KR0138021B1 - Biological waste water treatment equipment and method by using aerobic and anaerobic microorganism - Google Patents

Abstract

[Objective] The treatment of sewage and wastewater is easy, economical and efficient by operating the anaerobic treatment method, which is a high concentration wastewater treatment method, and the aerobic treatment method, which is a low concentration sewage and wastewater treatment method.

In the biological treatment of organic sewage and wastewater, an anaerobic treatment tank (1) for anaerobic treatment, an aerobic contact tank (2) for aerobic treatment, and a precipitation tank (8) for solid-liquid separation are bioreactors. The biological sewage and wastewater treatment system using anaerobic and aerobic microorganisms installed in the upper and lower parts of the reactor, and the anaerobic treatment tank installed in the lower part of the bioreactor, are subjected to anaerobic treatment for influent, and anaerobic treatment in the upper aerobic contact tank. Aerobic treatment is performed for the treated water which has risen.

Description

Biological sewage and wastewater treatment system using anaerobic and aerobic microorganisms and its treatment method

1 is a conceptual diagram of a biological sewage and wastewater treatment apparatus according to the present invention.

2 is a plan view of a portion of the influent distribution device cut away.

3 is a perspective view of a microorganism separation device.

* Explanation of symbols for main parts of the drawings

1: Anaerobic Treatment Tank 2: Aerobic Contact Tank

3: inlet pipe 4: influent water distribution device

5: sludge removal tube 6: microorganism separation device

7: media support 8: sedimentation tank

9: sedimentation tank separator 10: outlet pipe

11: recirculation pipe 12: diffuser

a: media

The present invention relates to an apparatus for biologically treating various organic industrial wastewater or urban sewage, and a method for more efficiently treating sewage and wastewater using the same, particularly anaerobic treatment method and high concentration wastewater treatment method. The present invention relates to a sewage and wastewater treatment apparatus and a method of treating the sewage and wastewater that can be easily, economically and efficiently operated using an aerobic treatment method, which is a sewage and wastewater treatment method.

In general, anaerobic treatment method, which is a high concentration wastewater treatment method, is a biological treatment method that can be efficiently processed under high load using anaerobic microorganisms of high temperature (53 to 57 ° C), medium temperature (33 to 37 ° C), or low temperature (20 to 25 ° C). to be. Treatment characteristics according to temperature are the highest organic decomposition rate of high temperature anaerobic digestion using high temperature anaerobic microorganism, followed by middle temperature anaerobic digestion using middle temperature anaerobic microorganism, and low temperature anaerobic digestion using low temperature anaerobic microorganism is higher than any of the above methods. It is known to be the slowest.

In the case of high concentration wastewater treatment using anaerobic method, considering only the decomposition rate of organic matter, using high temperature anaerobic digestion method can be considered as the most efficient. Since the influent has to be raised to 53 ~ 57 ℃, excessive energy is required and the economy is low. Pointed out. In addition, high temperature anaerobic microorganisms are sensitive to external operating conditions, such as pH, and thus have difficulty managing microorganisms.

Currently, the most commonly used anaerobic digestion method is a moderate temperature anaerobic digestion method with an appropriate temperature of 33 to 37 ° C, and its range of application is gradually increasing. Anaerobic treatment has a number of advantages over aerobic treatment, which can remove organic matter with high efficiency, even at high organic loads, and rarely generates excess sludge. In particular, in the anaerobic treatment of high concentration wastewater, methane gas generated in the anaerobic treatment can be used as the energy used to raise the temperature of the influent and can be treated without additional energy.

However, when the medium temperature anaerobic digestion method is used for the low concentration wastewater treatment such as sewage, the generation of excess sludge is insignificant, but the gas generated is low because the influent is low, so the energy source necessary for warming the influent cannot be replaced with the generated gas. Uneconomical

Recently, researches are being actively conducted to apply low temperature anaerobic digestion to sewage treatment. When the low temperature anaerobic digestion method is applied to sewage treatment, the removal rate of organic matter is slightly lower than that of the medium temperature anaerobic digestion method, but economical treatment is possible without additional supply of energy. In addition, less sludge is generated, which reduces the cost of sludge treatment.

In spite of these advantages, the reason why the anaerobic treatment process was not actively applied to low concentration wastewater treatment such as sewage is that anaerobic digestion tank and aerobic treatment tank are generally separated. Compared to the sewage treatment process, the process itself is more complicated, the initial investment costs are enormous, and operation of the treatment facility is inconvenient.

Accordingly, an object of the present invention is to provide a sewage and wastewater treatment apparatus which is simple in process and low in initial investment and easy to operate, and a method for efficiently treating sewage and wastewater using the apparatus.

The present invention is a sewage and wastewater treatment apparatus using anaerobic and aerobic microorganisms, in order to simplify the process, the lower portion of the reaction tank to the anaerobic treatment tank and the upper side, less sludge occurs in the aerobic treatment method, the sludge swelling phenomenon, etc. Its main feature is that it consists of aerobic contacting tanks which do not occur.

