-air diffuser for screen.

Claims (4)

A treatment tank in which a circulation flow path is formed inside by forming a flow passage in the upper and lower parts of the water to be treated and the carrier holding the microorganisms ;
A flat V-shaped screen receiving frame to which a screen is attached is disposed in the upper flow passage, the sharp portion of the screen receiving frame is directed to the upstream side of the upper flow passage, and the rear edge of the screen receiving frame is the processing tank. A screen unit facing the side wall of
A screen-passing water intake area disposed at the rear of the screen unit;
A guide plate disposed at the rear of the screen unit and guiding the circulating flow toward the bottom of the processing tank;
An aerobic treatment tank characterized by comprising:   The aerobic treatment tank according to claim 1, wherein an opening for passing treated water is provided in the water intake area.   The aerobic treatment tank according to claim 2, wherein an area of the treated water passage opening is variable. The aerobic treatment tank according to claim 1, wherein a diffuser is provided in the vicinity of the lower part of the screen .

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