KR200255047Y1 - Thick sewage disposal facilities - Google Patents

Abstract

The present invention relates to a high concentration sewage treatment apparatus, and in order to remove wastewater having a high concentration of organic matter such as nutrients (nitrogen, phosphorus) contained in general living sewage, sewage, and sewage, it takes time to treat the wastewater when removing organic matter. The present invention relates to a sewage treatment apparatus comprising a high load reaction tank and a low load reaction tank capable of reducing the volume of a site.

The present invention has a high load reactor with a slope plate and a low load reactor for the reaction tank installed in the wastewater treatment device, and treats the wastewater with a high concentration by treating the wastewater with a high load reactor after treating the wastewater with a high load reactor. It is possible to reduce the size of the reactor to be treated and to reduce the reaction time of the wastewater, and to provide a wastewater treatment apparatus that can reduce the concentration of nitrogen and phosphorus strengthened below the regulated concentration. It has been applied to minimize the cost of retrofitting the facility and the size of the housing site of the sewage water treatment system, thereby economically reducing the installation cost.

Description

High concentration sewage treatment facility {Thick sewage disposal facilities}

The present invention relates to a high concentration sewage treatment apparatus, and in order to remove wastewater having a high concentration of organic matter such as nutrients (nitrogen, phosphorus) contained in general living sewage, sewage, and sewage, it takes time to treat the wastewater when removing organic matter. The present invention relates to a sewage treatment system comprising a high load reaction tank and a low load reaction tank capable of reducing the volume of a site and reducing the volume of a site.

Currently, the Ministry of Environment plans to strengthen the effluent standards of new sewage treatment plants in special countermeasures and other areas from 2001, and plans to expand the existing sewage treatment plants by 2005. Therefore, most of the sewage treatment plants currently operating only for the removal of organic matter and suspended solids are urgently required to be replaced by advanced treatment processes capable of removing nutrients (nitrogen, phosphorus). The expansion of such advanced treatment facilities and treatment facilities is very expensive and can lead to a weakening of competitiveness.

The reaction required a nitrogen compound to the nitrogen treatment NO ₂ ^-, NO ₃ ^- anaerobic denitrification in which created a nitrogen compound oxidation and nitrification process of oxidizing aerobic to the utilization by the nitrogen gas as an electron acceptor of the energy transfer structure degassing etc. An oxidation process is necessary. In addition, the reaction required for phosphorus treatment is the treatment of phosphorus in water by removing phosphorus concentrated in cells in the system together with the microorganisms. Inhalation is required.

Most advanced treatment processes consist of anaerobic and aerobic reactors, and modified processes have been developed by several researchers to improve efficiency in A2 / O, a process that can process nitrogen and phosphorus simultaneously.

Nitrogen and phosphorus removal efficiencies may vary depending on process selection and influent properties, and the most important factors involved in treatment efficiencies are the ratio of organic matter and nitrogen (C / N ratio) and the ratio of organic matter and phosphorus (C / P ratio). . Organics used for nitrogen removal are used for denitrification by heterotrophic microorganisms and for phosphorus removal in phosphorus release reactions in anaerobic conditions. Therefore, organic matter is not needed in the nitrification reaction, so that the intermittent oxygen injection and influent flow are frequently controlled.

Recently, the regulation of nitrogen and phosphorus is becoming more strict, it is necessary to improve the existing process and to build new nitrogen and phosphorus removal process, but face economic problems. In particular, since most sewage treatment plants and livestock wastewater treatment plants have a continuous aeration type activated sludge process, there are many problems for nitrogen phosphorus control.

There is a problem in that it is not suitable for small sewage treatment because it requires a lot of investment cost to implement the advanced treatment method of the existing treatment plant.

Therefore, the purpose of the present invention is to strengthen the discharged water quality standards of new sewage treatment plants in special countermeasures and other regions since 2001, and it is necessary to renovate many additional facilities in order to apply the advanced treatment method to small sewage treatment plants. In order to secure the reaction time of the reactor, the present invention provides a high-density sewage and wastewater treatment system that can reduce the concentration of nitrogen and phosphorus strengthened by a small scale below the regulated concentration by installing a high load reactor and a low load reactor having an inclined plate to secure the reaction time of the reactor. .

The present invention is a high load reaction tank in which a high concentration of wastewater is introduced, a high load reaction tank is disposed connected to one side of the inlet pipe, and a sedimentation unit for treating sludge of the wastewater is removed, and the low concentration sewage water treated first in the high load reaction tank. A low load reaction tank for secondary treatment, a final settling tank connected to the low load reaction tank to remove sludge of the second treated water, and a discharge pipe for discharging the treated water from which the sludge has been removed is connected to one side of the final settling tank. It is composed organically linked.

1 is a block diagram showing a high concentration sewage treatment apparatus according to the present invention,

Figure 2 is a main portion planar action state diagram showing the settling portion according to the present invention,

Figure 3 is a main portion of the cross-sectional side view showing the settling portion according to the present invention,

Figure 4 is another embodiment showing a high concentration sewage treatment apparatus according to the present invention.

<Code Description of Major Parts of Drawing>

1: inlet pipe 2: high load reactor

3: settling portion 31: inclined plate

311: slope side 32: by delivery

4: low load reactor 5: precipitation tank

6: discharge pipe 7: external circulation

The high concentration sewage water treatment apparatus according to the present invention configured as described above will be described in detail based on the accompanying drawings.