The bioreactor is divided into three parts so that the remaining part is about the same volume, and the lower part is anaerobic treatment tank, the middle part is anaerobic microorganism separation tank, and the upper part is aerobic contact tank.

The concentration of microorganisms in the anaerobic treatment tank is 20,000 to 30,000 mg / l, based on the total solids in normal operation. In the early seeding of anaerobic microorganisms, anaerobic microorganisms activated in a medium temperature anaerobic digester are used.

At this time, the microbial seeding amount is determined by measuring the concentration of the total solids of the anaerobic digester. In the early stage of planting, due to a sudden temperature change, anaerobic microorganisms do not adapt to the surrounding environment, so that organic decomposition is not performed properly, but after a period of 10 days, normal organic decomposition starts to occur. Gases such as methane and carbon dioxide generated in this process are released to the outside.

In addition, the aerobic contact tank is filled with a medium having excellent microbial adhesion ability to secure a large amount of immobilized aerobic microorganisms. In addition, the acid pipe installed directly under the aerobic contacting tank promotes the smooth supply of oxygen to the aerobic microorganisms attached to the media, thereby promoting the decomposition of organic matter by the microorganisms.

Here, the seeding of the microorganisms uses 30 microorganisms of the aerobic contacting tank by using the microorganisms of the activated sludge, and when abandoned continuously after the initial seeding, the aerobic microorganisms are gradually attached to the surface of the media.

The sewage and wastewater distributed through the inlet pipe through the inlet distribution system undergoes anaerobic reaction during the anaerobic treatment tank, where organic matter is decomposed, and digested gas generated during the decomposition of organic matter is injured.

While digestive gases are floating, there is a possibility that the surrounding microorganisms are simultaneously raised and transported to the aerobic contact tank and then lost to the outside. In order to prevent the loss of anaerobic microorganisms in the anaerobic microbial separation tank located in the middle of the bioreactor, a microbial separator that can separate the generated gas and anaerobic microorganisms is installed.

In addition, in order to prevent stagnation for a long time in the lower part of the anaerobic microorganism separation device which is raised together with the digestive gas, and to facilitate smooth contact between the anaerobic microorganisms and the influent of the anaerobic treatment tank, a recirculation tube is installed directly under the microbiological separation device to inlet water To allow for recycling.

When the sewage and wastewater is treated with the treatment apparatus of the present invention, organic matter in the influent sewage and wastewater is removed through an anaerobic treatment tank, and about 60 to 65% is removed. do. After all of the bioreactors, the total organic removal rate is as high as 90-95%.

Therefore, when only the aerobic treatment process is used when treating sewage and wastewater, a large amount of sludge should be generated and the excess sludge should be periodically removed. However, in the sewage and wastewater treatment according to the present invention, the amount of sludge is extremely small, and thus, It is possible to treat sewage and wastewater with high efficiency without regular removal work.

Next, the present invention will be described in detail.

1 is a schematic cross-sectional view of a biological sewage and wastewater treatment apparatus according to the present invention, wherein the bioreactor is composed of a lower part, an intermediate part, and an upper part. They each account for approximately 30% of the total height of the bioreactor. Here, the lower part is the anaerobic treatment tank 1, the middle part is the anaerobic microorganism separation tank 13, and the upper part is the aerobic contact tank 2. As shown in FIG.

The anaerobic treatment tank 1 has an influent distribution device 4 built therein. The inflow water distribution device 4 distributes sewage and wastewater introduced from the outside to various parts of the anaerobic treatment tank 1, and as shown in FIG. 2, the main body 41 has a distribution pipe 42 extending in all directions. It is attached, the upper end of the main body 41 is connected to the end of the inlet pipe (3), the inlet end of the inlet pipe (3) is in communication with the outside of the bioreactor.

In addition, the bottom 14 of the anaerobic treatment tank 1 is formed in a funnel so that the sludge to be settled is collected in one place, and the sludge removal pipe 5 is installed at the lowest place among them.

The inlet pipe (3) is introduced into the sewage, wastewater from which the contaminants are removed. The sewage and wastewater are dispersed in all directions in the anaerobic treatment tank 1 via the distribution pipe 42 of the inflow water distribution device 4 immediately after being introduced, and after being dispersed, organic matter is decomposed by anaerobic microorganisms.

Anaerobic decomposition refers to a process in which organic matter is converted to carbon dioxide and methane by microorganisms in an environment where molecular oxygen is not present. This decomposition process consists of three steps: hydrolysis step, organic acid generation step and methane production step.

The anaerobic treatment removes 60-65% of the organics from the imported organics. The sewage in which the organic matter is reduced in this way gradually rises to reach the aerobic contact tank 2. In the aerobic contacting tank (2), the removal of residual organic matter is performed by the aerobic microorganisms attached to the surface of the filling media (a).

