KR100402304B1 - Biological wastewater treatment system and methods using internal recycling - Google Patents

Abstract

The present invention relates to an internal circulation type biological sewage and wastewater treatment apparatus and a method of operating the same. The reactor for biological treatment of sewage and wastewater according to the present invention is provided with a cylindrical tube for inflow of water in the center of the reaction tank, A cross scraper is mounted, and a conveying line is installed at the bottom of the reaction tank so that the conveying line is connected to the upper part of the reaction tank so that the treated water can be circulated. An inclined sedimentation tank is installed outside the upper part of the reaction tank and oxygen inside the reaction tank is installed. Characterized in that it is configured by installing the supply diffuser.

The sewage and wastewater treatment apparatus according to the present invention configured as described above is free of organic matter and nitrogen as the nitrification and denitrification proceeds repeatedly in a single reaction tank, and the nitrogen due to the smooth contact of organic matter and nitrate in the microbial contact tank of the intermediate layer. It is a useful invention that can be installed in a narrow space to improve the removal efficiency, easy operation and has the advantage that is suitable for the domestic situation lacking professional manpower.

Description

Biological wastewater treatment system and methods using internal recycling

The present invention relates to an internal circulation biological sewage and wastewater treatment apparatus and a method of operating the same, and more particularly, to an apparatus for biologically purifying domestic sewage or industrial wastewater containing a large amount of organic matter and nitrogen in an internal circulation treatment tank. And an efficient sewage treatment method using the same.

While the rapid development of modern society and the generation of sewage and wastewater due to urbanization and industrialization are increasing exponentially, many cases are discharged without proper treatment, which pollutes the river's water quality. On the other hand, in recent years, interest in rivers and lake water quality has been increasing in view of the lack of water resources and environmental preservation in Korea. As a result, a number of processes for removing nitrogen and phosphorus from sewage and wastewater are being developed. On the other hand, technologies are being actively introduced from abroad, but many of the technologies introduced in Korea are variations of foreign public methods or are not suitable for domestic situations. Many situations do not function properly.

On the other hand, the conventional biological treatment process is most used for the removal of organic matter and nitrogen contained in the sewage and waste water for economic reasons. In this biological treatment process, the nitrogen and phosphorus removal process in the sewage and wastewater is treated by combining anaerobic tank, anaerobic tank, and aerobic tank, or by alternately operating anaerobic, anaerobic and aerobic conditions using a single reactor. However, in the conventional sewage and wastewater treatment process, it is difficult to maintain a proper anaerobic and aerobic conditions even if a plurality of reactors are required or a single reactor. In addition, when the anaerobic tank is disposed, the organic matter is primarily decomposed, and thus, the organic matter is insufficient during the denitrification reaction, so that an external carbon source must be added, thereby maintaining a maintenance cost.

The present invention is to provide a device that can be processed in a single reaction tank to process all processes in the anaerobic tank, anoxic tank, aerobic tank, sedimentation tank in order to solve the above problems, the reaction tank according to the invention the upper and lower aerobic zone And anoxic zone, and the middle part is composed of microbial contact area, and then nitrification is induced in the upper aerobic area, and the nitrified microorganisms are precipitated in the microbial contact area of the middle part, and organic matter and nitrate introduced in this process are mixed. After the mixing is completed, the microorganisms are transferred to the lower anoxic region, and in the anoxic region, the denitrification of nitrates by denitrifying microorganisms utilizes minimal space to maximize organic and nitrogen removal efficiency to complete the present invention.

1 is a schematic cross-sectional view of a biological sewage and wastewater treatment apparatus according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: aerobic area 2: microbial contact area

3: anoxic region 4: inflow pipe

5: Inflow water transfer passage (cylinder) 6: Internal conveying pipe

7: Internal return nozzle 8: Air supply pipe

9: diffuser 10: precipitation zone

11: media 12: excess sludge discharge pipe

13: outflow pipe 14: scraper

15: Scraper Drive Motor

The reaction tank for biological treatment of sewage and wastewater according to the present invention is provided with a cylindrical tube for inflow water transfer in the center of the reaction tank, a cross-shaped scraper is installed at the bottom of the reaction tank, and a return line is installed at the bottom of the reaction tank so that the return line is a reaction tank. It is connected to the upper portion of the treatment water can be circulated, characterized in that it is configured by installing an inclined sedimentation tank on the outside of the upper portion of the reaction tank and installing an oxygen supply acid pipe inside the reactor.

In particular, it is more preferable that the inlet for transporting the cylindrical tube installed in the central portion in the reaction tank is extended to 60% or more and 85% or less of the total depth of the reaction tank. If less than 60% of the inlet for transporting the cylindrical tube is inserted, the inflowing organic matter is in contact with the aerobic zone and the organic matter necessary for the denitrification reaction is not sufficiently maintained. There is a disadvantage that the contact is not smooth.

Another feature of the biological sewage / wastewater treatment reactor according to the present invention is to arrange the return and discharge lines at the bottom of the center of the reactor by using the bottom of the reactor as a cone.

