JP3688829B2 - Wastewater treatment equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is related to waste water treatment apparatus.
[0002]
[Prior art]
The wastewater treatment method using a fixed bed, particularly the aerobic filter bed method, is compact and easy to maintain, and thus is often used in small-scale sewage treatment facilities. As a filter bed (aerobic filter bed) used in the aerobic filter bed method, a single-bed type filled with only a filter medium (fixed carrier) such as anthracite is generally used. Then, the filling height of the filter medium was limited to about 2 m, and the upper part could not be used effectively.
[0003]
The two-bed type aerobic filter bed 1 shown in FIG. 3 has improved this point. The two-bed type aerobic filter bed 1 is obtained by filling a plastic contact material 3 having a large porosity above a filter medium 2 such as anthracite, and allows the plastic contact material 3 to hold microorganisms. Thus, a large number of microorganisms are held in the filter bed having the same installation area to improve the processing efficiency.
[0004]
On the other hand, in recent years, removal of nitrogen is often required even in relatively small sewage treatment facilities, and nitrogen is removed by an anaerobic aerobic filter method because maintenance is easy. It is coming.
[0005]
[Problems to be solved by the invention]
However, the conventional filter bed, particularly the aerobic filter bed, is mainly intended to remove SS and BOD components in the pollutant of the influent water. In order to perform sufficient nitrogen removal (nitrification), It was necessary to keep the amount of treated water low. Although it is possible to improve the nitrification rate to some extent by adopting a two-bed type, it is difficult to stably grow a large amount of nitrifying bacteria because BOD oxidizing bacteria and nitrifying bacteria are in a competitive relationship. Therefore, the water flow rate must be about 10 to 20 m ³ / m ² / day, and the facility capacity is about twice that of an aerobic filter bed for removing BOD.
[0006]
On the other hand, in recent years, a floating method that can increase the nitrification ability by using a carrier in which nitrifying bacteria are comprehensively fixed or a carrier that easily adheres to nitrifying bacteria, and can perform nitrification denitrification in a relatively short time. Has been developed.
[0007]
Therefore, an object of the present invention is to provide a filter bed type waste water treatment apparatus capable of improving the nitrification denitrification efficiency while utilizing the characteristics of a compact and high-capacity fixed bed.
[0008]
[Means for Solving the Problems]
To achieve the above object, the waste water treatment apparatus of the present invention includes a raw water tank, the washing sump, anaerobic and filter bed, and the floatation separator, the aerobic filter bed, and a processing water tank this The washing drainage tank stores inflow raw water from the raw water tank and the washing drainage of the aerobic filter bed, and the anaerobic filter bed contains the inflow raw water from the washing drainage tank and the aerobic filter. A portion of the water nitrified in the floor flows in, denitrifies and decomposes organic matter anaerobically, and the pressurized flotation device pressurizes the anaerobic treated water in the anaerobic filter bed The aerobic filter bed is mixed with air-mixed water, and the aerobic filter bed is a filter medium that is an upper carrier floating portion and a fixed carrier in which floating carrier is poured into the water. Aerobic treatment and filtration treatment in the lower filter medium filling part filled with a filter, and washing of the filter medium from the lower part of the carrier floating part. A pipe for draining and returning to the washing drain tank and a pipe for extracting a part of the nitrified water from the lower part of the carrier floating part and circulating it to the anaerobic filter bed, Water that has been subjected to aerobic treatment and filtration treatment in an air filter bed is sent , and in particular, the floating carrier is a carrier in which nitrifying bacteria are entrapped or a carrier to which nitrifying bacteria easily adhere. It is desirable to be.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in more detail with reference to the drawings. 1 and 2, shows one embodiment of a waste water treatment apparatus of the present invention, FIG. 1 is an explanatory view of aerobic basin portion, FIG. 2 is Ru system diagram der of the entire waste water treatment system.
[0010]
The aerobic filter bed 10 includes a filter medium filling part 12 at the bottom of the tank filled with a filter medium 11 that is a fixed carrier such as a lightweight aggregate and anthracite, and water in the upper part of the tank above the filter medium filling part 12. The carrier floating part 13 into which the floating carrier A is charged is provided. A raw water inflow pipe 14 is provided above the carrier floating part 13 and a wedge wire screen 15 for preventing carrier outflow is provided below the carrier floating part 13. A washing drainage pipe 16 is provided, a diffuser pipe 19 connected to the compressor 18 is provided in the filter medium support layer 17 below the filter medium filling part 12, and a treated water discharge pipe 21 is provided below the water collection nozzle 20 at the bottom of the tank. Are provided.
