KR101310398B1 - An extended aeration apparatus by a sequencing batch reactor and waste water treating system using the apparatus - Google Patents

Abstract

PURPOSE: A sequencing batch type long-term aerator is provided to facilitate replacement due to malfunction etc. CONSTITUTION: A sequencing batch type long-term aerator comprises: anoxic reactor (10); and a main reactor (20) formed integrally by being positioned at the rear end of the anoxic reactor. The anoxic reactor mixes returned sludge from the main reactor with sewage. The main reactor repeats aeration, sedimentation, exhaustion, and pause about the sewage passed through the anoxic reactor. The main reactor comprises: a water air diffuser (201); a blower (202); a sludge return pump (203); a redundancy sludge discharge pump (204); and an exhaust apparatus (205). [Reference numerals] (AA) Inflow; (BB) Return; (CC) Discard residual sludge; (DD) Discharge

Description

Continuous batch long-term aeration system and sewage treatment method using same {AN EXTENDED AERATION APPARATUS BY A SEQUENCING BATCH REACTOR AND WASTE WATER TREATING SYSTEM USING THE APPARATUS}

The present invention relates to a water treatment technology made by an intermittent decanted extended aeration process in which aeration, sedimentation, and treated water discharge processes are continuously separated into sewage and sewage in a single reactor.

An anoxic reaction tank was formed at the front end of the continuous ashing device (SBR) in an integral structure and fractionated into two zones to form a device, thereby denitrifying the nitrate nitrogen contained in the return sludge returned from the SBR using the organics of the influent. To increase the treatment efficiency of sewage and sewage in the main reactor.

In addition, the aeration device in the continuous ash device (SBR) by installing an underwater aeration device to aeration artificially to suppress the leaching of phosphorus to improve the sewage and sewage treatment efficiency continuous batch type aeration device and sewage and sewage treatment method using the same It is about.

Sequencing Batch Reactor (SBR) is a full-blown fill and draw type reactor, and the reaction process after the inflow of raw water is batch, and the aeration and precipitation processes occur in the same reactor. All SBR systems generally have five steps, which are performed in the following sequential process: That is, the general continuous batch process, as shown in Figure 1, the order (fill) → reaction (settle) → sediment (draw) → draw (Idle) in the order of five steps to remove organic matter as well as nitrogen Simultaneous removal of wine is possible.

Regarding a continuous batch reactor or a reaction process, a number of technologies have been developed so far, and some of them are described in detail below.

Zeolite-containing continuous batch reactor of Republic of Korea Patent Registration No. 10-0273856 (Registration date 2000.09.05) is a technology for achieving the efficient initial adsorption of ammonia nitrogen,

'Continuous inflow batch sewage and sewage treatment method' of Republic of Korea Patent No. 10-0420647 (Registration date 2004.02.17) is a technology to reduce the installation area by greatly reducing the long residence time, which is a problem of the conventional treatment method,

The biological sewage treatment apparatus including the continuous batch reactor combined with the sludge flotation method and the sewage treatment method using the same in the Republic of Korea Patent Registration No. 10-0993482 (registered date 2010.11.04) is capable of high concentration of sludge in the reactor. This technology allows you to increase capacity and shorten the overall processing time.

Republic of Korea Patent Registration No. 10-0504150 (Registration date 2005.07.19) 'batch treatment wastewater using a batch anaerobic tank and hybrid continuous batch reactor' is a technology to maintain a high reaction rate,

'Sewage treatment method and apparatus using digestion tank and continuous batch reaction tank' of Korean Patent Registration No. 10-0460942 (Registration date 2004.12.01) removes nitrogen and phosphorus as well as organic matter and floating oil by periodic use of bacterial activity. It's about technology that can be done.

However, the techniques disclosed in the prior art constitute an apparatus by dividing into two zones by placing an anoxic reaction tank in an integral structure at the front of the continuous batch apparatus (SBR) desired in the present invention, and also in the aeration apparatus (SBR). In this paper, we propose the technology of continuous batch long-term aeration system that improves sewage and sewage treatment efficiency by installing underwater aeration system. The present inventors intend to achieve the sewage and sewage treatment efficiency through the technical configuration of the present invention.

