KR101240539B1 - Wastewater Treatment Plant capable of temperature controll of aeration tank - Google Patents

Abstract

The present invention is to enable the waste water treated in the aerobic tank for biological treatment of waste water to maintain a constant temperature, the waste water treatment system comprising an aerobic tank for biological treatment of organic matter and nitrogen in the waste water, the aerobic tank It characterized in that it comprises an air circulation means for increasing the flow of the air layer above the waste water surface.

Description

Wastewater treatment system capable of controlling the wastewater temperature inside the aerobic tank {Wastewater Treatment Plant capable of temperature controll of aeration tank}

The present invention relates to a wastewater treatment system, and more particularly, to a wastewater treatment system capable of controlling the wastewater temperature inside the aerobic tank so that the temperature of the wastewater treated in the aerobic tank may be a temperature suitable for the microorganism to react.

Bioreactors (also referred to as aeration tanks, aeration tanks or aerobic tanks, hereinafter referred to as "aerobic tanks") of high concentration wastewater treatment systems are biologically removed from organic matters and nutrients such as nitrogen and phosphorus in the wastewater. The optimum operating temperature of the aerobic tank is 40 ° C or lower (20 to 35 ° C).

For biodegradation in the aerobic tank, air (oxygen) is supplied into the aerobic tank through the blower and the diffuser. Since the operating depth of the exhalation tank is more than 4m, the air is compressed to a pressure higher than the water pressure in the blower in order to supply air to the lower part, and the air supplied to the exhalation tank by the adiabatic compression of the air and the frictional heat of the blower is 80 to It reaches 90 degreeC. In addition, the decomposition and denitrification of organic matter in the wastewater is an exothermic reaction, and a large amount of heat is generated during the biological treatment of wastewater in the aerobic tank.

On the other hand, in order to prevent the emission of odor generated from the exhalation tank and the inflow of foreign substances into the inside of the exhalation tank, the upper portion of the exhalation tank has a closed (closing) structure. Since the upper portion of the exhalation tank is closed, the surface of the exhalation tank is covered by a high humidity air layer equal to or higher than the temperature of the waste water. Due to this futon effect (insulation effect), not only the heat release from the waste water becomes more difficult, but also the water hardly evaporates from the water surface, so that the cooling effect by latent latent heat is hardly obtained.

In this way, the heat generated by the air supplied into the aerobic tank and the heat generated during the bioreaction process are insulated by the air layer above the aerobic tank, thereby increasing the temperature of the wastewater in the aerobic tank. When is high, the water temperature in an aerobic tank rises more than 50 degreeC frequently. When the water temperature exceeds 40 ℃, the activity of the microorganisms are slowed down, the degrading power of organic matter is reduced, in particular, nitrifying microorganisms are greatly affected by the decomposition of the protein, the nitrification can not proceed. As a result, the wastewater treatment efficiency is lowered, the treated water quality is deteriorated, and a large amount of bubbles are generated.

In order to solve the problems of the conventional aerobic tank as described above, Utility Model Application No. 20-1999-0015228 (waste water treatment device equipped with a hot, cooler) and 20-2005-0002572 (water-cooled air cooling device for aeration tank) It is proposed a system for cooling the air supplied to the aerobic tank through a separate cooler. However, this is not practical because there is a need for a separate complicated device, as well as the secondary problem that the cooling efficiency of the air is very low and the water used as the refrigerant must be reprocessed.

Utility Model Application No. 20-1999-0015228 Utility Model Application No. 20-2005-0002572

The present invention has been developed in view of such a conventional problem, and an object of the present invention is to provide a wastewater treatment system that can efficiently control the wastewater temperature inside the aerobic tank.

The present invention for achieving the above object is to allow the wastewater treated in the aerobic tank for biological treatment of wastewater to maintain a constant temperature, the wastewater treatment comprising an aerobic tank for biological treatment of organic matter and nitrogen in the wastewater In the system, the exhalation tank is provided with air circulation means for increasing the flow of the air layer above the waste water surface.

The flow of the air layer above the waste water surface is made by the flow of air, and the flow of air can be made by smoothly supplying and discharging air to the exhalation tank. The air circulation means forcibly pushes air into the exhalation tank. It can be configured by installing an air supply blower to supply. Of course, the upper one side of the aerobic tank should be provided with a discharge port for discharging the air supplied to the inside of the tank. However, if only the air is supplied to the inside of the tank, the flow of the air layer may not be enough, so by installing an exhaust blower in the outlet to discharge the air inside the tank to the outside to increase the flow effect of the air layer.