Moreover, the present invention is to supply the waste water to be treated to the inlet for transporting the waste water to be treated using a single reactor for treatment of waste water and wastewater having the above configuration, and the scraper (scraper) while rotating at a circumferential speed of 3 to 5 m / min. By returning the wastewater and wastewater, it is characterized by the biological treatment of sewage and wastewater.

The sewage / wastewater treatment apparatus of the present invention according to the above structure partitions a circular reactor in a cylindrical shape to prevent organic matter in the sewage / wastewater introduced by inflow of the sewage / wastewater from being directly contacted and removed from the aerobic area for denitrification Ensure sufficient organic matter is maintained. In addition, by attaching a scraper to the bottom of the reactor to collect the sludge accumulated in the bottom of the tank to the center, the microbial transport to the aerobic area is facilitated by the internal conveying line, on the other hand, denitrified microorganisms precipitated by mixing the sludge properly Maximize denitrification

On the other hand, a plastic media with a large specific surface area was filled in the upper part of the reaction tank, that is, inside the sedimentation tank outside the aerobic region. The effect obtained by filling the media can remove the microflux that flows out after the first precipitation in the anoxic region, and in particular, the media not only removes the microflux but also denitrates the remaining nitric oxide. At this time, as the residual nitric oxide is denitrated, a certain amount of organic material is consumed, and thus, an effect of removing residual organic material can be expected.

In more detail, the effect of the present invention, by installing a cylindrical inlet for transporting the cylindrical passage in the center portion of one of the features of the present invention by allowing the incoming water to be transferred directly to the microbial contact area located in the middle of the tank In addition, the intermediate cylindrical tube strictly distinguishes the aerobic region from the influent, thereby preventing organic matter from being consumed in the aerobic region and increasing the organic load delivered to the anoxic region, thereby sufficiently supplying the organic substance necessary for denitrification. To be. In the anaerobic region, a large amount of phosphorus release occurs while decomposing organic matter, which causes the microorganisms to ingest excessive phosphorus in the aerobic region, thereby allowing the overall phosphorus removal effect. In this way, by installing the inlet for transporting the inlet can be transferred to the middle of the tank directly to partition the inlet and the aerobic area can be expected to improve the nitrogen and phosphorus removal efficiency.

On the other hand, in the anoxic region, the nitric oxide is denitrified using the organic material introduced into the microbial contact portion through the transfer tube. Nitrogen in the influent is converted to nitric oxide in the aerobic zone and moves to the anoxic zone to complete denitrification. In addition, denitrification is completed while the residual nitric oxide is continuously circulated through the internal conveyance. In addition, in the anaerobic region, another function is to settle the microorganisms ingesting organic matter and nitrogen in the aerobic region. Therefore, in the anoxic region, the concentration of microorganisms at a high concentration is maintained at about 5,000 to 10,000 mg / l, and denitrification efficiency can be improved by securing a large amount of denitrifying microorganisms.

In addition, as another feature of the present invention by installing a scraper at the bottom of the tank to settle the sludge to the center. In addition, the speed of rotation of the scraper was increased so that the precipitated sludge could be properly mixed. Another effect of mounting a scraper is that the sludge can be continuously mixed without stagnation of the sludge, allowing the sludge to be evenly activated in the tank. This solves the difficulties in proper mixing, discharging, and conveying the precipitated sludge settled in the anoxic region, which is one of the problems of the conventional process.

In the upper aerobic region, decomposition of organic matter and nitrification of ammonia are carried out using oxygen supplied by an acid pipe installed in the middle of the reactor. The remaining organics used for the denitrification reaction in the anoxic zone are primarily transferred to the aerobic zone either directly or by sludge conveyance and removed by aerobic microorganisms. The introduced nitrogen component is returned to the aerobic region and used for cell synthesis, and the remaining nitrogen component is nitrified.

In the conventional wastewater and wastewater treatment process using a single reactor, the internal conveyance is configured as an aerobic region in the middle of the reactor, and the internal flow is increased in the middle of the reactor where the concentration of microorganism is lower than the bottom of the reactor in which the precipitation is completed. There is a disadvantage. By the way, in the present invention according to the above configuration, by directly conveying the sludge collected in the lower center portion of the reaction tank by the scraper, the conveying flow rate required for conveying the same conveying effect, that is, the same amount of microorganisms can be reduced by that much. According to one experiment, the flow rate for conveying the same amount of microorganisms is 40% or less compared to the existing process since 5,000 to 6,000 mg / l in the middle of the reactor based on the concentration of microorganisms, while 8,000 to 10,000 mg / l in the lower part of the reactor. Can be reduced. Therefore, when the same flow rate is returned, the residual ammonia component can be returned to the aerobic tank two times or more for nitrification, and the denitrified microorganisms are continuously returned to the upper aerobic tank to be activated.

In the treatment process as described above, microorganisms in the aerobic region are primarily precipitated in the microbial contact region in the middle of the reaction vessel, and some of the microflocs may be lost. Therefore, in the present invention, the precipitation zone is installed outside the aerobic zone to allow the fine floc to precipitate second. The inside of the precipitation part was filled with a plastic media with a large specific surface area to improve the precipitation efficiency and to finally denitrify the residual nitrate which was not denitrified in the anoxic region.