Republic of Korea Patent Registration 10-0273856 (Registration date 2000.09.05) Republic of Korea Patent Registration 10-0420647 (Registration Date 2004.02.17) Republic of Korea Patent Registration 10-0993482 (Registration Date 2010.11.04) Republic of Korea Patent Registration 10-0504150 (Registration Date 2005.07.19) Republic of Korea Patent Registration 10-0460942 (Registration Date 2004.12.01)

The present invention includes an anoxic reaction tank at the front end of the main reaction tank (SBR) to form an integrated reaction tank divided into two zones, and is included in the sludge returned from the main reaction tank using the organic matter contained in the influent sewage and sewage. To denitrate the nitrate

In addition, by installing an underwater aeration device for aeration in the main reaction tank B, it is possible to easily handle the repair or replacement due to the failure of the aeration device as well as the effect of suppressing the release of phosphorus. An object of the present invention is to provide a continuous batch long-term aeration apparatus and a sewage treatment method using the same.

In order to achieve the above object,

The present invention provides an anoxic reaction tank for mixing sewage or sewage flowing in anoxic conditions; and sludge returned from the main reaction tank; It consists of the main reactor for water treatment while repeatedly discharging and stopping,

The main reaction tank is an underwater aeration device for aeration, a blower for supplying air to the underwater aeration device, a conveying pump for conveying the sludge generated in the precipitation process of the main reaction tank to the anoxic reactor of the front end, and discharge the excess sludge The main technology configuration is a continuous batch long-term aeration system including a surplus sludge discharge pump and a discharge device for discharging the treated water finally processed.

And,

As the water treatment process is performed through any reaction tank divided into an anoxic reaction tank and a main reaction tank,

The water treatment step is subjected to the denitrification reaction of nitrate nitrogen contained in the sludge returned from the main reaction tank using the organic material contained in the influent sewage or sewage,

After introducing the sewage or sewage subjected to the denitrification reaction into the main reaction tank, and aeration treatment for 120 minutes using an underwater aeration apparatus,

Sedimentation of sewage or sewage after the aeration process for 60 minutes in the reactor;

Sewage or sewage treatment using a continuous batch long-term aeration system that treats sewage or sewage from the sedimentation process in a 60-minute discharge cycle in the reactor for 6 cycles a day. The method is the main technical configuration.

Unlike the conventional continuous batch method, the continuous batch long-term aeration method according to the present invention can increase the treatment efficiency of sewage and sewage by dividing it into two zones, an anaerobic reactor 10 and a main reactor 20. The use of the underwater aeration apparatus as the aeration apparatus in the reactor has the advantage that the replacement of the device due to a failure is very easy.

1 is a view showing the concept of a continuous batch long-term aeration method according to the present invention.
2 is a view showing the configuration of a reactor according to the present invention.
3 is a view showing the configuration of a reaction tank according to another embodiment of the present invention.
4 is a view showing an underwater aeration apparatus according to the present invention.
5 is a view showing the basic configuration of the hydraulic discharge device according to the invention.

Prior to the detailed description of the present invention, the general characteristics of each process of the continuous batch process are as follows.

Fill: During the inflow period, the sewage is filled with the desired volume as it comes into contact with the microorganisms remaining in the reactor. The inflow volume is determined in the range of 30 to 75% depending on the nature of the sewage. There are three main types of inflows: static fills, mixed fills, and aerated fills. Among them, the mixed inflow method is used the most. In the mixed inflow, the anaerobic state occurs during the inflow time, which leads to denitrification and phosphorus release, thereby improving treatment efficiency.

2. React: The reaction period is for aerobic treatment through aeration and for anaerobic and anoxic treatment by mixing without oxygen supply. During this time it is possible to remove both organic nitrogen as well as biological nitrogen removal and phosphorus removal at the same time. The reaction time is operated at about 50% or less of the total time in one cycle. SBR can have a great advantage in the reactor volume since the continuous process of CSTR and PFR can be achieved in one reactor within the reaction period.

3. Settle: This is a step of forming a solid-liquid separation from the mixed liquor, and in general, there is no flow of influent water during the settling period. The reason for introducing sewage and sewage during sedimentation period is to promote metabolic activity between sewage and sewage and microorganisms, so that the microbial flocs formed at this time can be used as an organic carbon source during the denitrification process to maximize denitrification and dephosphorization efficiency. Because.

SBR is directly related to the improvement of sedimentation efficiency because the sludge deposited without sludge regeneration remains as a microorganism for reaction in the next cycle. In general, if the load of influent is not high, settling time is usually about 0.5 ~ 1.5 hours.

4. Draw: Ejection can be made in a variety of different ways, except in the case of a mechanical ejector or a fixed ejector. Since the discharge stage does not have any inflow of the influent and is specifically aimed at discharging only the supernatant separated from the solid-liquid, it is important to stabilize the water quality of the treated water so that the discharged water does not shake the precipitated sludge. In terms of time, it takes about 5-30% of the cycle time.