[0011]
As the floating carrier A, a carrier in which nitrifying bacteria are comprehensively fixed or a carrier to which nitrifying bacteria easily adhere is used, and the raw water flowing into the aerobic filter bed 10 from the raw water inflow pipe 14 is transferred to the carrier floating portion 13. It is contacted with the floating carrier A and is nitrified by the nitrifying bacteria carried on the floating carrier A.
[0012]
That is, the raw water flowing into the aerobic filter bed 10 from the raw water inflow pipe 14 is nitrified in the carrier floating part 13, subjected to aerobic treatment and filtration in the filter material filling part 12, and then discharged from the treated water discharge pipe 21. Is done.
[0013]
At this time, aerobic treatment (BOD removal, etc.) in the filter medium filling unit 12 is ensured by continuously introducing air from the diffuser 19 and maintaining the inside of the aerobic filter bed 10 in a predetermined aerobic state. In addition, since the nitrifying bacteria can be stably grown in a large amount in the carrier floating portion 13, the nitrification treatment can be performed in a relatively short time. That is, nitrification can be performed with high treatment efficiency without increasing water resistance by suspending a carrier holding nitrifying bacteria on the upper part of the aerobic filter bed 10 and performing nitrification treatment. Furthermore, the provision of the wedge wire screen 15 in the cleaning drainage discharge pipe 16 can prevent the floating carrier A and the filtering medium 11 from flowing out together with the cleaning drainage when cleaning the filtering medium 11.
[0014]
In addition, since the filter medium filling part 12, the diffuser pipe 19, the water collection nozzle 20, etc. of the tank lower part can employ | adopt the structure similar to the conventional aerobic filter bed, these detailed description is abbreviate | omitted.
[0015]
An example of the waste water treatment apparatus will be described with reference to FIG. 2. From the upstream side of the flow of treated raw water, a raw water tank 30 having a screen 30a, a washing drain tank 31 for storing raw water and washing waste water, an anaerobic filter bed 32, and pressurized floating The separation device 33, the aerobic filter bed 34, and the treated water tank 35 are arranged in this order. Inflow raw water is supplied from the raw water tank 30 to the anaerobic filter bed 32 through the washing drain tank 31, and this anaerobic filter bed. After being anaerobically treated at 32, it is floated at the pressurized flotation separator 33, further aerobically treated at the aerobic filter bed 34, and then sent to the treated water tank 35. The aerobic filter bed 34 corresponds to the aerobic filter bed 10 of FIG .
[0016]
The anaerobic filter bed 32 is of a type in which the lower part is a sludge sedimentation part and the upper part is filled with a contact material, and the inflow raw water from the washing drainage tank 31 is extracted from the middle stage of the aerobic filter bed 34. In addition to the nitrifying liquid circulated through the pipe 36, the sludge precipitated in the lower part of the anaerobic filter bed 32 is supplied so as to be stirred. In the anaerobic filter bed 32, denitrification and anaerobic decomposition of organic substances are mainly performed. In addition, the anaerobic filter bed 32 does not perform sludge extraction and filter bed cleaning as a general rule, and maintains sludge in the filter bed for as long as possible, thereby promoting sludge decomposition and reducing the weight. it can. The anaerobic filter bed 32 is provided with an air diffuser 32a for preventing the inside of the filter bed from becoming excessively anaerobic.
[0017]
The water treated in the anaerobic filter bed 32 is sent to the pressurized levitation separator 33 including the sludge that leaks, and mixed with the pressurized air mixed water supplied from the pipe 37 and flows into the tank. Suspended components in the water float as floating sludge (floss) in the upper part of the tank by the action of fine bubbles generated from the pressurized air mixed water, and are scraped off by the scraper 33a and sent to the sludge storage tank 38.
[0018]
The water that has been floated by the pressure floating separator 33 is sent through the raw water inflow pipe 14 to the aerobic filter bed 34 having the carrier floating portion 13 in which the carrier holding nitrifying bacteria floats as described above. In the aerobic filter bed 34, a part of the water (nitrification liquid) nitrified in the upper carrier floating part 13 is extracted from the lower part of the carrier floating part 13 to the washing drainage discharge pipe 16 via the wedge wire screen 15. Then, the water extracted from the pipe 36 by the pump 36P and circulated to the anaerobic filter bed 32 is sent to the treated water tank 35 through the treated water discharge pipe 21 from the treated water discharge pipe 21. .
