JP4850015B2 - Outside-tank membrane separation activated sludge method - Google Patents

Description

  The present invention relates to an outside tank type membrane separation activated sludge method used for treating various organic wastewater such as sewage, return water, industrial wastewater, waste leachate, human waste, agricultural wastewater, livestock wastewater and aquaculture wastewater. In particular, the present invention relates to the handling of backwash wastewater generated when backwashing a separation membrane installed outside the tank.

  As an organic wastewater treatment method as described above, an activated sludge method in which treatment with microorganisms is performed in a biological treatment tank is common. The water in the biological treatment tank is subjected to solid-liquid separation by gravity sedimentation in the final sedimentation tank, and the supernatant water is taken out as treated water. However, since this method requires a long time for gravity sedimentation, a wide final sedimentation basin must be installed. Therefore, a membrane separation activated sludge method in which the final sedimentation basin is replaced with a separation membrane is becoming widespread.

  This membrane separation activated sludge method has a membrane installed activated sludge method in which the separation membrane is immersed in the tank and the water in the tank is directly filtered, and a separation membrane is installed outside the tank to circulate the water in the tank. It is roughly classified into an outside tank type activated membrane separation activated sludge method. Among these, in the membrane separation activated sludge method installed in the tank, since the separation membrane is immersed in the biological tank, particles near the membrane pore diameter (membrane surface blocking substance) trapped on the membrane surface are removed from the biological reaction tank to the outside of the tank. Can not be removed. For this reason, there existed a problem that it was difficult to ensure the stability of membrane filtration performance.

  On the other hand, in the membrane separation activated sludge method installed outside the tank, when the membrane surface clogging material accumulates on the separation membrane, it can be removed by backwashing, but this backwash wastewater is returned to the biological reaction tank for reprocessing. Is normal. The membrane surface blocking substance in the backwash drainage may be in the form of pellets, but when it is returned to the biological reaction tank, it is disassembled by aeration and agitation and returns to the original particles.

  Part of the membrane surface clogging material returned to the biological reaction tank is taken up by the activated sludge floc, but the amount of membrane surface clogging material taken up by the activated sludge floc decreases in winter when sludge activity decreases, The amount of membrane surface blocking substance in the reaction vessel increases. For these reasons, when the backwash wastewater is returned to the biological reaction tank, it is difficult to ensure the stability of the membrane filtration performance as in the case of the in-tank membrane separation activated sludge method.

Therefore, as shown in Patent Document 1, it has been proposed to discharge the backwash waste water from the separation membrane installed outside the tank to the outside. However, in this method, the MLSS concentration in the biological reaction tank is too low, and There is a possibility that the activity may be lowered, and another waste water treatment facility is required to treat the backwash waste water discharged to the outside, which is not practical.
JP 2004-249235 A

  The present invention solves the above-described conventional problems, does not excessively reduce the MLSS concentration in the biological reaction tank, does not require a separate wastewater treatment facility for backwash wastewater, and further does not require a separation membrane. It was made in order to provide the outside tank installation type membrane separation activated sludge method which can ensure the stability of membrane filtration performance.

  The present invention made in order to solve the above-mentioned problem is a separation membrane in an outside tank type membrane separation activated sludge method in which the in-vessel water of a biological reaction tank is circulated through a separation membrane installed outside the tank and filtrate is taken out. Backwash wastewater containing membrane surface clogging material generated by backwashing is treated with ozone to make the membrane surface clogging material fine or easy to be taken into activated sludge flocs and returned to the biological reaction tank. It is characterized by this.

  According to the present invention, the backwash waste water is treated with ozone to refine the membrane surface blocking substance, so that the membrane surface blocking material returned to the biological reaction tank becomes fine particles that do not block the membrane surface and again blocks the membrane surface. There is nothing. Therefore, the amount of the membrane surface blocking substance in the biological reaction tank does not increase as in the prior art, and the stability of the membrane filtration performance of the separation membrane can be ensured. Moreover, since the entire amount of backwash wastewater can be returned to the biological reaction tank, no separate wastewater treatment facility is required for backwash wastewater, and the backwash wastewater is not discharged to the outside, so the MLSS concentration in the bioreaction tank is reduced. Biological activity can be maintained without being excessively reduced. In addition, when a treatment process that includes biological dephosphorization, such as anaerobic anaerobic anaerobic method, is selected for the biological reaction tank, the wastewater treated with ozone is returned to the anaerobic tank for biological dephosphorization. Necessary organic substances can be supplied, and biological dephosphorization can be stabilized.

Preferred embodiments of the present invention are shown below.
In FIG. 1, reference numeral 1 denotes a biological reaction tank, in which raw water which is organic wastewater, for example, sewage, is treated with activated sludge by an aerobic microorganism as in the prior art. Reference numeral 2 denotes a separation membrane installed outside the biological reaction tank 1, and water in the tank of the biological reaction tank 1 is supplied to the primary side by a circulation pump 3 and membrane filtered. In this embodiment, cross-flow filtration is performed, and the membrane filtrate that has permeated the membrane surface to the secondary side is taken out as treated water to the treated water tank 4, and the concentrated water is returned from the end on the primary side. It returns to the biological reaction tank 1 through the pipe line 5.