In addition, in order to increase the flow effect of the air layer, the amount of air discharged by the exhaust blower is driven more than the amount of air supplied from the air supply blower so that the air in the exhalation tank is circulated faster. That is, the space in which the air layer is formed by increasing the amount of air exhausted so that the amount of air exhausted by the exhaust blower is equal to or greater than the amount of air supplied by the air supply blower and the amount of air supplied through the diffuser. The atmospheric pressure of is lowered, thereby increasing the amount of water evaporated from the waste water surface.

As described above, the temperature of the wastewater may be lowered by the heat of the wastewater surface being discharged to the outside by the air circulation means, but there is a limit to substantially lowering the temperature of the wastewater as desired. Accordingly, the wastewater treatment system of the present invention further includes an effluent circulating means for cooling some of the effluent discharged from the exhalation tank and supplying it back to the exhalation tank to mix with the wastewater stored in the exhalation tank to lower the temperature of the wastewater stored in the exhalation tank.

The effluent circulation means is a means for directly lowering the temperature of the waste water, a conveying line connected between the effluent or the final effluent discharge line discharged from the sedimentation tank at the rear end of the exhalation tank and the inlet line of the aerobic tank to return the effluent to the aerobic tank; A cooling device installed in the middle of the conveying line to cool the discharged water conveyed; And a circulation pump installed in the middle of the conveying line to forcibly return the discharged water cooled by the cooling device.

As described above, according to the present invention, there is an effect that the temperature of the waste water surface can be lowered by forcibly discharging the air of the air layer formed in the inner upper layer of the aerobic tank by using the air circulation means.

In addition, by cooling some of the effluent discharged from the aerobic tank and mixed with the waste water supplied to the aerobic tank again so that the temperature of the waste water treated in the aerobic tank does not rise above the proper temperature can be easily nitrified and organic decomposition by the microorganisms It is.

1 is a block diagram of a wastewater treatment system capable of adjusting the wastewater temperature inside the aerobic tank according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. It should be understood, however, that the appended drawings illustrate only the contents and scope of technology of the present invention, and the technical scope of the present invention is not limited thereto. In addition, it will be apparent to those skilled in the art that various modifications and changes can be made within the scope of the present invention based on these examples.

The wastewater treatment system of the present invention allows the temperature of the wastewater to be treated to be maintained at an appropriate temperature. The wastewater treatment system comprising an aerobic tank 10 for biologically treating organic matter and nitrogen in the wastewater, wherein the aerobic tank It characterized in that it comprises an air circulation means (1) for increasing the flow of the air layer above the waste water surface.

As described above, the air circulation means 1 is for discharging the heat of the waste water surface to the outside by flowing the air of the air layer formed in the upper layer of the aerobic tank 10 to the outside, to discharge the air of the waste water surface and Supply air to circulate air smoothly. That is, by discharging the air of high humidity close to the saturated steam pressure which absorbed heat from the high temperature water to the outside and allowing the cold air of relatively low humidity to flow into the inside of the tank, the heat of the water can be discharged to the outside faster. will be.

In this way, in order to circulate the air of the air layer formed on the upper portion of the exhalation tank 10 more smoothly, it is necessary to supply external cold air to the inside of the tank to push the air of the air layer of the upper layer inside the tank to the outside. Therefore, the air circulation means 1 includes an air supply fan 11 for supplying external air to the inside of the tank at least in the exhalation tank 10, the air introduced into the tank by the air supply blower 11 is The hot air in the air layer is pushed out. Of course, the discharge port for discharging the hot air is formed on the opposite side of the portion connected to the air supply blower 11 of the exhalation tank (10).

As such, only by supplying air to the inside of the exhalation tank 10 through the air supply blower 11, the air in the air layer above the exhalation tank 10 is pushed outward to generate the flow of the air layer. Since the air blower 12 may be further installed at the discharge port, the air layer may flow more effectively.

That is, by supplying air to the air supply blower 11 and exhausting hot air to the exhaust air blower 12, it is possible to flow the air in the air layer more effectively, in order to smoothly flow the air layer in the air supply blower 11 The amount of air discharged by the exhaust blower 12 is driven more than the amount of air supplied.