Hereinafter, the present invention will be described in more detail with reference to the drawings with reference to one embodiment, but the present invention is not limited thereto.

1 is a schematic diagram of a biological sewage and wastewater treatment apparatus according to the present invention. It is composed of internal reaction tank of circular reaction tank and external inclined plate sedimentation tank filled with media. The internal reaction tank is divided into 15%, 25%, and 60% of the anaerobic region (3), the microbial contact region (2), and the aerobic region (1) according to the operating state of the microorganisms, respectively. In the middle of the reactor, a cylindrical section 5 and a scraper drive motor 15 having a diameter of about 12% of the entire reactor are mounted. In addition, a gradient of 10% inclination angle is formed on the bottom of the reactor, and a scraper 14 is attached to the anoxic region. At the bottom of the center of the reactor, sludge conveyance 6 and discharge 12 take place.

The sedimentation zone 10 located outside the aerobic zone has 15 to 20% of the total volume and has a hydraulic retention time (HRT) of about 2 to 3 hours, and the media 11 filled therein is made of synthetic resin having a large specific surface area. The media is about 70-80% of the volume of the settling tank. The sedimentation tank separator is installed between the aerobic zone and the inclined plate sedimentation tank in order to minimize the flow of microorganisms in the aerobic tank into the inclined plate sedimentation tank.

The upper expiratory area 1 is about 40 to 45% of the total volume and the hydraulic residence time is about 5 to 6 hours. In the aerobic zone, the concentration of microorganisms is maintained at about 2,000 to 3,000 mg / l, and organic matter removal by aerobic microorganisms and nitrification of ammonia and organic nitrogen by nitrifying bacteria proceed. The necessary oxygen is supplied through the microbial contact area 2, which is below 60% of the total height, and the diffuser 9 provided at the boundary of the aerobic area.

The microbial contact zone 2 located directly below the aerobic zone occupies about 25% of the total volume and has a hydraulic residence time of about 3 to 4 hours. In the microbial contact zone, the microbial concentration is maintained at about 5,000 to 6,000 mg / l. On the other hand, the anaerobic region 3 has a hydraulic retention time of about 2 to 3 hours with about 15% of the total volume, and has a high concentration of microorganisms at a concentration of 8,000 to 10,000 mg / l in the anoxic region.

The scraper 14 mounted in the anaerobic region has a circumferential speed somewhat larger than that of the scraper installed in the sedimentation basin of the general sewage treatment plant at a circumferential speed of 3 to 5 m / min. The bottom of the jaw is cone shaped so that the sludge can be gathered to the center with an inclination angle of about 10%. The sludge conveyance 6 and the discharge pipe 12 were installed in the lowermost center of the tank so that a high concentration of sludge could be taken out. At this time, the amount of sludge returned and discharged may be applied differently according to the characteristics of the influent and the operating conditions.

As described above, the sewage and wastewater treatment apparatus according to the present invention removes organic matter and nitrogen as the nitrification and denitrification reaction proceeds repeatedly in a single reactor, and the nitrogen removal efficiency is achieved due to the smooth contact of organic matter and nitrate in the microbial contact tank of the intermediate layer. It is a useful invention that can be installed in a narrow space and can be easily operated and has advantages that are suitable for the domestic situation that lacks professional manpower.

In particular, when the sewage and wastewater treatment using the sewage and wastewater treatment apparatus according to the present invention, organic matter contained in the influent sewage and wastewater is removed about 30 to 40% while passing through the microbial contact zone and the anoxic zone, 80-90% of the remaining organics are removed during the process, and 70-80% of the nitrogen components are removed in this process. The removal efficiency obtained through the whole process including the inclined plate settling tank is 90-95% of the organic matter and nitrogen. It is about 75 ~ 85% of the components, so it is not only excellent in sewage and wastewater treatment, but also a large part of organic matter in the influent is removed from the anoxic area, so sludge generation is relatively small. It is easy.

Claims (4)

A cylindrical tube for inflow of water is installed at the center of the reactor, and a cross scraper is installed at the bottom of the reactor, and a conveying line is installed at the bottom of the reactor to connect the conveying line to the upper part of the reactor to circulate the treated water. An internal circulation type biological sewage / wastewater treatment device, characterized in that an inclined sedimentation tank is installed outside the upper part of the reactor and an oxygen supplying acid pipe is installed inside the reactor. The internal circulation type biological sewage / wastewater treatment apparatus according to claim 1, wherein the inlet water transfer cylinder installed in the center portion of the reactor extends to 60% or more and 85% of the total depth of the reactor. The internal circulation type biological sewage and wastewater treatment apparatus according to claim 1, wherein the bottom and bottom lines of the reaction vessel are corn-shaped, and the conveying and discharging lines are arranged at the bottom of the center of the reaction vessel. Using a single reactor for sewage and wastewater treatment as described in claim 1, supply the sewage and wastewater to be treated to the inflow tank for transport of inflow water, and rotate the scraper at a circumferential speed of 3 to 5 m / min. Internal circulating biological sewage / wastewater treatment method characterized by returning wastewater / wastewater to biologically purify sewage / wastewater.