Figure 1 is a schematic configuration diagram showing a high concentration sewage treatment apparatus according to the present invention, Figure 2 is a planar state of the main portion showing the sediment according to the present invention, Figure 3 is a side sectional view showing the sediment according to the present invention Figure 4 is another embodiment showing a high concentration sewage treatment apparatus according to the present invention.

As shown in the drawing, the wastewater treatment apparatus is an inlet pipe (1) through which high concentration wastewater flows into the treatment apparatus of wastewater, in order to purify high concentration wastewater such as domestic sewage, factory wastewater, and concentrated wastewater, and the inlet pipe (1). A high load reaction tank 2 is provided, which is connected to one side to treat the high concentration sewage water flowing in, and is provided with a precipitation part 3 for removing sludge of the sewage water.

The high load reaction tank 2 is responsible for the decomposition of organic matter by the microorganisms to increase the amount of microorganisms, so that an appropriate equilibrium between the supply of nutrients and the amount of microorganisms in the reaction tank should be maintained. It is preferable to set it to kgBOD / m 3 · day, and the amount of MLSS, which is a microorganism in the aeration tank, as the mixed liquor suspended matter in the reaction tank may be 3000 to 4000 mg / l.

In addition, the precipitation unit 3 installed in the high load reaction tank 2 is installed inclined so that a plurality of inclined pieces 311 have a predetermined angle, and the inclined pieces 311 are inclined plates 31 spaced apart from each other by a predetermined distance. Is installed in the direction in which the treated water of the high load reaction tank (2) flows out, and on the outer circumference of the inclined plate (31), a drainage passage (32) is installed to transfer the treated water filtered by sludge from the inclined plate to the next reactor. It would be desirable.

The low load reaction tank (4) for secondary treatment of the low concentration wastewater treated primarily by the immersion portion (3) of the high load reaction tank (2) has an F / M ratio of 0.1 to a proper reaction for low concentration wastewater. It is preferable to make 1.1 kgBOD / m 3 · day, and the amount of MLSS will be preferably 3500 to 4500 mg / L.

The low load reaction tank (4) is a secondary treatment of low concentration sewage water and moved to the final settling tank (5) connected to one side to remove the sludge in the treated water and then transfer the purified treated water to the discharge pipe (6) to the outside Will be discharged.

In order for such a treatment device to operate smoothly, it is preferable that an external circulation path 7 configured to be connected to a connection pipe 21 connecting the high load reactor 2 to the low load reactor 4 in the final settling tank 5 be installed. will be.

As shown in Figures 2 and 3, the precipitation section 3 is the inclined plate of the precipitation section 3 installed in the rear end after the high concentration of the wastewater reacts first at the front end of the high load reaction tank (2) The sludge of the treated water firstly treated by (31) is removed to purify and discharge the wastewater at low concentration.

In addition, the action of the inclined plate 31 of the precipitation unit 3 is the primary treatment water while raising the respective inclined pieces 311 of the inclined plate 31 from the bottom surface of the high load reaction tank (2) to the top. While the sludge is removed is to move to the drainage channel 32 is installed lower than the end of the inclined piece (311).

At this time, the upper end of the inclined plate 31 serves as a ware to prevent the sludge from flowing into the drain 32.

4 is another embodiment, the basic configuration and operation of the treatment device is the same, but does not install the immersion portion 3 in the high load reaction tank (2), the middle of the sludge removal role performed by the settling portion (3) The sedimentation tank (8) is installed separately to transfer the low concentration wastewater, which is the treated water primarily treated in the high load reaction tank (2), to the low load reaction tank (4).

In order to operate the processing device as described above, it would be desirable to install an external circulation passage 9 connected to the inlet pipe 1 of the high load reaction tank 2 in the intermediate settling tank 8.

The present invention has a high load reactor with a slope plate and a low load reactor for the reaction tank installed in the wastewater treatment device, and treats the wastewater with a high concentration by treating the wastewater with a high load reactor after treating the wastewater with a high load reactor. It is possible to reduce the size of the reactor to be treated and to reduce the reaction time of the wastewater, and to provide a wastewater treatment apparatus that can reduce the concentration of nitrogen and phosphorus strengthened below the regulated concentration. It has been applied to minimize the cost of retrofitting the facility and the size of the housing site of the sewage water treatment system, thereby economically reducing the installation cost.

In addition, by installing the inclined plate in the high load reaction tank to remove the sludge which is a role of the final settling tank in the high load reaction tank, there is an effect that can minimize the auxiliary equipment of the wastewater treatment apparatus.

In the above has been shown and described a preferred embodiment according to the present invention, the present invention is not limited to the above-described embodiment, having a common knowledge in the technical field to which the present invention belongs within the scope not departing from the spirit of the present invention Various changes and modifications may be made by the user.

Claims (2)

Inlet pipe (1) into which high concentration wastewater flows, A high load reaction tank (2) provided with a sedimentation unit (3) connected to one side of the inlet pipe (1) to treat the high concentration of wastewater introduced and to remove sludge of the wastewater; A low load reaction tank 4 for secondary treatment of the low concentration sewage water treated first in the high load reaction tank 2, A sedimentation tank 5 connected to the low load reaction tank 4 to remove sludge of the second treated water; High concentration sewage wastewater treatment device, characterized in that the discharge pipe (6) is connected to one side of the settling tank (5) to discharge the treated water from which the sludge is removed. The slant plate 31 of the settling part 3 is arranged with a plurality of inclined pieces 311 spaced apart from each other by a predetermined distance, and the treated water from which sludge is removed by the slanted pieces 311 is moved outwardly. High concentration sewage treatment apparatus, characterized in that consisting of a delivery path (32).