By increasing the amount of air discharged more than the amount of air supplied into the aerobic tank 10, the amount of evaporation of water in the waste water surface to be treated increases, and thus the temperature of the waste water may be lowered by the evaporated water.

Air supplied by the air blower 11 is to lower the temperature of the waste water surface as described above, and preferably passes through the water surface of the waste water as possible. Accordingly, the air blower (10) A guide 10a for guiding the air supplied by 11) to the surface of the water is provided.

As described above, the temperature of the surface of the wastewater stored in the tank may be lowered by circulating the air in the air layer inside the aerobic tank 10, but it may not only take a lot of time to lower the temperature of the wastewater to the depth of the water, but also lower the temperature to a sufficient temperature. none.

Accordingly, a means for directly lowering the temperature of the wastewater is provided with an outflow water circulation means 3, and the outflow water circulation means 3 cools a part of the outflow water discharged from the aeration tank 10 to the aeration tank 10. Mixing with the incoming wastewater serves to lower the temperature of the wastewater stored in the aerobic tank.

The outflow water circulation means 2, the conveying line 21 is connected between the discharge line of the exhalation tank 10 and the inlet line of the exhalation tank 10 to convey the discharged water to the exhalation tank; A cooling device 22 installed in the middle of the conveying line 21 to cool the discharged water conveyed; And a circulation pump 23 installed in the middle of the conveying line 21 to forcibly return the discharged water cooled by the cooling device 22.

Although supplying cold cooling water supplied to the exhalation tank 10 to the outside may lower the temperature of the wastewater, supplying such cooling water not only wastes unnecessary water, but also increases the amount of wastewater processed in the exhalation tank. Some of the discharged water treated in the aerobic tank was configured to be cooled and supplied to the aerobic tank 10 again.

As shown in FIG. 1, the discharged water returned to the exhalation tank 10 through the conveying line 21 passes through the settling tank 40 at the rear end of the exhalation tank 10, and the water of the discharge water tank 50 in which sludge is deposited. Although it may be used, it is also possible to immediately circulate the discharged water discharged from the aerobic tank (10). However, the discharged water discharged from the aerobic tank 10 includes sludge so that the circulation line 21 may be clogged or the cooling device 22 or the circulation pump 23 may be contaminated easily when it is circulated. Likewise, it is preferable to circulate the discharged water after the sludge is precipitated.

In addition, as shown in Figure 1, the discharged water circulated by the circulation line 21 is supplied to the inlet line of the aerobic tank 10 or the mixing distribution tank 20 to be mixed with the wastewater flowing into the aerobic tank (10). can do.

The discharge water returning to the aerobic tank 10 through the circulation line 21 may be directly supplied to the aerobic tank 10. However, when circulating the wastewater directly to the aerobic tank 10, the waste water is not sufficiently mixed with the waste water. There is a problem that can not be lowered evenly. Accordingly, as illustrated in FIG. 1, the circulating discharge water is supplied to the inlet line of the mixing distribution tank 20 or the aerobic tank 10 so that the discharge water and the waste water may be evenly mixed.

As described above, if the wastewater temperature in the aerobic tank 10 exceeds a predetermined range (for example, 40 ° C), the metabolism of microorganisms is not smooth, but on the contrary, even if the temperature is too low (for example, 15 ° C or less), the metabolism of microorganisms Will not be smooth.

Therefore, it is preferable to maintain the temperature of the waste water, and in order to control the temperature of the waste water, the air circulation means 1 and the outflow water circulation means 2 should be able to be controlled according to the waste water temperature. In order to control such a device, it is necessary to measure the wastewater temperature, so one side of the aerobic tank 10 is provided with a temperature sensor TS, and the temperature detected by the temperature sensor TS is a set temperature (eg, 36 ° C.). If above, the air circulation means 1 and the outflow water circulation means 2 are operated.

As described above, the wastewater treated by the wastewater treatment system may generate odors into contaminated water, and odors may also occur in wastewater stored in the aerobic tank 10, and even odors in the air discharged through the surface of the wastewater. Will occur. Therefore, the odor removal filter 3 is installed at the outlet side of the exhaust blower 12 for discharging the air inside the exhalation tank 10 to the outside to remove the odor in the discharged air to the atmosphere.

