KR101106761B1 - Separator circulation type activated sludge aeration tank and water treatment method using the same - Google Patents

Abstract

The present invention relates to a diaphragm circulating activated sludge aeration tank for increasing water treatment and a water treatment method using the same, and more particularly, undecomposed diffused along the water surface in an aeration tank that decomposes organic substances by microorganisms by aeration into the introduced wastewater. The present invention relates to an activated sludge aeration tank and a water treatment method using the same, which can increase the water treatment efficiency by turning organic matter inside the aeration tank.

The present invention, in the aeration tank for decomposing organic matter in the waste water in the activated sludge process, the tubular body in which the waste water is introduced and discharged into the treatment space formed therein, and is installed in the lower portion of the body is connected to the air supply unit of the body Surface diffusion preventing means for limiting the surface diffusion of undigested organic matter by dividing the diffuser into the wastewater flowing into the inside and the main body and the plurality of zones which are disposed inside the main body and the processing space is communicated with each other It is provided.

Activated sludge, aeration tank, aeration tank, water diffusion, organic matter, decomposition

Description

Separator circulation type activated sludge aeration tank and water treatment method using the same}

The present invention relates to a diaphragm circulating activated sludge aeration tank for increasing water treatment and a water treatment method using the same, and more particularly, undecomposed diffused along the water surface in an aeration tank that decomposes organic substances by microorganisms by aeration into the introduced wastewater. The present invention relates to an activated sludge aeration tank and a water treatment method using the same, which can increase the water treatment efficiency by turning organic matter inside the aeration tank.

In order to purify livestock wastewater, industrial wastewater, and household wastewater containing a large amount of various organic pollutants, a conventional chemical method has been used, but the chemical treatment method causes secondary pollution and requires a lot of cost. There are many biological treatment methods using microorganisms.

That is, by supplying sufficient oxygen to various sewage or wastewater, aerobic microorganisms suitable for wastewater multiply to form flocs, adsorb soluble and suspended solids, and become dark brown sludge, which is called activated sludge.

Activated sludge is very strong in adsorption, cohesion, and oxidizing power of organic matter, and also has good separability by sedimentation. The treatment method for removing organic matter from sewage by aeration mixing wastewater and activated sludge by using the characteristics of activated sludge is called activated sludge method, and aeration tank that gives up mixed sewage and activated sludge is called aeration tank.

The aeration tank introduces the primary treated water from the initial settler during the biological water treatment of sewage or organic wastewater, and activates aerobic microorganisms to remove colloidal and soluble organic matter in the sewage to decompose and remove organic pollutants.

The aeration tank is an important process to determine the appropriateness of the secondary treatment in the water treatment unit process by the standard activated sludge method, and it is very important for the maintenance to control various operating conditions in the aeration tank according to the aerobic microbial activity.

Although several items may be important in the aeration tank maintenance, the aeration function for the uniform mixing of sewage and sufficient oxygen supply to maintain dissolved oxygen (DO) appropriately to promote microbial activity and promote the purification of activated sludge It is essential enough to be the key to abandonment maintenance. The reason for blowing air into the aeration tank is to supply oxygen to the aerobic microorganism to facilitate the activities such as oxidation and adsorption. Meanwhile, the mixed liquid of the primary treatment water of the initial settler and the return sludge of the final settler is introduced into the aeration tank. In order to prevent the sedimentation of activated sludge with the mixing effect. The aeration tank is important to make the oxygen transfer and mixing well and to make the mixing in the tank uniform while maximizing the circulation of the mixed liquid in the tank.

However, since the diffuser is installed in the lower part of the aeration tank and adopts an up-aeration method in order to abandon the air, the diffused air bubbles are released to the atmosphere as soon as they rise to the surface. There is a problem that the short and therefore the oxygen transfer rate is low.

In addition, since the activated sludge method operates the aeration tank in a completely mixed manner, some of the undecomposed organic material diffuses along the water surface in the aeration tank, and thus is not decomposed by the microorganisms and discharged together into the effluent.

The present invention has been made to improve the above-mentioned problems, and the waste water introduced into the aeration tank can sufficiently rotate the upper and lower portions of the aeration tank to prevent the undecomposed organic matter from spreading along the water surface, thereby ensuring stable treatment of the waste water. It is an object of the present invention to provide a diaphragm circulating activated sludge aeration tank and a water treatment method using the same, which can realize and increase the efficiency of water treatment by increasing the circulation of sludge.