5. Idle: The idle period is not a necessary step, so the idle period may be ignored and the inflow may proceed immediately after discharge, but depending on the availability of this period, the operating efficiency may be increased. For example, sludge waste may be introduced during the rest period in addition to the reaction period.

The advantages of the continuous batch process are that there is no inflow of sewage into the discharge process, so that solid-liquid separation is ensured and good treated water can be obtained.Because the peak organic load and the equalization of the flow rate are inherent in the batch process, sludge bulking is rare and the inflow load is large. Variation has little effect on the performance of the batch process.

The continuous batch long-term aeration apparatus according to the present invention shown in Figure 1, as described above, the anaerobic reaction tank (10) and the anaerobic reaction tank to mix the sewage or sewage flowing in anoxic conditions; and the sludge returned from the main reaction tank; It is composed of the main reaction tank (20) which is located at the rear end of the (10) and integrally, water treatment sewage and sewage through the oxygen-free reaction tank (10), while aeration, sedimentation, discharge and rest,

The main reactor 20 is a front of the underwater aeration device 201 for aeration, a blower 202 for supplying air to the underwater aeration device 201 and the sludge generated during the precipitation process of the main reaction tank 20 A conveying pump 203 for conveying to the anoxic reaction tank 10, a surplus sludge discharge pump 204 for discharging excess sludge, and a discharge device 205 for discharging the treated water finally finished. It is done by

In the present invention, the reaction tank 1 forms an integral reaction tank divided into two zones by placing the anoxic reaction tank 10 at the front end of the main reaction tank 20. In the oxygen-free reaction tank 10, the denitrification reaction of the return sludge returned from the main reaction tank 20 takes place using organic matter contained in the influent sewage and sewage.

Microorganisms involved in the denitrification reaction are known to be able to perform denitrification reactions of a wide variety of microorganisms, unlike nitrification microorganisms. Denitrification bacteria have heterotrophic and independent nutrients. Heterotrophic microorganisms include Archromobacter, Acinetobacter, Agrobacterium, Alcaligenes, Arthrobacter, Bacillus, Chromobacterium, Corynebacterium, Flavobacterium, Hypomocrobiuln, Moraxella, Neisseria, Paracoccus, Propionibacterium, Pseudomonas, Rhodopbudoum R.

The effect of temperature in the denitrification reaction is similar to the nitrification process can react even in the range of 0 ℃ ~ 50 ℃, in the present invention to maintain the reaction temperature at 30 ℃ for optimization of the denitrification reaction.

In addition, the denitrification rate of the denitrification microorganism occurs depending on the pH conditions, the optimum pH is 7.0 ~ 8.0. If the pH is maintained at 6.0, it is dropped to 50% compared to the denitrification rate at the optimum pH, and if the pH is increased to 9.0 to 9.5, it is preferable to maintain the optimum pH condition as described above because a sharp decrease in the denitrification rate occurs. Do.

The sewage and sewage treated by the denitrification in the anoxic reaction tank 10 is introduced into the main reaction tank 20 located at the rear end, and the water treatment process is repeated while aeration, sedimentation, discharge, and rest in the main reaction tank 20 are performed. Going through.

The main reaction tank 20 is configured to maximize the effect of suppressing the release of phosphorus by installing an underwater aeration device, the underwater aeration device 201 is the main reaction tank 20 in the structure of a rectangular parallelepiped as an underwater aeration device 1 unit is installed using the main reaction tank space having a ratio of horizontal to vertical ratio as an installation unit space, and as shown in FIG. 1 as an embodiment of the present invention, two underwater aeration apparatus 201 is provided. Install. The reason for installing the underwater aeration device 201 by setting the unit space as described above is to enable smooth stirring and aeration of the main reaction tank as a whole. As a specific example, the main reaction tank has a horizontal length of 20 m and a vertical length of 10 m. Two underwater aerators 201 can be installed in the apparatus.

The underwater aeration device 201 is a submersible aeration device, a rotating motor 201a, an impeller 201b connected to the rotating motor, and a body part 201c forming an appearance with a structure surrounding the rotating motor and the impeller. And an air discharge portion 201d formed on the body portion and an air injection portion 201e forming a tubular shape to supply air to the air discharge portion 201d, wherein the impeller 201b is provided. Rotational speed of) is 30 ~ 100rpm, the air injection through the blower is 4 ~ 8ℓ / second to maintain the oxygen transfer efficiency of 15 to 35%, the ratio of the horizontal: vertical ratio of the main reaction tank 20 of the cuboid 1 It is characterized in that one unit is installed for each unit space using a space of one person as an installation unit space.

