KR101367711B1 - Operating method of submerged membrane bioreactor - Google Patents

Abstract

The present invention relates to a method for advanced treatment of sewage.
The problem to be solved by the present invention is an operation method of the immersion membrane bioreactor that can be effectively advanced even in the case of the advanced treatment of the immersion membrane bioreactor for use in sewage, even if the influent sewage amount is low and the inflow concentration is low To provide.
Solution to the problem is to install a dissolved oxygen concentration meter and a redox potentiometer in the exhalation tank 510, connected to an automatic controller to supply air to the exhalation blower and the membrane cleaning blower when the inflow and sewage concentration of the sewage is low. By controlling the air flow control valve and the circulating gas flow control valve, the dissolved oxygen concentration, the acid reduction potential, and the anaerobic anaerobic operation time are automatically controlled so as to effectively process the altitude.
The effect of the present invention is that even if the amount of influent sewage is low and the inlet concentration is low, it is effectively treated to improve the quality of discharged water and to protect the water environment of the discharged water.

Description

Operating method of submerged membrane bioreactor

The present invention relates to a method for treating sewage, which is subjected to advanced treatment of sewage or wastewater.

Although the present inventors have registered patent "No. 10-1050375, the submerged membrane bioreactor and the sewage treatment method using the same (201.07.13) that are easy to cope with load fluctuations" are devices and methods useful for advanced treatment of sewage and the like, In the treatment method, in particular, for the advanced treatment in which the inflow flow rate of the sewage is very small compared to the capacity of the facility and the inflow concentration is low, the advanced treatment method is provided, so that the apparatus of the present invention can be used. There is a need to provide more ways of operation.

The problem to be solved by the present invention is in the advanced treatment of sewage and the like using the submerged membrane bioreactor, which is easy to cope with the load fluctuations, especially when the inflow of sewage is very small with respect to the capacity of the facility, and the concentration is low, It is to provide an effective method for treating sewage.

In the advanced treatment of sewage and the like using "immersion-type membrane bioreactors that can easily cope with load fluctuations,"

An immersion membrane filter 630 is installed inside the aeration tank 510, and an air diffuser for receiving air from the air blower 550 is installed in the lower part of the membrane filter;

A membrane cleaning air disperser 640 is provided below the membrane filter to receive air from the membrane cleaning blower 620;

On the upper surface of the membrane filter, a blocking cover 650 for collecting air passing through the membrane filter is installed;

A gas circulation pipe 660 is connected to the inlet pipe of the membrane cleaning blower 620 from the blocking cover;

Install a circulating gas amount control valve 680 in the gas circulation pipe, and install an air amount control valve 690 in the blower inlet;

A dissolved oxygen concentration meter (10) and a redox potentiometer (950) are installed in the aerobic tank;

Built-in timer and PLC for operation time control, depending on sewage inflow and inflow concentration

Connecting the redox potentiometer and the dissolved oxygen concentration meter to the automatic controller 30 which inputs each operation mode to program the altitude effectively;

According to the inflow amount of the sewage and the change in the water quality, the operation mode is applied to control the operation time and the blowing amount of the exhalation blower in the automatic controller, and the amount of air or the amount of air supplied to the membrane cleaning blower and the air supply time, Provides a method for treating sewage, characterized in that the sewage treatment in the aerobic tank effectively.

The effect of the present invention is that in the high-level treatment of sewage and the like, even at a low flow rate and low concentration inflow, the effective high-level treatment is possible, and the removal rate of nitrogen and phosphorus is high, which improves the quality of discharged water and preserves the environment of the water system. .

1 is a block diagram of a immersion membrane bioreactor used in the present invention.
2 is an explanatory diagram showing an operating state with respect to inflow sewage and concentration change.
3 is an explanatory diagram for controlling dissolved oxygen concentration and redox potential with respect to inflow sewage and concentration change.
4 is an explanatory diagram showing an operating state when the inflow sewage amount and concentration are extremely low.

1 is a configuration diagram of an immersion membrane bioreactor, showing the configuration of a reaction apparatus used for performing the advanced treatment method according to the present invention. First, the configuration of the reactor will be described. Here, advanced treatment includes tertiary treatment of sewage for compliance with environmental standards related to water pollution in public waters, prevention of eutrophication of closed waters, reuse of treated water, and the like, and treatment of water of the same degree. It means how to get.

An immersion membrane filter 630 is installed inside the aerobic tank 510, and an air diffuser for receiving air from the air blower 550 is installed in the lower part of the aerobic tank 510, and the submerged membrane filter 630 is provided. The membrane cleaning air disperser 640, which receives air from the membrane cleaning blower 620, was installed at the bottom of the).