The diaphragm circulating activated sludge aeration tank of the present invention for achieving the above object comprises a tubular body in which the waste water is introduced and discharged into a processing space formed therein, in an aeration tank for decomposing organic matter in wastewater in an activated sludge method; An diffuser installed at a lower portion of the main body and connected to an air supply unit for discharging air into waste water introduced into the main body; And a water diffusion preventing means installed in the main body and partitioning the processing space into a plurality of zones communicating with each other to limit water diffusion of undecomposed organic matter into the zone.

The sleep diffusion preventing means is installed on the upper portion of the body across the processing space, the lower end is characterized in that it comprises at least one diaphragm is installed spaced apart from the bottom of the body.

The water diffusion preventing means is installed at the lower end of the diaphragm so that the waste water descending along the diaphragm is extended to the lower side, characterized in that it comprises a swirl flow guide portion that forms a curved surface in any one direction.

The water diffusion preventing means is coupled to the diaphragm to move up and down by the height adjustment unit, the horizontal panel is installed on the upper portion of the main body, the hinge is coupled to the hinge coupling provided in the horizontal panel in the lower portion of the horizontal panel It is characterized in that it comprises a guide for guiding the undecomposed organic matter which is installed inclined and diffused to the surface in each zone in the diaphragm direction.

And the water treatment method of the present invention for achieving the above object is the first settling step of precipitating the pollutants first by introducing waste water into the primary sedimentation basin; Abandonment step of decomposing organic matter by introducing wastewater discharged from the primary sedimentation basin into a cylindrical aeration tank having an acid pipe connected to an air supply unit at a lower portion thereof, and decomposing organic matter; And a second precipitation step of discharging the supernatant to the outside after the solid-liquid separation by inflow into the settling basin, wherein the aeration step is installed on the upper part of the body, and the water surface is divided into a plurality of zones communicating with each other. It is characterized by decomposing the organic matter by limiting the surface diffusion of the undecomposed organic matter by the prevention means to the above zone.

As described above, the present invention may improve the contact with the microorganisms by increasing the water treatment efficiency by swirling and mixing the organic material diffused along the surface of the water by the diaphragm to the bottom of the aeration tank.

In addition, since the diaphragm partitioning the treatment space of the aeration tank into a plurality of zones restricts the movement of the undecomposed organic matter diffused along the water surface in the aeration tank into each zone, thus preventing the outflow of the undecomposed organic matter due to the water diffusion.

Hereinafter, a diaphragm circulating activated sludge aeration tank according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the interior of the aeration tank according to an embodiment of the present invention, Figure 2 is a plan view of FIG.

1 and 2, the activated sludge aeration tank 10 according to an embodiment of the present invention includes a main body 20, an diffuser 80, and a surface diffusion preventing means 30.

The main body 20 is a concrete structure, and is formed in a rectangular cylindrical shape in which an upper portion is opened and a processing space is formed therein. In addition, the shape of the main body 20 may be variously formed. One side of the main body 20 is provided with an inlet pipe 21 through which waste water is introduced, and an outlet pipe 23 through which treated water is discharged. The inlet pipe 21 is connected to the primary sedimentation basin, and the discharge pipe 23 is connected to the secondary sedimentation basin so that the treated water can be discharged to the secondary sedimentation basin.

The lower part of the main body 20 is provided with a conventional diffuser 80. The diffuser 80 is connected to the air supply. The air supply unit includes an air supply line 81 connected to the diffuser 80, and a blower (not shown) for supplying air at a constant pressure to the air supply line 81. The air supply line 81 may be provided with a flow meter and a valve for adjusting the air amount. In addition, a conventional sludge conveying line 25 is connected to the upper portion of the main body 20 in parallel with the inlet pipe 21. The sludge conveying line 25 is for conveying a part of the sludge deposited in the secondary settling basin into the body 20.

Waste water is introduced into the aeration tank 10 configured as described above through the inlet pipe 21, and the activated sludge is conveyed from the secondary settler through the sludge conveying line 25. Therefore, waste water and activated sludge are mixed in the aeration tank 10, and when abandoned, aerobic microorganisms decompose nitrogen, phosphorus, and various organic pollutants contained in the waste water. This aeration tank can be used with other reactors, such as conventional anaerobic and anaerobic tanks for wastewater treatment.

Sleep diffusion preventing means 30 is the largest feature of the present invention is installed inside the aeration tank 10 to limit the diffusion of undecomposed organic matter moving along the water surface within a certain range.

