KR20220095841A - Sewage treatment method and equipment corresponding to flow rate and time fluctuation - Google Patents

Abstract

The present invention relates to a sewage and wastewater treatment method corresponding to flow rate and time fluctuation which applies a driving method of a batch type active reaction bath composed of an inflow process step; a reaction process step which is the subsequent step of the inflow process step; a precipitation process step which is the subsequent step of the reaction process step; and a discharge process step which is the subsequent step of the precipitation process step, and adjusts operation of a flow rate adjusting bath pump and a reaction bath pump at each step of the flow rate level of a flow rate adjusting bath formed at the tip end portion of the batch type active reaction bath and the driving method of the batch type active reaction bath.

Description

Sewage treatment method and equipment corresponding to flow rate and time fluctuations

The present invention relates to a sewage treatment method modified from the batch activated sludge method in which wastewater aeration, sedimentation and discharge processes are sequentially performed in the same treatment tank, and an apparatus constituting the method.

The batch activated sludge method, the technology behind the invention, is basically configured to treat wastewater based on a series of cycles of [inflow] → [aeration/reaction] → [sedimentation] → [drainage] in one tank. However, this process is generally configured to be controlled according to the passage of time as shown in FIG. 2 .

In the batch activated sludge wastewater treatment method, the time it takes for each process to change to the next step is slightly different, but in general, it takes 6 hours per cycle.

In tourist destinations, military bases, and small town units, the inflow of wastewater is irregular and the time of occurrence of wastewater is not uniform. There were a lot of things that were irrational to do.

Sewage water with a high pollution load due to relatively large daily use of tap water and containing a lot of manure and food waste tends to be concentrated between 6 and 8 am and 5 to 7 pm.

Therefore, if the wastewater treatment process is controlled with the flow of time, wastewater with a low inflow flow rate and low pollutant load is generated during the late night or daytime hours.

In the morning or evening hours, it is difficult to expect satisfactory treatment efficiency if the wastewater treatment process is carried out under the same time conditions for each cycle because the inflow of wastewater with a high flow rate and a high polluting load flows in.

In addition, in the case of tourist attractions on a seasonal basis, excessive wastewater is generated due to the large number of tourists during a certain period, and the amount of wastewater is minimized in the low season. occurs

On the other hand, there were problems in the smooth operation of the wastewater treatment plant such as the death of microorganisms due to the minimization of the amount of wastewater inflow during the off-season.

The present invention was born under such a background.

Korean Intellectual Property Office Patent Registration No. 10-0873416 (December 11, 2008) Korean Intellectual Property Office Patent Registration No. 10-0912562 (2009.08.19)

The first problem to be solved by the present invention is that when a method in which the operation mode is changed according to time and flow rate fluctuation is applied, a small amount of wastewater flowing in late night or daytime and a large amount of wastewater flowing in a short time in the morning or evening hours Efficient operation of wastewater treatment facilities is possible by applying more subdivided operation modes, but in particular, it solves a problem suitable for application to small-scale wastewater treatment facilities with severe fluctuations in inflow flow.

The second problem to be solved by the present invention is that it is possible to prevent overflow when wastewater flows in excessively, and when the amount of wastewater flows in too little, the process progress is delayed depending on the inflow, so that microorganisms are killed by poor load. As the operating time of equipment such as pumps, stirrers, and blowers, which were operated in batches over time, is reduced, maintenance costs can be reduced, and the task of securing suitable water quality for the field has been solved.

In order to solve the problem of the present invention, it has the following method.

inflow process step;

a reaction process step that is a step after the inflow process step;

A precipitation process step that is a step after the reaction process step;

Applying the operation method of the batch activation reaction tank consisting of the discharge process step, which is a step after the precipitation process step,

The flow rate and time fluctuation response type wastewater treatment method, characterized in that the flow rate level of the flow rate control tank configured at the tip of the batch type active reaction tank and the operation of the flow rate control tank pump and the reaction tank pump are adjusted for each step of the operation method of the batch type active reaction tank have

Here, when the flow rate level of the flow rate control tank reaches the highest water level, the step of discharging the treated water through the reaction tank pump only during the precipitation process step of the batch-type active reaction tank is to prevent the disadvantage that untreated water is discharged from the reaction tank. method is preferred.

