KR100438323B1 - High intergated Biological Nutrient Removal System - Google Patents

Abstract

The present invention relates to a sewage and wastewater treatment method suitable for simultaneously treating organic matter, nitrogen and phosphorus in sewage and wastewater.

It is a process for minimizing the injection of external carbon sources in denitrification and dephosphorization in domestic low concentration sewage and for stable advanced treatment. Sewage and waste water flows into the anaerobic tank, and the fermentation products by hydrolysis and some fermentation reactions in the anaerobic tank are returned to the total denitrification tank, which is an anoxic tank, to be used as an organic source for denitrification, and a part of the return sludge returned from the settling tank is introduced into the anoxic tank. Denitrification minimizes the effect of inhibiting phosphorus release by nitrate nitrogen in the anaerobic tank, which is the next process, and the treated water passing through the anaerobic tank undergoes the denitrification and dephosphorization process through the back anaerobic and aeration tanks, Provides a method for treating sewage and wastewater that is returned to the rear anaerobic tank to accelerate the dephosphorization and denitrification of the treated water and the sludge of the sedimentation tank is returned to the front anaerobic tank connected in series with the anaerobic tank to promote hydrolysis of raw water flowing into the anaerobic tank. In particular, when returning from the aeration tank to the anaerobic tank, the return position can be changed so that denitrification can be carried out. The present invention relates to a water treatment method to allow the internal transport to increase the anoxic tank residence time when the external conditions change, that is, when the denitrification rate is lowered due to a decrease in water temperature and a lack of organic carbon source in the sewage.

Description

Sewage and wastewater treatment by advanced biological treatment {High intergated Biological Nutrient Removal System}

The present invention relates to a method for removing nitrogen and phosphorus from sewage and wastewater. Specifically, the present invention prevents eutrophication of rivers by significantly improving the removal efficiency of nitrogen and phosphorus as well as organic matter present in municipal sewage, livestock wastewater and industrial wastewater. The present invention relates to a method for treating sewage and wastewater.

Organic matter, nitrogen, and phosphorus in sewage cause eutrophication in rivers, coastal waters, reservoirs, etc., and over-proliferate algae that feed these nutrients.

When large amounts of domestic sewage, livestock waste, and industrial wastewater flow into rivers, nutrients are excessively increased, and thus, beyond natural natural purification, eutrophication such as green algae and red tide is rapidly progressing. Deplete the concentration of oxygen in the water to promote pollution and decay of the aquatic ecosystem. Therefore, in order to prevent eutrophication, nutrients in sewage and wastewater have to be removed before they enter the waters of appeal and rivers.

Conventionally used methods for treating nitrogen and phosphorus in sewage and wastewater include physicochemical treatment and biological treatment.

The physicochemical treatment method involves injecting air while raising the concentration of hydrogen ions in the wastewater to generate nitrogen in the ammonia state, and treating the nitrogen with selective adsorption using ion exchange material. There are ways to make it. However, these methods have the disadvantage that the cost of the drug required.

Biological treatment methods include conventional sewage and wastewater treatment methods, Bardenpho, A / O, A ₂ / O, UCT, VIP, and SBR (Sequencing Batch Reactor) processes. This process is a process using microorganisms. In case of nitrogen, solid organics are precipitated and separated in a primary precipitation tank, followed by nitrification of dissolved ammonia nitrogen and organic form nitrogen by aerobic microorganisms under aerobic conditions. Under the conditions, denitrified microorganisms are used as electron acceptors instead of oxygen and reduced to nitrogen gas. This is called the denitrification process.

Phosphorus treatment involves alternating wastewater to maintain anaerobic and aerobic conditions, releasing phosphorus from microorganisms under anaerobic conditions, overingesting phosphorus in subsequent aerobic conditions, and then removing the microorganisms in certain amounts. Process. In the case of treating nutrients in the same manner as above, the treatment efficiency is high and the cost is very economical.