Specifically, two diaphragms 31 are installed inside the main body 20 as the sleep diffusion preventing means 30. Both edges of the diaphragm 31 are coupled to the front and rear side walls of the main body 20 so as to cross the processing space. The diaphragm 31 is a plate shape and is installed vertically. The two diaphragms 31 are spaced apart from each other, and are also spaced apart from the left and right side walls of the main body 20. The upper end of the diaphragm 31 is located higher than the highest level of wastewater introduced into the body 20. The lower end of the diaphragm 31 is installed to be spaced apart from the bottom of the main body 20. Preferably, the diaphragm 31 is preferably submerged up to 1 m below the water surface. In the illustrated example, two diaphragms 31 are installed, but alternatively, one or three or more may be installed.

The diaphragm 31 is installed on the main body 20 so as to be slidably movable up and down, so that the height of the diaphragm 31 can be adjusted. To this end, the guide grooves 27 formed vertically long on the sidewall inner side surface of the main body 20 are installed to face each other. And both edges of the diaphragm 31 is provided with a slider 33 which is inserted into the guide groove 27 and moves up and down along the guide groove 27. The slider 33 protrudes from the edge of the diaphragm 31 and is formed to have a thickness smaller than the thickness of the diaphragm 31.

In the example shown, two diaphragms 31 divide the processing space inside the body 20 into three zones 3, 5, 7. That is, the first and second zones 3 and 5 are divided by the diaphragm located on the left side of the two diaphragms 31, and the second and third zones 5 and 7 are divided by the diaphragm located on the right side. .

The diaphragm 31 as described above prevents the flow of the wastewater surface layer to spread to the entire water surface of the main body 20. Therefore, the floating organic material diffused by the water flow along the surface of the water impinges on the diaphragm 31 and does not diffuse to other areas. That is, the surface flow of wastewater located in each zone is limited to that zone. The undecomposed organic material that strikes the diaphragm 31 descends along the diaphragm 31 and then rotates along the lower and upper portions of the main body 20 while forming an upward flow in contact with the air discharged from the diffuser 80. The organic material descending along the diaphragm 31 is dispersed in the lower layer of the main body 20 at which the diaphragm 31 ends so that some rise to the upper part of the corresponding area and some move to the adjacent area.

As described above, the present invention is to rotate the waste water in each zone to prevent the undigested organic matter from spreading to other zones along the surface of the water and to facilitate the mixing of organic materials and activated sludge to increase the contact time with air. The water treatment efficiency can be effectively increased.

The surface diffusion preventing means 40 applied to another embodiment of the present invention is provided with a swirl flow guide portion 41 at the lower end of the diaphragm 31 as shown in FIG. Swirl flow guide portion 41 forms a curved surface in one of the left and right directions so that the waste water descending along the diaphragm 31 can turn. The direction and curvature of the swirl flow guide portion 41 may be appropriately adjusted. In the illustrated example, the swirl flow guide portion 41 is shown to be bent to the left but may be formed to be bent to the right. The swirl flow guide portion 41 may be integrally formed with the diaphragm 31 or separately formed and coupled to the lower end of the diaphragm 31.

In this embodiment, the flow of wastewater descending along the diaphragm 31 by the swirl flow guide portion 41 facilitates the formation of swirl flow. Therefore, the organic material floating on the water surface also turns between the upper and lower portions of the main body 20.

As another embodiment of the present invention may be applied to the sleep diffusion prevention means 50 shown in FIGS. 4 and 5, the surface diffusion preventing means 50 includes a horizontal panel 51, a diaphragm 31, a swirl flow guide part 41, and a guide part 59.

In detail, the horizontal panel 51 is formed in a plate shape and is installed to be supported by the upper end of the main body 20. The horizontal panel 51 is formed with a plurality of light-transmitting holes 54 so that light can be introduced into the main body 20 from the outside. The horizontal panel 51 is provided with two diaphragms 31 vertically extended downwards at regular intervals. Of course, one or three or more may be installed. A swirl flow guide portion 41 is formed at the lower end of the diaphragm 31. Since the diaphragm 31 and the swirl flow guide part 41 were mentioned above, detailed description is abbreviate | omitted. In the illustrated example, the swirl flow guide unit 41 may be omitted.

The diaphragm 31 described above is preferably coupled to the horizontal panel 51 so as to be movable up and down by a height adjusting unit. For this purpose, the lifting hole 52 penetrated vertically through the horizontal panel 51 is formed. The diaphragm 31 is inserted into the lifting hole 52 to move up and down by the height adjusting unit to adjust the height of the diaphragm 31. As an example of the height adjusting unit, the insertion holes 37 are formed on both sides of the diaphragm 31 and the plurality of insertion holes 37 are spaced up and down, and the insertion holes 37 are inserted into the through holes formed on the side surfaces of the horizontal panel 51. It consists of a fixing member 60 to enter. The fixing member 60 may be a bolt or a pin. Since the height of the diaphragm 31 can be arbitrarily adjusted by such a height adjusting unit, it has the advantage that it can be installed in various aeration tanks having various sizes and capacities with one surface diffusion preventing means.