When organic matter is decomposed in the anaerobic treatment tank 1, digestion gases such as methane (CH ₄ ) and carbon dioxide (CO ₂ ) are generated, and these digestion gases rise upward.

The anaerobic microorganism separation device 16 is installed in the anaerobic microorganism separation tank 13. As shown in FIG. 3, the separator 6 attaches two plates in a 's' shape or folds one sheet in such a shape so that the collected gas is easily collected in one place. While the digestion gas is rising to the upper side, the surrounding microorganisms may simultaneously rise and be lost to the outside after being transferred to the aerobic contact tank. The microbial separation device 6 is to prevent the loss of anaerobic microorganisms in consideration of this point, and separates the generated gas and anaerobic microorganisms.

The separated gas is discharged to the outside after exiting through the through-hole 61 of the ceiling of the separator 6, and in this process, the microorganism separated from the gas is precipitated in the anaerobic treatment tank (1).

The media a is provided in the aerobic contacting tank 2, and the diffuser 12 is disposed directly under the aerobic contacting tank 2. The media a is fixed on the media support 7. The media (a) is filled in order to secure a large amount of immobilized aerobic microorganisms, it is excellent in microbial adhesion ability. Helping the activity of aerobic microorganisms is because oxygen can be smoothly supplied to the aerobic microorganisms attached to the media (a).

The seeding of microorganisms is based on 30 to 40% by volume of aerobic contacting tanks (2) using activated microorganisms. When abandoned continuously after initial seeding, suspended aerobic microorganisms gradually adhere to the surface of media (a). do.

In addition, the anaerobic microorganisms raised together with the digestion gas is prevented from stagnating for a long time in the lower part of the microbial separator 6, and at the same time, the microbial separator 6 for smooth contact between the anaerobic microorganism and the influent of the anaerobic treatment tank 1 Directly below is a recirculation pipe (11) for recirculating the primary treated water that has risen through the anaerobic treatment tank (1).

The final treated water undergoing anaerobic and aerobic treatment is discharged to the outlet pipe 10 only after the liquid is separated from the settling tank 8 installed on the upper part of the bioreactor. The settling tank separator 9 is installed between the aerobic treatment tank 3 and the settling tank 8 in order to minimize the flow of microorganisms in the aerobic contacting tank 2 to the settling tank 8.

In the treatment of the sewage and wastewater treatment apparatus of the present invention, the amount of anaerobic microorganisms of the anaerobic treatment tank 1 does not change significantly over time, so it is not necessary to remove the excess sludge, but the deterioration of activity over time is a concern. It is good to regularly remove 5 to 10% by volume of the anaerobic treatment tank 1 through the sludge removal tube 5 about once every 3 to 4 months.

Claims (8)

In an apparatus for biologically treating organic sewage and wastewater, an anaerobic treatment tank (1) for anaerobic treatment, an aerobic contact tank (2) for aerobic treatment, and a sedimentation tank (8) for solid-liquid separation are installed above and below the bioreactor. Biological sewage and wastewater treatment apparatus using anaerobic and aerobic microorganism, characterized in that one. The apparatus for treating biological sewage and wastewater using anaerobic and aerobic microorganisms according to claim 1, wherein the anaerobic treatment tank (1) secures a large amount of anaerobic microorganisms to decompose and remove organic matter. The biological sewage / wastewater treatment apparatus using anaerobic and aerobic microorganisms according to claim 2, wherein an inflow water distribution device (4) is provided in the anaerobic treatment tank (1) to disperse the incoming sewage and wastewater in a diagonal direction. The apparatus for treating biological sewage and wastewater using anaerobic and aerobic microorganisms according to claim 1, wherein the aerobic contacting tank (2) fills the media (a) therein to secure a high concentration of aerobic microorganisms to remove residual organic matter. The method according to claim 1, wherein a microbial separation device 6 is provided between the anaerobic treatment tank 1 and the aerobic contacting tank 2 so as to separate the rising gas from the anaerobic microorganisms. Sewage and Wastewater Treatment System. The anaerobic treatment tank installed in the lower part of the bioreactor is subjected to anaerobic treatment of influent, and the aerobic contact tank installed in the upper part is subjected to aerobic treatment for the treated water which has risen through anaerobic treatment, using anaerobic and aerobic microorganisms. Biological sewage treatment method. The method for treating biological sewage and wastewater using anaerobic and aerobic microorganisms according to claim 6, wherein the anaerobic treatment tank is seeded with activated anaerobic microorganisms of a general anaerobic digester. 8. The biological sewage and wastewater treatment of anaerobic and aerobic microorganisms according to claim 6, wherein the aerobic microorganisms for securing a large amount of aerobic microorganisms immobilized in the aerobic contacting tank are planted and air is continuously supplied to smoothly attach the microorganisms to the surface of the filled media. Way.