However, the conventional sewage and wastewater treatment methods do not consider the low concentration (organic concentration 100-200mg / l, foreign countries 200-300mg / l), which is a characteristic of domestic sewage, so that there is a shortage of soluble organic matter when using limited organic matter in the influent. It is difficult to expect sufficient treatment effect. In the case of Bardenpho process, the method applied in South Africa is a method that can be processed efficiently when the influent is over 300mg / ℓ and the water temperature, which is an important factor for microbial growth, is also high.A / O, A ² / O, VIP and UCT processes In order to increase the efficiency of sewage treatment, the internal circulation must be maintained at about three times the amount of wastewater inflow. Therefore, it is difficult to apply to low concentration sewage / wastewater, which requires a lot of power and facility costs, which leads to increased operating costs and complex operation and lack of available organic resources. There are disadvantages. The SBR process takes up the role of an anaerobic tank, aeration tank, and sedimentation basin as a single aeration tank, so it requires less land, and it is difficult to treat large-scale wastewater that occurs continuously, and to provide organic materials for denitrification reactions. Methanol, etc.) has to supply the problem.

It is a first object of the present invention to provide a method for effectively removing nitrogen and phosphorus as well as organic matter from sewage and wastewater by improving problems in the application of advanced treatment to low concentration sewage of the present invention, and is suitable for performing the sewage and wastewater treatment method It is developed as a second object of the present invention to provide a treatment system.

1-process chart of the present invention.

Figure 2-Summer operation flow chart of the present invention.

3-Winter operation flowchart of the present invention.

4-Table summarizing the nitrification process in the aeration tank and the denitrification process in the anaerobic bath.

In the first and second sedimentation tanks, the first and second sedimentation tanks in which a plurality of reaction tanks such as a primary sedimentation tank, an anaerobic tank, an anaerobic tank, an aeration tank, a final sedimentation tank, and a filtration tank are connected in series, and each step is biologically purified from wastewater and wastewater After the raw water flowing from the inflow tank 11 into the anaerobic tank 12 to achieve the anaerobic conditions without forming a, the rear anoxic tank 14 and the aeration tank 15 are performed, while the aeration tank ( 15, a part of the treated water is returned to the rear anaerobic tank 14, and a portion of the sludge of the treated water introduced from the aeration tank 15 into the settling tank 16 is connected to the anoxic tank 12 in front of the anaerobic tank 13 in series. Partial conveyance, and the treated water passed through the front anaerobic tank 13 is transferred to the anaerobic tank 12, after the anaerobic step from the rear end of the anaerobic step a part of the treated water again flows into the front anaerobic tank (13) after , This is to be purified again sewage and waste water through the process to be sent back to the anaerobic tank (12).

In carrying out the invention, the present invention is flexibly carried out in consideration of changes in external environmental conditions.

In other words, the denitrification effect is also increased in the summer when the water temperature is relatively high, so that a small volume of the rear anaerobic tank volume is required, but in contrast, in the winter when the water temperature is relatively low, a large volume of the rear anaerobic tank volume is required.

Thus, considering the denitrification effect due to the difference in water temperature during the summer season (July-November) and winter season (December-February), the treated water returned from the aeration tank 15 is introduced into the rear anaerobic tank 14 during the summer season. In the winter season, the treated water partially returned from the aeration tank 15 is returned to the rear end of the anaerobic tank 12 to increase the volume of the anaerobic tank so as to lengthen the anaerobic treatment process of the treated water to perform the denitrification process.

In the above, the treated water having passed through the aeration tank 15 is transferred to the rear anaerobic tank 14 and the settling tank 16, while the sludge and the treated water from the settling tank 16 are transferred to the excess sludge storage tank 21, Precipitation and discharge treatment. In addition, the treated water flowing into the settling tank 16 is partially returned to the front anoxic tank 13, and is drained through the denitrification filter. The front anaerobic tank 13, the anaerobic tank 12, and the rear anaerobic tank 14 have an agitator, and the aeration tank 15 has an aeration facility for supplying air.