On the upper surface of the membrane filter (630), a blocking cover (650) for collecting the air passing through the membrane filter is installed;

A gas circulation pipe 660 is installed to be connected to the inlet pipe of the membrane cleaning blower 620 from the blocking cover 650, and a circulating gas amount control valve 680 is installed in the gas circulation pipe 660. At the inlet of the cleaning blower 620, an air amount adjusting valve 690 for adjusting the air intake amount was installed.

A dissolved oxygen concentration meter 10 and a redox potentiometer 950 are installed in the aerobic tank 510; The redox potentiometer 950 and the dissolved oxygen concentration meter 10 are provided in the automatic controller 30 that has a timer for controlling operation time and a programmable logic controller (PLC), and controls an effective altitude treatment according to the sewage inflow and the inflow concentration. Connect to transmit the measurement.

According to the inflow of the sewage and the change in the water quality, each operation mode is applied to control the operation time and the air flow rate of the exhalation blower in the automatic controller, and control the amount of air or the air supply time and the air supply time to the membrane cleaning blower. Thus, the sewage in the exhalation tank 510 was effectively treated.

More detailed description of the present invention is as follows.

2 is an explanatory diagram showing an operating state for the inflow sewage and the concentration change, and shows that the operation in different states according to the inflow sewage and the concentration of the inflow sewage.

In FIG. 2, in the case where sewage flows normally in the A ₂ / O process or the anaerobic activated sludge process, A maintains the dissolved oxygen concentration of the aerobic tank 510 at 2 mg / L, and uses the aerobic tank as a nitrification tank to perform advanced treatment. It is shown.

B is the A ₂ / O process or anaerobic activated sludge process when the amount of sewage inflow is reduced or the inflow concentration is low, reducing the air flow rate by reducing the number of rotation of the exhalation blower 550, at the same time to operate the exhalation blower intermittently, While the air volume control valve of the membrane cleaning blower 620 is intermittently opened and closed, the air is supplied to the aerobic tank 510 and the air is shut off, and the aerobic tank 510 is repeatedly operated in an anaerobic and aerobic state, while nitrogen and phosphorus It shows that the advanced processing to remove the.

Nitrification occurs in the aerobic state, and denitrification occurs in the anaerobic state, which is highly processed.

C decreases the air volume of the exhalation blower 550 or stops the operation of the exhalation blower 550, reduces the amount of opening of the air volume control valve, and reduces the amount of air supplied to the membrane cleaning blower. While maintaining the dissolved oxygen concentration as low as 0.3 ~ 0.5mg / L, it was shown to perform a high-treatment for simultaneous nitrification denitrification.

When the dissolved oxygen concentration is kept low at 0.3 to 0.5 mg / L, the nitrifying bacteria in the aerobic tank 510 nitrify the ammonia nitrogen and convert it into nitrate nitrogen, and at the same time, the denitrifying bacteria denitrate the nitrate nitrogen. Advanced processing is done.

D stops the operation of the exhalation blower 550 and repeats opening / closing the air amount control valve 690 intermittently in the state which reduced the opening degree of the air amount control valve 690 which supplies air to the membrane washing blower 620. While the anaerobic state and the weak aerobic state are repeated in the inside of the aerobic tank 510, the simultaneous nitrification and denitrification is shown to perform the advanced treatment.

Even if the air supply to the membrane cleaning blower 620 is interrupted by reducing the opening degree of the air amount control valve 690 and closing the air amount control valve 690 when intermittently opening and closing the air amount control valve 690.

Since the circulating gas is circulated while being supplied to the membrane cleaning blower 620, the immersion membrane filter 630 is continuously cleaned, thereby preventing contamination or clogging of the membrane.

FIG. 3 is an explanatory diagram of controlling dissolved oxygen concentration and redox potential with respect to inflow sewage and concentration change, and shows the relationship between dissolved oxygen concentration and redox potential in case of simultaneous nitrification and denitrification in the aerobic tank 510. "I" indicates that the dissolved oxygen concentration is kept low at 0.3 to 0.5 mg / L, and "A" indicates that the corresponding redox potential is a specific value of +.

"C" indicates simultaneous nitrification and denitrification, while allowing the anaerobic and aerobic states to be repeated while maintaining a low dissolved oxygen concentration in the aerobic tank 510.

"D" represents a change in the redox potential value corresponding to "C", and indicates that the redox potential value changes to a positive value in an aerobic state and to a negative value in an anaerobic state.

FIG. 4 is an explanatory diagram showing an operating state in the case where the amount of inflow sewage and concentration is extremely low, and when the amount of inflow sewage is smaller and the concentration of inflow sewage is lowered, as shown in FIG. 3, the dissolved oxygen concentration is reduced or anaerobic. While repeating aerobic operation, after a certain period of time while maintaining the anaerobic state, induction of endogenous denitrification and showing the high processing.