Hereinafter, the operation of the wastewater treatment system of the present invention configured as described above will be described.

First, since the overall operation of the wastewater treatment system of the present invention is the same as or similar to a conventional wastewater treatment system, a description thereof is omitted, and the process of adjusting the temperature of the wastewater, which is the subject of the present invention, that is, stored in the aerobic tank 10. Describe only the process of lowering the temperature of the waste water.

The wastewater flowing into the aerobic tank 10 is wastewater that has already been treated through a pretreatment process, and the wastewater has a temperature of the wastewater due to a blower for supplying air to the diffuser and heat generated during the decomposition metabolism of microorganisms as described above. As the temperature rises, the temperature is increased by the temperature sensor TS installed at one side of the exhalation tank 10.

When the temperature sensed by the temperature sensor TS is equal to or higher than the set temperature, the air circulation means 1 and the outflow water circulation means 2 start driving.

As described above, the air supply fan 11 constituting the air circulation means 1 and the exhaust air blower 12 operate to circulate air in the exhalation tank 10. At this time, by driving the exhaust blower 12 first to discharge the heated air inside the exhalation tank 10, and then operate the air supply blower 11 to increase the surface cooling efficiency by supplying the external cold air.

The effluent circulation means 2 operates the cooling device 22 first, and then operates the circulation pump 23 to allow the cooled discharged water to be mixed with the wastewater flowing into the aeration tank 10, and the temperature sensor TS ) Detects the wastewater temperature inside the aerobic tank 10 and when the temperature of the wastewater is lower than the set temperature, the effluent water circulation means 2 is stopped.

Although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention belongs to the present invention without departing from the technical scope of the present invention as claimed in the claims. It is to be understood that the technical idea of the present invention extends to the extent that various changes or modifications can be made by those skilled in the art.

DESCRIPTION OF SYMBOLS 1: Air circulation means 10a: Guide 11: Air supply blower 12: Exhaust air blower
2: effluent circulation means 21: circulation line 22: cooling device 23: circulation pump
3: Odor filtration filter
10: aerobic tank 20: mixed distribution tank 30: anoxic tank 40: sedimentation tank
50: outflow tank

Claims (7)

A wastewater treatment system comprising a closed aerobic tank for biologically treating organic matter and nitrogen in wastewater,
The exhalation tank has an air supply blower forcibly supplying external air of low temperature and low humidity to the waste water surface upper air layer of the exhalation tank so as to increase the flow of the air layer above the wastewater surface, and the wastewater supplied from the diffuser of the air supply blower and the bottom of the exhalation tank. Wastewater treatment system that can suppress the rise in temperature of the wastewater inside the aerobic tank, characterized in that the outlet for exhausting the hot and humid air of the upper surface air layer to the outside.
The method of claim 1,
The discharge port is a waste water treatment system that can suppress the rise of waste water temperature inside the aerobic tank, characterized in that the exhaust blower for forced exhaust is further provided.
The method of claim 2,
The amount of air discharged by the exhaust blower is equal to or greater than the amount of air supplied through the air supply blower and the amount of air supplied through the diffuser, which can suppress an increase in wastewater temperature inside the aerobic tank. Wastewater treatment system.
The method according to any one of claims 1 to 3,
A wastewater treatment system capable of suppressing a rise in wastewater temperature in the exhalation tank, wherein a guide is formed inside the exhalation tank to guide the flow of air supplied by the air supply blower to the water surface.
The method according to claim 2 or 3,
At the outlet of the exhaust blower is a wastewater treatment system capable of suppressing a rise in wastewater temperature inside the aerobic tank, characterized in that the odor removal device for removing the odor in the discharged air.
The method according to any one of claims 1 to 3,
The wastewater treatment system further comprises an outflow water circulation means for cooling some of the outflow water or the final outflow water discharged from the settling tank and supplying the wastewater back to the aeration tank.
The method according to claim 6,
The effluent circulation means,
A conveying line connected between the discharge line of the effluent or the final effluent discharged from the settling tank and the inlet line of the aerobic tank to return the discharged water to the aerobic tank;
A cooling device installed in the middle of the conveying line to cool the discharged water conveyed; And
A circulation pump installed in the middle of the conveying line to forcibly return the discharged water cooled by the cooling device;
Wastewater treatment system that can suppress the rise of wastewater temperature inside the aerobic tank, characterized in that configured.

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