Referring to the operation of the present invention in more detail as follows.

The front anaerobic tank 13 connected in series with the anaerobic tank 12 flows a part of the return sludge returned from the settling tank 16 to maintain the mixed liquor suspended solids (MLSS) in the reaction tank, and the nitrates in the return sludge support. Nitrogen is removed by denitrification.

In the conventional sewage and wastewater treatment fixation, the total anoxic tank performing the denitrification reaction performs endogenous respiration due to the decomposition of microorganisms due to the absence of an external carbon source for the denitrification reaction, but in the case of endogenous denitrification As a result of the slow speed, it can be seen that it has the disadvantage of increasing the volume of incomplete denitrification, external carbon source (methanol) injection or total oxygen free tank.

However, in view of the disadvantages of the conventional wastewater treatment method, in the present invention, a certain amount (10-30% of influent water) is treated from the rear end # 4 of the anaerobic tank 12 connected in series with the front anaerobic tank 13. The water is returned to supply degradable organic matter (Readily Biodegradable Carbon Surce) produced by the fermentation reaction in the anaerobic tank 12, thereby increasing the denitrification efficiency in the front anoxic tank 13.

In other words, part of the treated water is returned from the settling tank 16 to the anaerobic tank 13 located in front of the anaerobic tank 12, thereby reducing or blocking the supply of external carbon sources such as methanol, thereby reducing the processing cost. There is an advantage that the volume of various reactors connected in series to the rear stage can be reduced.

In addition, the anterior anoxic tank 13 denitrates nitrate nitrogen, thereby inhibiting nitrate nitrogen inflow to prevent anaerobic tank deterioration, and serves as an anaerobic tank when the nitrogen concentration in the influent sewage is low. When sewage flows in, it acts as a shock load preventer.

After denitrification in the front anaerobic tank 13, sludge flowing into the anaerobic tank 12 is removed from the front anaerobic tank 13 through denitrification, and no anaerobic tank 12 is almost completely due to no additional oxygen supply. The anaerobic state (ie, dissolved oxygen ≒ 0, nitrate oxygen ≒ 0) is maintained.

In the anaerobic state, the microorganisms release phosphorus in vivo to obtain active energy, and the organic material necessary for the release of phosphorus is obtained from the influent wastewater flowing into the anaerobic tank 12.

In general, the content of phosphorus in the sewage and wastewater treatment microorganism cells for organic matter removal is as low as 1.5 to 2% by dry weight ratio, and the treatment efficiency is low because phosphorus is removed as required for cell synthesis by the existing activated sludge method. . However, the treatment method using Luxury Uptake, which is phosphorus release in anaerobic state and excessive phosphorus in aerobic state, has high phosphorus removal efficiency because phosphorus is discharged and surrendered as wastewater containing phosphorus passes through anaerobic and aerobic state. You can get it.

For Luxury Uptake, there are still many different theories, but Acinetobacter plays an important role.In anaerobic state, organic matter is stored in PHB, PHA, PHV form, polyphosphate is converted to Ortro-phosphate, and it is accumulated in aerobic state. As the oxidative decomposition of organics and organics progresses, the basic concept of excessive intake of phosphorus is consistent.

In addition, if there are other electron acceptors other than oxygen, namely, No ₃ ⁻ , such as phosphorus overingestion in aerobic state, the release of phosphorus is prevented even in the absence of oxygen, effectively preventing phosphorus release in anaerobic conditions. To do this, No ₃ ^- must be removed.

Accordingly, in the present invention, the front anaerobic tank 13 is installed at the front end of the anaerobic tank 12, and in order to efficiently operate the front anaerobic tank, the transfer process of the treated water from the anaerobic tank 12 is adopted, and the inside of the conveying sludge flows into the front anaerobic tank. By completely removing the nitrate nitrogen is to minimize the nitrate nitrogen inflow into the anaerobic tank (12).