Even if the membrane cleaning blower is stopped and the anaerobic state is maintained, the circulating gas is supplied to the membrane cleaning blower, so that the membrane is cleaned and the sewage circulates inside the exhalation tank due to the floating force of the circulating gas, thus maintaining a completely mixed state. The sludge is prevented, and the sewage and microorganisms are effectively contacted, so that endogenous denitrification is achieved.

In FIGS. 2 to 3, although not separately shown in the drawing, when the dissolved oxygen is kept low or treated while repeating the anaerobic aerobic state under low dissolved oxygen concentration conditions, the time required for the advanced treatment, that is, the sewage When the period of processing is discharged after being introduced and discharged is one cycle, and the time required for one cycle is 24 hours, the operation is repeated in the same manner every day, but the last 1 ~ of the first cycle of 24 hours It operates for 2 hours in an aerobic state so that dissolved oxygen concentration may be 1.5 mg / L or more, increasing the activity of microorganisms and suppressing the generation of filamentous bacteria. Here, one cycle is illustrated as 24 hours, but the time may be changed according to a user. When the time of one cycle is changed, the time to operate in aerobic state may be changed according to the ratio.

The effect of dissolved oxygen concentration or redox potential on advanced processing is detailed in the patents exemplified above, and thus will not be described separately in the present invention.

The driving states shown in FIGS. 2 to 4 are respectively inputted to the automatic controller in the operation mode, and when the driver selects an appropriate operation mode according to the inflow amount and the inflow concentration state of the sewage, it is installed in the exhalation tank 510. A dissolved oxygen concentration meter 10, a redox potentiometer 950, a timer built in the automatic controller 30, and a PLC are linked to each other to send a control signal to the exhalation blower 550 and the air flow control valve 690, Automatically control to be in operation state corresponding to selected operation mode.

In addition, if the removal of biological phosphorus is insufficient, when the ratio of 2 to 3 mole is injected to the total phosphorus to remove iron-based coagulant such as iron sulfate or ferric chloride, the total phosphorus removal is performed. At the same time, there is an effect of preventing the blockage (not shown).

10 dissolved oxygen concentration meter
30 Automatic Controller
Unit 510
530 diffuser
Blower for Unit 550
620: membrane cleaning blower
630: membrane filter
640: diffuser device for membrane cleaning
650: blocking cover
660: gas circulation tube
680: circulating gas volume control valve
690: air volume control valve
950 redox potentiometer
1000 membrane filtered water tubing

Claims (5)

An submerged membrane filter 630 is installed inside the exhalation tank 510, and an air diffuser for receiving air from the exhalation blower 550 is installed in the lower part of the exhalation tank;
A membrane cleaning air disperser 640 is provided below the membrane filter to receive air from the membrane cleaning blower 620;
On the upper surface of the membrane filter, a blocking cover 650 for collecting air passing through the membrane filter is installed;
A gas circulation pipe 660 is connected to the inlet pipe of the membrane cleaning blower 620 from the blocking cover;
Install a circulating gas amount control valve 680 in the gas circulation pipe, and install an air amount control valve 690 in the blower inlet;
A dissolved oxygen concentration meter (10) and a redox potentiometer (950) are installed in the aerobic tank;
Built-in timer for operation time control and a programmable logic controller (PLC), and connected to the redox potentiometer and dissolved oxygen concentration meter to the automatic controller 30 to control the altitude processing according to the sewage inflow and inflow concentration to transmit the measured value. In the advanced treatment method of sewage by immersion type membrane bioreactor to say,
According to the inflow of the sewage and the change in the water quality concentration, the automatic controller 30 controls the operation time and the blowing amount of the exhalation blower, and controls the amount of air or air and the air supply time supplied to the membrane cleaning blower, the exhalation tank Sewage is a high altitude treatment method, characterized in that the sewage treatment for 24 hours in one cycle. The method of claim 1,
In the aerobic tank 510, while the aerobic state and anaerobic condition is repeated while the advanced processing, the aerobic blower and membrane cleaning blower to continue the operation to maintain the dissolved oxygen concentration to 1.5mg / L and anaerobic In the state, the air volume control valve (690) is closed, the exhalation blower to stop the operation of the sewage altitude treatment method. The method of claim 1,
In the exhalation tank 510, the advanced treatment of sewage is performed while simultaneously controlling the dissolved oxygen concentration and the redox potential or controlling the dissolved oxygen concentration and the redox potential and the anaerobic repetitive operation period. . The method of claim 3,
The last one to two hours of the 24 hours 1 cycle in the high-altitude treatment, the advanced treatment of sewage, characterized in that the high-level treatment, while controlling the dissolved oxygen concentration 1.5mg / L or more. The method of claim 1,
Injecting a coagulant containing iron into the exhalation tank (510), chemically remove the phosphorus, preventing the clogging of the membrane filter, characterized in that the advanced treatment of sewage.

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