Since the strong rotation of the impeller 201b directly connected to the rotary motor 201a forms turbulent flow, its size becomes fine due to the collision of air bubbles, and the size of the bubble thus made is in contact with bubbles and water. It will affect the time it takes. In other words, the rate of rise of the finer bubbles continues to fall, so that more oxygen can be dissolved in the water as the contact time with water increases, thereby improving water treatment efficiency.

In addition, the air supplied from the blower 202 is introduced into each air discharge unit 201d through the air injection unit 201e and discharged to the outside while forming bubbles through the pores. At this time, the air bubbles suddenly exit the wide space after passing through the narrow inlet of the air discharge unit 201d, which is suddenly lowered in pressure after passing through the narrow inlet of the orifice principle to form fine bubbles. . In addition, as the same principle, bubbles of the air discharge unit 201d are discharged to the outside through the pores, and the bubbles are further refined.

As the air bubbles are made finer, the rise time of the micronized bubbles falls to the surface of the water, and as the rise time decreases, the contact time between the air bubbles and the water becomes longer and the oxygen transfer rate is increased, thereby increasing the water treatment effect. Will increase.

In the aeration apparatus 201, air injection is supplied through an air pipe or a pressure tube, but the axial flow type is used in the present invention because the axial flow rate has a better oxygen transfer rate than the radial type.

Oxygen transfer rate of the underwater aeration device 201 is 200 ~ 300 mgO ₂ / L or more, which is very large value when compared to the 60 ~ 80 mgO ₂ / L of the aeration type aeration is suitable for the case where the high concentration of sewage and sewage is introduced. . In addition, in the present invention, the capacity varies depending on the shape and size of the reactor, but in the present invention, it is 4 to 13 m 3 / kW.

In addition, the impeller has a rotation speed of 30 to 100 rpm and an oxygen transfer rate of 1.2 kgO ₂ / kWh including the blower power.

The maximum size of the underwater aeration device 201 is 150Hp can be increased to 350Hp. Air volume is 4 ~ 8l / sec and oxygen transfer efficiency is 15 ~ 35%.

The air injection into the underwater aeration device 201 is made through a blower 202, which makes it easier to control the amount of air supplied into the reactor than the mechanical surface aeration device. The amount of power required of the blower 202 is determined by the rotational speed of the motor and the pressure of the air supply point. The blower 202 used for water treatment is not significantly influenced by the relative humidity and the operating speed, and the maximum pressure is 120 kg / M 2.

Centrifugal blowers are divided into two types: horizontally split centrifugal is 75 ~ 85% efficient and easy to maintain but relatively expensive and vertically split centrifugal is 60 ~ 79 efficient. % Cheaper price The horizontal separation type can operate up to a pressure of about 340 kg / m 2, while the vertical separation type can operate up to a pressure of 80 kg / m 2. In addition, heat is generated when the blower is used. In consideration of the energy saving effect, the generated heat may also be used for heating the treatment plant building using a heat exchanger.

The underwater aeration apparatus 201 according to the present invention is easy to repair or replace unlike a fixed diffuser, and in the case of diffuser, the operation must be performed after removing all the contaminated water to be treated in the reactor for repair or replacement. In the case of the aeration apparatus 201 according to the present invention, the sewage and sewage treatment can be made very efficiently because only the relevant apparatus needs to be removed from the reactor and repaired or replaced.

Hereinafter, the sewage and sewage treatment method using the continuous batch long-term aeration apparatus of the present invention will be described.

The sewage and sewage treatment method according to the present invention is a water treatment process through the reaction tank (1) divided into an oxygen-free reaction tank (10) and the main reaction tank (20),

The water treatment process is a step of undergoing a denitrification reaction of nitrate nitrogen contained in the sludge returned from the main reaction tank 20 using the organic matter contained in the influent sewage or sewage,

After introducing the sewage or sewage subjected to the denitrification reaction into the main reaction tank 20, and aeration treatment for 120 minutes using the underwater aeration device (201),

Sedimentation of sewage or sewage after the aeration process for 60 minutes in the reactor;

The sewage or sewage after the sedimentation process is discharged in the reactor for 60 minutes, characterized in that the treatment is performed 6 times a day with one cycle.

