KR20020079029A - A zero-sludge -discharging membrane bioreactor(Z-MBR) activated sludge process - Google Patents

Abstract

PURPOSE: A sewage/wastewater treatment process for sludge reduction using membrane bio reactor is provided, which is characterized in that sludge produced from sewage/wastewater treatment process is oxidized by ozone, and used as substrate for microorganism. Therefore waste sludge is not discharged. CONSTITUTION: The process comprises (a) biological treatment of sewage/wastewater using anaerobic and aerobic microorganism; (b) solid/liquid separation of treated water biologically using membrane; (c) solubilization of sludge produced from biological process by using ozone; and (d) treating soluble sludge again by injecting into the biological treatment process.

Description

Sludge-free wastewater treatment process using membrane separation activated sludge method {A zero-sludge -discharging membrane bioreactor (Z-MBR) activated sludge process}

The present invention relates to a wastewater treatment process using microorganisms, and more particularly, to a wastewater treatment process using a sludge-free membrane separation activated sludge method. The present invention is characterized by decomposing and solubilizing the waste sludge generated in the wastewater treatment process by the oxidizing power of ozone and using it as a substrate of the microorganism, ultimately blocking waste sludge from being discharged to the outside of the treatment system. .

The membrane separation activated sludge process, which is widely used for treating wastewater such as municipal sewage, livestock wastewater and organic factory wastewater, is shown in FIG. 1, and the organic matter removal principle by biological treatment and solid-liquid separation by membrane filtration Membrane Separation), the solid-liquid separation is performed by the separation membrane, it is characterized in that the activated sludge concentration in the aeration tank can be maintained high regardless of the sedimentation of the sludge. Therefore, the membrane separation activated sludge process can be operated even at high concentrations of mixed liquor suspended solids (MLSS), which is difficult to separate from sedimentation, compared to conventional activated sludge processes that do not use a membrane. It is widely used in sewage water treatment because it is easy to operate a bioreactor, there is no problem of sludge bulking since it does not include a sedimentation tank, and lighting is easy to operate automatically.

In particular, recently, a modified membrane separation activated sludge method has been developed to remove a causative agent of eutrophication, and a typical modified membrane separation activated sludge method is to induce nitrification and denitrification by repeating aerobic and anoxic conditions in a bioreactor. There are intermittent aeration membrane separation activated sludge processes and AO and A2O processes (Anaerobic / Anoxic / Oxic Process) combined with membrane separation.

However, the conventional membrane separation activated sludge and its modified method, despite the above-mentioned advantages, maintain the microbial activity in the bioreactor and simultaneously prevent the contamination of the filtration membrane, so that more than an appropriate amount of microorganisms, or waste sludge, are discharged out of the treatment system. Since it should be, there was a disadvantage that waste sludge is generated. That is, as shown in Figure 1, in the method of treating wastewater using microorganisms, including membrane separation activated sludge method, some of the sludge should be disposed in order to properly maintain the microorganisms in the bioreactor, generally waste Sludge has been a costly problem due to the process of concentration, digestion, dehydration and landfill. In particular, the recent revision of the relevant law is expected to prohibit the direct reclamation of sludge, so new measures for the treatment of waste sludge are urgently needed.

In order to solve the above problems, by using the process characteristics of the membrane separation activated sludge method using membrane filtration instead of the sedimentation tank, by maintaining a solid concentration in the biological reaction tank and limiting the solid retention time (SRT) The process of reducing waste sludge is performed by the method of inducing the reoxidation of microorganisms. However, as described above, the method of reducing waste sludge by induction of refining may not be a long-term and fundamental problem solving solution as long as the activity of the microorganism is a major factor in the treatment process using the microorganism.

The present invention is to solve the above problems, an object of the present invention is to provide a wastewater treatment process that does not generate waste sludge without affecting the activity of the microorganism which is a major factor in the wastewater treatment using microorganisms. It is.

That is, an object of the present invention is to maintain the advantages of the membrane separation activated sludge process which has excellent effluent quality and easy operation in the biological treatment of wastewater, while at the same time blocking the discharge of waste sludge out of the wastewater treatment system. This is to reduce the enormous costs required for waste sludge treatment, such as sludge landfill or incineration. In addition, secondary pollution such as groundwater pollution or air pollution due to sludge landfill or incineration is prevented.

1 is a schematic diagram of a wastewater treatment process using a conventional membrane separation activated sludge method (Membrane Bioreactor Method).

Figure 2 is a schematic diagram of the sludge-free wastewater treatment process using the membrane separation activated sludge method according to an embodiment of the present invention.

Figure 3 is a schematic diagram showing a nutrient removal advanced treatment process applied to the sludge-free wastewater treatment process using the membrane separation activated sludge method according to the present invention.

In order to achieve the above object, the sludge-free wastewater treatment process using the membrane separation activated sludge method according to the present invention, in the process of treating the wastewater using the membrane separation activated sludge method, anaerobic and aerobic Biological treatment step using a microorganism (a); Membrane separation step (b) of obtaining a treated water by solid-liquid separation using a separation membrane at a later stage of the biological treatment process; (C) solubilizing waste sludge produced from the biological treatment process by decomposing or oxidizing with ozone; And (d) reflowing the solubilized waste sludge into the biological treatment process (a).