The anaerobic sewage and wastewater through the anaerobic tank 12 is introduced into the rear anaerobic tank 14 to perform anoxic conditions. That is, the rear anaerobic tank 14 mixes the nitrate nitrogen of the inflow water passed through the anaerobic tank 12 and the treated water returned from the aeration tank 15 to perform anoxic conditions (dissolved oxygen # 0). Under the anoxic conditions, denitrification of nitrate nitrogen occurs, and the denitrification microorganism removes nitrogen with nitrogen gas using nitrate nitrogen as an energy source together with an organic material.

Biological denitrification consists of nitrification under aerobic conditions and denitrification under anoxic conditions. As shown in the general biological reactions, denitrification is also affected by various environmental conditions in the reactor, such as pH, sewage temperature, dissolved oxygen concentration, substrate type, concentration and presence of toxic substances.

Biological denitrification is the conversion of nitrate nitrogen into nitrogen gas, where nitrate nitrogen acts as an electron acceptor for biological respiration. Bacteria that cause denitrification are random microorganisms that can nitrogenize nitric acid without free oxygen or other nitrogenous substances.

Many heterotrophic bacteria and some independent nutrient bacteria can perform this denitrification. In practice sewage is dominated by heterotrophic microorganisms, so this denitrification is limited to the mechanism of obtaining energy sources from organics.

Denitrification involves assimilation and catabolism. Removal of nitrate nitrogen by assimilation immobilizes nitrate nitrogen with ammonium-nitrogen by cell synthesis. This reaction occurs mainly when nitrogen is present in limited sewage. Denitrification by catabolism is a reaction that generates nitrogen gas as a final product, and denitrification by catabolism is considered to be very important.

The basic reaction to reduce nitrate nitrogen to nitrogen gas through the reaction and stoichiometry by biological denitrification is as follows.

In the present invention, the volume of the anaerobic tank 12 and the rear anaerobic tank 14 is changed in consideration of changes in external environmental conditions to treat sewage and wastewater. That is, the treatment process of the present invention is changed in consideration of the high temperature state of inflow and sewage in summer, and the low temperature state of inflow and sewage in winter, and in the summer, where the temperature of the sewage and wastewater is relatively high, the denitrification efficiency is high. The denitrification process is performed by reducing the volume of 14), and it is preferable to increase the volume of the rear anaerobic tank 14 in order to increase the denitrification efficiency in winter when the water temperature of the sewage and wastewater is relatively low.

Therefore, during the winter season, the treated water from the aeration tank 15 is introduced into the rear end # 4 of the anaerobic tank 12, which is the preliminary stage of the rear anaerobic tank 14, and the rear end # 4 of the anaerobic tank 12 is selected as an anaerobic tank. The present invention is implemented by increasing the volume of. In the above, the anaerobic condition for phosphorus release is not largely controlled by the temperature, thereby maintaining the optimum efficiency. In this way, the treated water denitrated through the rear anaerobic tank 14 is introduced into the aeration tank 15 to remove organic matter and cause excessive intake and nitrification of phosphorus simultaneously.

Removal of organic matter by metabolism of microorganisms in the aeration tank 15 is made by catabolism and assimilation. The anaerobic tank 12 inchuk enemy microorganism dephosphorization accumulates the person decomposable organic matter from the (PAO _s: Phosphorus Accumulative Organisms) by using the accumulated servings decomposable organic matter and the excessive intake of the back, the microorganism the excessive intake of the settling tank It is separated and removed in the solid-liquid separation process in (16). Table 4 summarizes the nitrification process in the aeration tank 15 and the denitrification process in the rear anaerobic tank 14.

In performing the sewage treatment biologically, in order to simultaneously remove organic matter, nitrogen and phosphorus in the sewage, an anaerobic tank, anoxic tank, and aeration tank should be used in combination. That is, anaerobic-aerobic conditions are first required to remove phosphorus, and anaerobic-aerobic conditions are required to remove nitrogen biologically.