In the present invention, sewage and sewage inflow is made in all processes except the discharge process. The reason why the inflow process is continuously carried out in the precipitation process is to use the inflow sewage as an organic carbon source for the denitrification reaction.

As another embodiment of the present invention, sewage and sewage treatment according to the present invention has two reaction tanks (reactor A and reactor B), as shown in FIG. 3, to discharge sewage, sewage, aeration, sedimentation, and discharge of treated water. Changes in time will result in continuous sewage inflow and treated water discharge.

More specifically, the first reactor is a sewage and sewage inflow process for the first 60 minutes, the aeration process for 60-120 minutes in the reactor, the precipitation process for 120-180 minutes in the same reactor, 180 in the reactor The discharge process for ~ 240 minutes, the second reaction tank is settled for 60 minutes in the initial stage, the discharge process for 60-120 minutes in the reactor, the sewage and sewage inflow process for 120-180 minutes in the reactor, The reactor is aerated for 180 to 240 minutes.

The sewage and sewage treated through the main reaction tank is discharged to the outside through the discharge device, and the discharge device uses a hydraulic or cyphonic discharge device.

As shown in FIG. 5, the internal structure of the case constituting the hydraulic discharge device 205 will be described. The opening and closing portion 205a and the opening and closing portion 205a, which are formed with a plurality of discharge ports, are connected to the opening and closing portion. It is composed of a lift shaft 205b, a hydraulic cylinder 205c connected to the lift shaft 205b, and a hydraulic tank 205d for supplying hydraulic pressure to the hydraulic cylinder 205c therebetween. An electrical system composed of an inverter and a motor to generate torque.

That is, the hydraulic discharge device 205 is composed of an electric system composed of an inverter and a motor to generate torque, a hydraulic system of a hydraulic pump, a hydraulic system including a hydraulic cylinder, and a lift shaft.

At this time, the operation principle of the hydraulic discharge device 205, when the lift shaft is raised, the torque generated by the forward rotation of the induction motor driven by the inverter increases the pressure of the screw-type hydraulic pump to control the rising speed. When the lift shaft is lowered, the induction motor is banned to reduce the pressure of the screw-type hydraulic pump, thereby controlling the lowering speed in consideration of the load on the lift shaft and the reverse rotation speed of the induction motor.

As such, the opening and closing of the opening and closing portion 205a in which the plurality of discharge ports are formed is controlled by the lifting and lowering of the lift shaft to control the discharge of the treated water.

As described above, unlike the conventional continuous batch method, the continuous batch long-term aeration method according to the present invention can increase the treatment efficiency of sewage and sewage by dividing into two zones, an anaerobic reactor and a main reactor. As the aeration apparatus in the reactor is used as an aeration apparatus, the industrial applicability is large because the replacement of the apparatus due to a failure is very easy.

1: Reactor
10: anoxic reactor
20: main reactor
201: underwater aeration system
202 blower
203: conveying pump
204: surplus sludge discharge pump
205: discharge device

Claims (5)

An anoxic reaction tank (10) for mixing the sewage or sewage flowing in an anoxic condition; and the sludge returned from the main reaction tank; ㆍ Consists of the main reactor 20 for water treatment while repeating aeration, sedimentation, discharge and pause of waste water,
The main reactor 20 is a front of the underwater aeration device 201 for aeration, a blower 202 for supplying air to the underwater aeration device 201 and the sludge generated during the precipitation process of the main reaction tank 20 A conveying pump 203 for conveying to the oxygen-free reaction tank 10, a surplus sludge discharge pump 204 for discharging excess sludge, and a discharge device by a hydraulic method for discharging the treated water after the treatment process ( 205), comprising
The underwater aeration device 201 is a submersible aeration device, a rotating motor 201a, an impeller 201b connected to the rotating motor, and a body part 201c forming an appearance with a structure surrounding the rotating motor and the impeller. And an air discharge portion 201d formed on the body portion and an air injection portion 201e forming a tubular shape to supply air to the air discharge portion 201d, wherein the impeller 201b is provided. ), The rotational speed is 30 ~ 100rpm, the air injection through the blower is 4 ~ 8ℓ / sec to maintain the oxygen transfer efficiency at 15 ~ 35%,
Continuous batch type long-term aeration apparatus, characterized in that for installing one unit per unit space, the space of the ratio of the vertical: vertical ratio of the rectangular parallelepiped of the rectangular parallelepiped 1: 1 as an installation unit space.






delete delete delete delete

Images