Here, when the flow rate level of the flow rate control tank is less than the minimum water level, it is preferable to prevent the problem of abruptly lowering the treatment efficiency due to the death of microorganisms by stopping the operation of the flow rate control tank pump.

Here, the flow level of the flow control tank is divided into three stages,

It is preferable to have a method of adjusting the operation of the flow rate control tank pump and the reaction tank pump in four-step operating conditions including the condition of operating below the lowest water level according to each step.

Here, a method of intermittently operating the flow rate control tank pump when the treated water containing contaminants for more than 6 hours after the discharge process step of the batch activation reaction tank does not reach a certain height of the batch activation reaction tank is preferable.

The first effect of the present invention is that when a method in which the operation mode is changed according to time and inflow flow fluctuation is applied, a small amount of wastewater flowing in late night or daytime and a large amount of wastewater flowing in a short time in the morning or evening time, as well as the design inflow flow rate It has the effect of enabling efficient operation of wastewater treatment facilities by applying more subdivided operation modes for excessive or under-flow rates. In particular, it is effective to apply to small-scale wastewater treatment facilities with severe fluctuations in inflow flow.

The second effect of the present invention is that it is possible to prevent overflow when wastewater flows in excessively, and when the amount of wastewater flows in too little, the process progress is delayed depending on the inflow to minimize the death of microorganisms due to poor load. As time goes by, the operating time of equipment such as pumps, agitators, and blowers, which were operated collectively, is reduced, thereby reducing maintenance costs and securing the quality of treated water suitable for the site.

1 shows the height of the flow control tank of the present invention divided into three stages.
2 is a view corresponding to a flow chart showing the operating method of the present invention for each condition.
Figure 3a shows the batch activation reaction tank.
Figure 3b corresponds to a flow chart showing a driving method serving as a background art.
Figure 3c shows a typical operating method of the batch activation reactor.

The wastewater treatment method of the present invention is a modification of the batch-type activated sludge method, and it is an invention that enables complex process change control according to time and fluctuations in the amount of inflow wastewater by improving the control of process changes by the passage of time that was previously utilized.

In case of excessive inflow of wastewater, overflow phenomenon can be prevented, and when the inflow of wastewater is too small, the process progress is delayed depending on the inflow, thereby minimizing the death of microorganisms due to poor load. As a result, the operating time of equipment such as pumps, agitators, and blowers, which were operated at once, is reduced, which has the advantage of reducing maintenance costs.

In general, wastewater such as miscellaneous wastewater or excreta generated from homes and businesses is discharged into rivers, etc. after being purified by physical or biological methods for the preservation of river ecosystems and water resources.

In particular, in order to remove organic pollutants from wastewater and nutrients such as nitrogen and phosphorus that cause eutrophication of rivers and lakes, the aeration, sedimentation, and discharge processes of wastewater are sequentially performed in the same treatment tank. The supply of wastewater treatment equipment is increasing.

In this batch activated sludge method, each treatment process expressed as one cycle is performed in a single reaction tank, and the treatment process proceeds in the order of [inflow] → [aeration/reaction] → [sedimentation] → [drainage].

The currently operating plant has controlled changes in this process over time.

Each treatment process is carried out in a single reaction tank means that the treatment process takes place in a single tank called a reaction tank, and individual tanks such as 'flow control tank', 'sludge storage tank', and 'treatment tank' are necessary. can be installed according to

Therefore, in sites such as tourist destinations or military bases, where the amount of wastewater generated varies greatly depending on the season or day of the week, when a large amount of wastewater is generated at once, it is bypassed in the treatment plant and untreated water is discharged as it is, or a very small amount of wastewater is generated for a long period of time. In this case, there was a problem in that the microorganisms were killed and the treatment efficiency was rapidly reduced.

As described above, in the conventional batch-type activated sludge method, the process control over time was very cumbersome to manage in the field because it was difficult to properly respond to changes in the amount of wastewater.

The present invention configures a complex process so that the cycle control of the batch activated sludge method, which has been applied previously, can be changed according to the flow of time or the inflow flow rate to improve the above problems An object of the present invention is to provide a wastewater treatment process and a device therefor that are easy, reduce maintenance costs, and secure the quality of treatment water suitable for the site.

4 is a schematic diagram of the wastewater treatment process by the batch activated sludge method. Here, the 'flow control tank' is a tank installed to temporarily store wastewater flowing in during the treatment process.