[0019]
The sludge generated in the aerobic filter bed 34 is returned to the cleaning drainage tank 31 through the cleaning drainage discharge pipe 16 and the piping 39 together with the cleaning drainage, and introduced into the anaerobic filter bed 32 together with the raw water to reduce the amount. Processing is performed by the pressure levitation separator 33. Therefore, in a normal operation state, the generation site of sludge can be limited to the pressurized flotation separation device 33.
[0020]
As described above, anaerobic aerobic treatment is performed by combining the anaerobic filter bed 32, the pressurized flotation separation device 33, and the aerobic filter bed 34 having the carrier floating portion 13, thereby enabling even a relatively small-scale wastewater treatment facility. Efficient nitrogen removal can be performed in a stable state. In particular, by using the pressurized flotation separation device 33, the amount of the suspended component of the treated water sent to the aerobic filter bed 34 can be reduced, and the treatment efficiency of the aerobic filter bed 34 can be improved. Moreover, since the surplus sludge generation | occurrence | production location can be unified to the pressurization flotation separation apparatus 33, the process of sludge becomes easy. Furthermore, anaerobic treatment can be reliably performed in a stable state by providing an air diffuser 32a on the anaerobic filter bed 32 to adjust the anaerobic degree in the filter bed.
[0021]
Incidentally, Oite wastewater treatment apparatus of the present invention, fungi is retained on the carrier can be selected appropriately in accordance with processing purposes. Further, the equipment configuration in the anaerobic / aerobic process is not limited to the above-described embodiment.
[0022]
【The invention's effect】
As described above, according to the waste water treatment apparatus of the present invention, it is possible to significantly improve the processing efficiency, it becomes possible to perform a high degree of processing in small under wastewater treatment facility.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an example of an aerobic filter bed applied to a wastewater treatment apparatus of the present invention.
FIG. 2 is a system diagram showing one embodiment of the waste water treatment apparatus of the present invention.
FIG. 3 is an explanatory view showing an example of a conventional aerobic filter bed.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Aerobic filter bed, 11 ... Filter medium, 12 ... Filter medium filling part, 13 ... Carrier floating part, 14 ... Raw water inflow pipe, 15 ... Wedge wire screen, 16 ... Washing drain discharge pipe, 17 ... Filter medium support layer, 18 ... Compressor, 19 ... Aeration pipe, 20 ... Water collection nozzle, 21 ... Treated water discharge pipe, 30 ... Raw water tank, 31 ... Washing drain tank, 32 ... Anaerobic filter bed, 33 ... Pressurized floating separator, 34 ... Aerobic Filter bed, 35 ... treated water tank, 38 ... sludge storage tank, A ... floating carrier

Claims (2)

And the raw water tank, the washing sump, anaerobic and filter bed, and the floatation separator, the aerobic filter bed, and a processing water tank arranged in this order,
The washing drainage tank stores inflow raw water from the raw water tank and washing drainage of the aerobic filter bed,
In the anaerobic filter bed, inflow raw water from the washing drainage tank and a part of the water nitrified in the aerobic filter bed flow, denitrification and anaerobic decomposition of organic matter,
The pressurized flotation separation device is a flotation treatment by mixing water that has been anaerobically treated with the anaerobic filter bed with pressurized air mixed water,
The aerobic filter bed is aerobic using water floated by the pressurized flotation separation device in an upper carrier floating part into which floating carrier is put in water and in a lower filter medium filling part filled with a filter medium as a fixed carrier. The anaerobic by extracting a part of the nitrified water from the piping and the lower part of the carrier floating part which is treated and filtered, drains the washing waste water of the filter medium from the lower part of the carrier floating part and returns to the washing drainage tank Equipped with piping to circulate through the filter bed,
The wastewater treatment apparatus , wherein the treated water tank is supplied with water that has been aerobically treated and filtered in the aerobic filter bed . 2. The waste water treatment apparatus according to claim 1, wherein the floating carrier is a carrier in which nitrifying bacteria are comprehensively fixed or a carrier to which nitrifying bacteria easily adhere .

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