In the wastewater treatment process according to the present invention, the step (d) of reflowing the solubilized sludge into the biological treatment step, the biological treatment step (a) is an intermittent state in which the abandoned state and anoxic state are alternately maintained In the case of aeration, the solubilized sludge is introduced into an anoxic biological treatment stage so that the solubilized sludge is used as a carbon source for denitrification.

In the wastewater treatment process according to the present invention, the step (d) of reflowing the solubilized waste sludge into the biological treatment step, the biological treatment step (a) is an AO and A2O process using an anoxic tank and an aerobic tank and When combined, the solubilized sludge is introduced into an anoxic biological treatment stage so that the solubilized sludge is used as a carbon source for denitrification.

Hereinafter, the present invention will be described in more detail with reference to a preferred embodiment of the present invention.

2 is a sludge-free wastewater treatment process using membrane separation activated sludge method which is a preferred embodiment of the present invention. In the bioreactor, the biologically treated treated water is solid-liquid separated by a separator and then the supernatant is recovered. In terms of the membrane separation activated sludge process in terms of loading of wastewater, when a large amount of wastewater flows into the reactor, the wastewater load (Food, F), or F / V, increases with respect to the volume of the wastewater treatment system (Volume, V), In contrast, it can be seen that the load (Food, F), ie, F / M, of the wastewater to the microorganism amount (Microorganism, M) in the treatment device is low. This is because the membrane separation activated sludge process increases the solid-liquid separation efficiency through the separation membrane, so the concentration of microorganisms in the reaction vessel is high. That is, when a relatively large amount of wastewater is introduced compared to the general process, the amount of wastewater to volume is as high as that of the general process, but the amount of wastewater to the microbial amount is smaller than that of the general process. Therefore, it can be seen that in the membrane-separated activated sludge process, even if a larger amount of wastewater is introduced (higher F / V), the amount of wastewater (F / M) is not significantly increased compared to the amount of microorganisms, thereby improving the treatment capacity of the wastewater. .

The present invention, in addition to the effects of the membrane separation activated sludge process as described above, as shown in Figure 2, by providing a separate waste sludge decomposition process, waste sludge decomposed or oxidized to be used as a state of no activity or food for microorganisms It is characterized in that it is converted to a possible organic form and then put into a bioreactor again. The waste sludge is decomposed using ozone, and ozone, which has strong oxidizing power, damages the cell walls of microorganisms in the sludge, kills and elutes the microorganisms, and converts organic materials that are difficult to biodegradable into organic materials capable of biological degradation.

Ozone used for solubilizing the sludge has a strong oxidizing power and a fast reaction rate, so there is almost no residual, and thus it is highly desirable to be combined with a biological treatment process.

As shown in FIG. 3, when the sludge-free wastewater treatment process using the membrane separation activated sludge method according to the present invention is applied to nitrogen and phosphorus removal, solubilized sludge contains a large amount of organic material and thus serves as a carbon source. . Therefore, when the sludge-free wastewater treatment process using the membrane separation activated sludge method according to the present invention, not only waste sludge is discharged, but also the concern that the nutrient removal efficiency is lowered due to lack of carbon source can be avoided. have. When inducing the removal of nitrogen or phosphorus using solubilized sludge, the solubilized sludge can be introduced into an anaerobic bioreactor when biotreatment proceeds by intermittent aeration, AO and A2O processes. have.

When using the sludge-free wastewater treatment process using the membrane separation activated sludge method according to the present invention, while maintaining the advantages of the conventional membrane separation activated sludge method, the activity of the microorganism which is a major factor in the wastewater treatment using microorganisms It is effective to block the generation of waste sludge without affecting.

Therefore, not only the enormous cost required for waste sludge treatment such as sludge landfill or incineration can be reduced, but problems of secondary pollution such as groundwater pollution or air pollution due to sludge landfill or incineration can be prevented.

Claims (3)

In the process of treating sewage water using membrane separation activated sludge method, (A) treating the introduced sewage water with anaerobic and aerobic microorganisms; A membrane separation step (b) of obtaining treated water by solid-liquid separation of the treated water that has undergone the biological treatment using a separation membrane; (C) solubilizing waste sludge produced from the biological treatment process by decomposing or oxidizing with ozone; And And (d) reflowing the solubilized waste sludge into the biological treatment process (a), wherein the sludge-free wastewater treatment process using the membrane separation activated sludge method. The method of claim 1, The step (d) of introducing the solubilized waste sludge into the biological treatment step and reprocessing the solubilized sludge is performed when the biological treatment step (a) is performed in an intermittent aeration method in which the aeration state and the oxygen free state are alternately maintained. A sludge-free wastewater treatment process using a membrane separation activated sludge method, characterized in that the sludge solubilized to be used as a carbon source for denitrification is introduced into an anoxic biological treatment stage. The method of claim 1, The step (d) of reflowing the solubilized sludge into the biological treatment step is performed when the biological treatment step (a) is combined with an AO and A2O process using an anaerobic bath and an aerobic bath. , Solubilizing the solubilized sludge into the biological treatment step of the anaerobic tank so that the solubilized sludge is used as a carbon source for denitrification.