As shown in the figure, when wastewater flows into the tank (①), the pollutants (②) sink, float in the middle, or float on the water depending on their specific gravity.

When the inflow progresses to some extent, it goes to the aeration reaction process, and one end of the aeration pipe (③) is connected to a blower and air is put into the wastewater.

In this case, the aerobic microorganisms in the reaction tank are activated and mixed with contaminants.

At this time, the microbes ingest some pollutants or attach the pollutants to the mucus surrounding the body, thereby increasing the weight.

Then, it operates in the sedimentation process. At this time, the blower is stopped and the supply of air is stopped.

Then, the microbes that ingest the pollutants or attach to the mucus increase in specific gravity and settle to the bottom.

After some precipitation, the water at the top (symbol water, 上澄水) is treated in accordance with the standard of discharge water quality as the pollution level is greatly reduced.

After that, the submersible pump is configured on the upper part of the decanter (solid-liquid separation device), and the pump is operated to discharge the symbol water to the outside.

Then, the initial inflow water level (h1) becomes the water level (h2) after discharge, and the treated water as much as h2-h1 is discharged. Repeat this process several times a day as 1-Cycle.

All these processes are controlled so that they can be operated automatically according to the passage of time by the process control panel (⑥).

In the meantime, in the prior art, when the water level in the flow control tank reached h2 despite the aeration or sedimentation process in the reaction tank, the treated water was unconditionally discharged and then the wastewater was introduced into the reaction tank.

In other words, even during the reaction process such as aeration, the treated water was discharged unconditionally, resulting in the discharge of unpurified pollutants.

However, in the present invention, the reaction tank was changed to operate separately whether it is an aeration reaction and whether it is a precipitation process.

Only when the reaction tank is in the sedimentation process, when the water level in the flow control tank reaches h2, the inflow process proceeds as the flow control tank pump operates into the reaction tank after discharging the treated water.

When the precipitation process in the reaction tank is finished and the symbol water is discharged by the discharge process, the flow rate control pump is operated and reaches the h3 level in the reaction tank within about an hour, and the reaction of the reaction tank must be restarted.

However, when the reaction tank does not reach the h3 level even after waiting for a certain period of time, that is, in the embodiment of the present invention, intermittent inflow is configured.

In the meantime, in the background technology, when the water level in the flow control tank reaches h2, the treated water is forcibly discharged and then the wastewater is introduced into the reaction tank. it has become

The present invention has invented a process controlled according to the complex factors of time and inflow flow rate in order to improve the problem of the method in which the process is controlled by time of the existing batch activated sludge method.

The operation method according to the passage of time simply proceeds with the passage of time, but when the operation method according to the time and inflow flow fluctuations according to the present invention is applied, the inflow flow rate fluctuates in response to the subdivided inflow conditions. It is suitable for application to severe small-scale wastewater treatment facilities.

The batch activation reaction tank has the following method.

It has an inflow process step and a reaction process step that is a step after the inflow process step.

It has a precipitation process step that is a step after the reaction process step.

It is to apply the operation method of the batch active reaction tank consisting of the discharge process step, which is a step after the precipitation process step.

The flow rate and time fluctuation response type wastewater treatment method, characterized in that the flow rate level of the flow rate control tank configured at the tip of the batch type active reaction tank and the operation of the flow rate control tank pump and the reaction tank pump are adjusted for each step of the operation method of the batch type active reaction tank have

It is determined whether the flow rate level of the flow control tank is above the lowest water level (h ₀ ) (S100), and when the flow rate level is less than the lowest water level (h ₀ ), by stopping the operation of the flow control tank pump, microorganisms in the reaction tank are killed and processed This is to prevent the problem of a sudden drop in efficiency.

It is determined whether the water level in the flow rate control tank is h ₁ or higher (S200) and, if it is higher, it is determined whether the flow water level in the flow rate control tank has reached the highest water level (h ₂ ) (S300) When the water level is reached, the It is determined whether or not it is a reaction tank precipitation process step of the batch type active reaction tank (S400), and after having a step of discharging the treated water through the reaction tank pump only during the precipitation process step, the flow rate control tank pump is operated to enter the contaminated water into the reaction tank There is a method to prevent the disadvantage of being discharged of untreated treated water in

If the water level in the flow control tank is h ₀ ~ h ₁ , operate the reaction tank pump in the reaction tank to determine whether the reaction tank water level has reached h ₃ for a certain period of time after discharge (S600) _. By intermittently driving the pump, the contaminated water is intermittently introduced into the reactor.