  The type of the separation membrane 2 is an MF membrane or a UF membrane, and the material thereof may be ceramic or polymer. The membrane shape may be any of a monolith membrane, a tubular membrane, a flat membrane, and a hollow fiber membrane, and the pressurization method may be either an internal pressure type or an external pressure type. In the case of a monolithic membrane or a tubular membrane, it is preferable that the flow path on the primary side has a circular cross section or a polygon that is a quadrangle or more. In this embodiment, a ceramic monolith membrane manufactured by the applicant company is used as the separation membrane 2. This membrane is an MF membrane in which a large number of channels having a circular cross section are formed inside the ceramic porous body, and the peripheral surface of each channel is a membrane surface having a membrane pore diameter of 0.1 μm.

  If such a separation membrane 2 installed outside the tank is used, the solid-liquid separation of the water in the biological reaction tank 1 can be easily performed, and the entire apparatus can be downsized as compared with the conventional final sedimentation tank. be able to. However, since the activated sludge and the solid content in the water in the tank accumulate on the membrane surface of the separation membrane 2, the circulation pump 3 is stopped periodically or when the membrane differential pressure rises, and the treated water is discharged from the treated water tank 4. The backwash pump 6 drives the secondary side of the separation membrane 2 to backwash the membrane surface. The frequency of backwashing varies greatly depending on the properties of the raw water, but is preferably about once every 10 minutes when the raw water is highly contaminated, and about once every 3 hours when the raw water is dirty.

  The backwash drainage generated by this backwash is discharged to the backwash drain tank 7. This backwash drainage contains activated sludge and membrane surface blocking substances that have been separated from the membrane surface. Conventionally, the backwash wastewater is returned to the biological reaction tank 1 as it is, but in the present invention, ozone is supplied from the ozone supply device 8 into the backwash wastewater to perform ozone treatment.

Ozone is a gas with strong oxidizing power and has the effect of destroying and decomposing organic matter. For this reason, the membrane surface blocking substance in the backwash waste water can be refined to make fine particles smaller than the membrane pore diameter of the separation membrane 2. For the ozone treatment for this purpose, it is sufficient to supply a small amount of ozone as compared with the ozone treatment for the purpose of sterilization and sludge reduction, and the running cost is low. Specifically, the supply amount of ozone is preferably about 20 to 100 mgO ₃ / L per backwash wastewater amount. In this embodiment, ozone is directly supplied to the backwash drainage tank 7, but it goes without saying that ozone treatment means may be provided separately.

  The ozone-washed backwash waste water is returned to the biological reaction tank 1 by the return pump 9. The membrane surface blocking substance in the vicinity of the membrane pore diameter by ozone treatment becomes fine particles smaller than the membrane pore diameter or becomes a substance that is easily taken into the activated sludge floc by surface modification. The amount of the membrane surface blocking substance composed of particles in the vicinity of the membrane pore diameter does not increase. Therefore, according to the present invention, the membrane filtration performance of the separation membrane 2 is not rapidly reduced, and stable filtration is possible over a long period of time.

Moreover, according to the present invention, the backwash waste water is returned to the biological reaction tank 1 without being discharged out of the system, so that the MLSS concentration in the biological reaction tank 1 does not decrease and the biological activity of the biological reaction tank 1 is stably maintained. can do. Further, it is not necessary to provide a separate processing device for processing the backwash waste water.
Examples of the present invention are shown below.

  Using the treatment apparatus shown in FIG. 1, the activated sludge treatment of sewage was performed. The MLSS concentration in the biological reaction tank was 10,000 mg / L. The separation membrane is a monolithic ceramic membrane manufactured by the applicant company, and the membrane pore diameter is 0.1 μm. Cross flow filtration was performed by circulating water in the biological reaction tank, and membrane filtrate was taken out as treated water.

The separation membrane was back-washed by stopping the filtration operation every hour. Backwash drainage containing membrane surface blocking substances was collected in a backwash drainage tank, and ozone treatment was performed by blowing ozone. The ozone supply amount is 100 mg O ₃ / L per backwash waste water amount. The entire amount of ozone-washed backwash wastewater was returned to the biological reaction tank.

  When the ozone treatment is not performed (conventional example) and the ozone treatment is performed (example), the properties of the treated water are the same, but in the conventional example, the membrane filtration flux of the separation membrane is 2. While it was 0 m / day, it was 2.4 m / day in the examples, and it was confirmed that the membrane filtration performance was greatly improved by the ozone treatment. In addition, the MLSS concentration in the bioreactor remained at 10000 mg / L and did not decrease.

Next, the influence of the separation membrane on the membrane filtration flux was examined by changing the amount of ozone supplied to the backwash wastewater. The ozone supply amount is 20 mg O ₃ / L per backwash waste water amount. The entire amount of ozone-washed backwash wastewater was returned to the biological reaction tank. In the conventional example, the membrane filtration flux of the separation membrane was 2.0 m / day, whereas in the example, it was 2.4 m / day, confirming that the membrane filtration performance was greatly improved by ozone treatment. It was. As described above, it was confirmed that the membrane filtration performance could be improved with a small amount of ozone.

It is explanatory drawing which shows embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Biological reaction tank 2 Separation membrane 3 Circulation pump 4 Treated water tank 5 Return pipe 6 Backwash pump 7 Backwash drainage tank 8 Ozone supply apparatus

Claims (2)

  Including the membrane surface clogging material generated by backwashing the separation membrane in the membrane separation activated sludge method outside the tank, which circulates the in-vessel water of the biological reaction tank to the separation membrane installed outside the tank and takes out the filtrate. An outside tank type membrane separation activated sludge method characterized in that backwash wastewater is treated with ozone and then returned to the biological reaction tank.   The membrane separation activated sludge method according to claim 1, wherein the membrane surface blocking substance is made finer than the pore size of the separation membrane by ozone treatment.

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