In addition, in the aeration tank, the organic matter is oxidized, the ammonia is oxidized, and the intake of phosphorus is made, and the denitrification process is carried out by transferring the nitrate nitrogen contained in the return sludge to the anoxic tank for denitrification of the excess sludge. In such a biological treatment method of sewage and wastewater, the internal conveying position is elastically performed according to the change in the characteristics of the inflow sewage of the present invention so that a stable sewage treatment can be performed by applying a flexible residence time for the complete treatment of sewage and wastewater. In particular, by performing an internal return process from the anaerobic tank to the residual anoxic tank, the use of organic materials introduced into the anaerobic tank can be maximized.

In addition, the present invention is to cope with the load change of the pollutant introduced through the change of the internal conveying position is to be able to proceed a complete water treatment regardless of the water quality of the inflow source.

In addition, the present invention is to stably remove the nitrogen in the sewage by increasing the residence time of the anaerobic tank when the amount of denitrified nitrate nitrogen increases, install a forward anaerobic tank in front of the anaerobic tank for introducing the raw water, inflow from the settling tank By returning the sludge is to remove the nitrate nitrogen to be able to maximize the efficiency of the anaerobic tank.

Unlike the conventional biological sewage treatment, the present invention minimizes the temporal and spatial effects in the sewage treatment and obtains a uniform treatment efficiency.

The present invention is to effectively remove the organic and nutrients in the sewage by optimizing the treatment capacity of each unit process, it is possible to completely purify the sewage by operating the treatment process elastically in accordance with the temperature or properties of the incoming sewage. .

That is, in the conventional sewage treatment process, it can be seen that the sewage treatment cannot be efficiently carried out by purifying sewage at once regardless of the temperature or property of the sewage, but in the present invention, sewage treatment is performed in the sewage treatment. Depending on the conditions, the treated water from the reaction tanks, such as an anoxic tank, an anaerobic tank, an anoxic tank, and an aeration tank, can be completely processed at each stage through internal return. When the amount of nitrate nitrogen to be denitrated increases, the residence time of the anaerobic tank is extended to stably remove the nitrogen in the treated water, and the anoxic tank is installed in front of the anaerobic tank inflowing the inflowing water. After removing nitrate nitrogen in the returned sludge, it is allowed to flow into the anaerobic tank to maximize the efficiency of the anaerobic tank. Tuesday will be very useful to inventors who could seek a temporal, spatial, and reduction of waste water treatment.

Claims (3)

In the conventional sewage and wastewater treatment methods in which a multistage reaction tank such as a primary sedimentation tank, anaerobic tank, anoxic tank, aeration tank, final sedimentation tank, filtration tank, etc. is connected in series and each stage is biologically purified from wastewater, Perform the step of achieving the anaerobic condition by introducing the raw water from the inflow tank (1) into the anaerobic tank (12), and then performs the denitrification step through the rear anaerobic tank (14) and the aeration tank (15). , The treated water having passed through the aeration tank 15 is drained through the settling tank 16 and the filtration tank 21, while a part of the treated water is returned from the aeration tank 15 to the rear anaerobic tank 14 to perform a denitrification step. Also, a portion of the sludge of the treated water introduced into the settling tank 16 through the aeration tank is returned to the front anaerobic tank 13 provided at the tip of the anaerobic tank 12 to perform a denitrification step, and then transferred to the anaerobic tank 12. And, through the process of returning a portion of the treated water undergoing the anaerobic step from the tank at the rear end of the anaerobic tank 12 to the front anaerobic tank 13, sewage by advanced biological treatment, characterized in that to clean the waste water, Wastewater treatment method. The method for treating sewage and wastewater by biological advanced treatment according to claim 1, wherein the treated water partially returned from the aeration tank (15) flows into the rear anaerobic tank (14) during the summer season. The biological height of claim 1, wherein during the winter, the treated water partially returned from the aeration tank 15 is returned to the rear end of the anaerobic tank 12 to increase the volume of the anaerobic tank so as to lengthen the anoxic tank treatment process of the treated water. Sewage, wastewater treatment method by treatment.