The horizontal panel 51 is provided with a plurality of guides 59. The guide portion 59 is formed in a rectangular plate shape, and a plurality of guide portions 59 are formed at regular intervals. The guide part 59 extends downward from the horizontal panel 51. At this time, the guide portion 59 extends to be immersed in the water surface of each zone. The guide part 59 is installed to be inclined toward the diaphragm 31. That is, the guide portion at the position corresponding to the first zone 3 is inclined in the right direction, and the guide portion at the position corresponding to the third zone 7 is inclined in the left direction. In addition, a part of the guide part corresponding to the second zone 5 positioned between the two diaphragms 31 is formed to be inclined in the left direction, and the other is formed to be inclined in the right direction. The inclination angle of the guide part 59 may be arbitrarily adjusted, but is inclined at about 30 to 80 degrees with respect to the horizontal panel 51.

Preferably, the guide portion 59 is hinged to the hinge coupling portion provided in the horizontal panel 51 so that the inclination angle of the guide portion 59 can be adjusted. Hinge coupling portion is composed of a plurality of coupling holes 53 formed in the horizontal panel (51). The coupling holes 53 are formed in the same number as the guide portion 59. The coupling hole 53 is formed as a rectangular hole. The upper portion of the guide portion 59 is inserted into the coupling hole 53 and is coupled to the horizontal panel 51 by the fixing pin 55.

Guide portion 59 having the above structure can be adjusted by the administrator as needed, the inclination angle. In addition, even if the number of the diaphragm 31 is changed, the direction of the guide portion 59 can be arbitrarily adjusted left and right. If necessary, the guide portion 59 can be folded and used so as not to be immersed in the water surface.

The guide part 59 allows the organic material raised to the surface to settle in the direction of the diaphragm 31 so as to more easily form the swirl flow in each zone.

On the other hand, the water treatment method using the aeration tank of the present invention is the first sedimentation step of precipitating contaminants by introducing waste water into the primary sedimentation basin, and the treatment space is formed inside the waste water discharged from the primary sedimentation basin The aeration step of decomposing organic matter by introducing into a tubular aeration tank installed with an air pipe connected to the air supply unit, and the secondary water discharged from the aeration tank into a secondary sedimentation basin to separate solid-liquid and then discharge the symbolic water to the outside. A precipitation step is provided.

The aeration step is installed on top of the main body by limiting the surface diffusion of the undecomposed organic matter by the water surface diffusion preventing means for partitioning the processing space into a plurality of areas communicating with each other to decompose the organic matter.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a cross-sectional view showing the interior of the aeration tank according to an embodiment of the present invention,

FIG. 2 is a plan view of FIG. 1;

3 is a cross-sectional view showing the interior of the aeration tank according to another embodiment of the present invention,

4 is a cross-sectional view showing the interior of the aeration tank according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: abandoned tank 20: main body

21: inlet pipe 23: outlet pipe

31: diaphragm 41: turning guide

51: horizontal panel 59: guide part

Claims (5)

delete In the aeration tank for decomposing organic matter in the waste water in the activated sludge process, A tubular body into which the waste water is introduced and discharged into a processing space formed therein; An diffuser installed at a lower portion of the main body and connected to an air supply unit for discharging air into waste water introduced into the main body; And a water diffusion preventing means installed in the main body and partitioning the processing space into a plurality of zones communicating with each other to limit water diffusion of undecomposed organic matter into the zone. The sleep diffusion preventing means is installed on the upper portion of the body across the processing space, the lower end is provided with at least one diaphragm spaced apart from the bottom of the body, The water diffusion preventing means is coupled to the diaphragm to move up and down by the height adjustment unit, the horizontal panel is installed on the upper portion of the main body, the hinge is coupled to the hinge coupling provided in the horizontal panel in the lower portion of the horizontal panel Diaphragm circulation activated sludge aeration tank, characterized in that it comprises a guide that is installed inclined and guides the undecomposed organic matter diffused to the water surface in each zone in the direction of the diaphragm. The method of claim 2, wherein the water diffusion preventing means is provided at the lower end of the diaphragm so as to turn the waste water descending along the diaphragm extends downward and has a swirl flow induction portion to form a curved surface in any one left or right direction Diaphragm circulating activated sludge aeration tank characterized by the above-mentioned. delete delete

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