When h ₃ is reached, the flow control tank pump is stopped so that no more contaminated water to be treated enters the reaction tank.

In the present invention, when the treated water containing contaminants for more than 6 hours after the discharge process step of the batch activation reaction tank does not reach a certain height (h ₃ ) of the batch activation reaction tank, the flow rate control tank pump is intermittently operated. There is a method .

The flow level of the flow control tank is divided into three stages (h ₀ , h ₁ , h ₂ ) and configured.

According to each step, the flow control tank pump and the above four-step operating conditions (less than h ₀ , h _{0 ~} h ₁ , h _{1 ~} h _2, h ₂ ), including the condition of operating below the lowest water level (h ₀ ) It has a method for adjusting the operation of a batch-activated reactor pump.

In the prior art, the flow level was placed in only two stages, h ₀ and h ₂ .

A driving method for this is shown in FIG. 3B.

Depending on whether the level of polluted water in the flow control tank is higher than the minimum height h ₀ , if it is not higher than h ₀ , the flow control tank pump stops.

If the height of the flow control tank is h ₀ or higher, it is determined whether _the height of the flow control tank has reached h ₂ By discharging the treated water with a pump, the contaminated water flows directly into the river.

The main object of the present invention is to solve such shortcomings.

If the height _of the flow control tank does not reach h2, it is determined whether the reaction tank precipitation stage is in the reaction tank settling process stage, the flow control tank pump is stopped, and if it is not the reaction tank sedimentation process stage, the flow rate adjustment tank pump is operated intermittently to operate the reaction tank to allow contaminated water to enter the

If the flow rate control tank does not reach h ₂ , that is, if the level of the contaminated wastewater in the flow control tank is h ₁ ~ h ₂ This is to prevent any more contaminated water from entering the reaction tank by stopping it.

If it is not the precipitation process step of the batch activation reaction tank, it is determined whether the batch activation reaction tank process step has not progressed (S800). It is to intermittently operate the flow control tank pump so that the inflow is intermittently.

In addition, when the height of the flow control tank reaches h ₂ , if it is not the reaction tank precipitation process step, it is determined whether the reaction tank process has not progressed (S500). In the case of the reaction tank process step, the flow rate control tank pump is operated intermittently so that the contaminated water flows into the reaction tank intermittently.

The terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor may properly define the concept of the term in order to best describe his invention. Based on the principle that there is, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so at the time of the present application, they can be replaced It should be understood that various equivalents and modifications may exist.

h ₀ : the lowest height of the flow control tank h ₁ : the middle height of the flow control tank
h _2: the highest height of the flow control tank h _3: the normal operating height of the batch active reaction tank

Claims (5)

inflow process step;
a reaction process step that is a step after the inflow process step;
A precipitation process step that is a step after the reaction process step;
Applying the operation method of the batch activation reaction tank consisting of the discharge process step, which is a step after the precipitation process step,
Flow rate and time fluctuation response type wastewater treatment method, characterized in that the flow rate level of the flow rate control tank configured at the front end of the batch type active reaction tank and a method of adjusting the operation of the flow rate control tank pump and the reaction tank pump for each step of the operation method of the batch type active reaction tank. The method according to claim 1, wherein when the flow rate level of the flow rate control tank reaches the highest water level, the step of discharging the treated water through the reaction tank pump only during the settling process step of the batch-type active reaction tank is discharged from the reaction tank. A wastewater treatment method corresponding to flow rate and time fluctuation, characterized in that it is configured to prevent shortcomings. According to claim 1, wherein when the flow rate level of the flow control tank is less than the minimum water level, by stopping the operation of the flow control tank pump, microorganisms are killed to prevent a problem of abruptly lowering the treatment efficiency. processing method. The method according to claim 1, wherein the flow rate level of the flow control tank is divided into three stages,
A method for responsive to flow rate and time fluctuations, characterized in that the operation of the flow control tank pump and the reaction tank pump is adjusted according to the four-step operating conditions, including the condition of operating below the minimum water level according to each step. The flow rate according to claim 1, wherein the flow rate adjustment tank pump is configured to intermittently operate when the treated water containing contaminants for more than 6 hours after the discharge process step of the batch activation reaction tank does not reach a certain height of the batch activation reaction tank and time-varying wastewater treatment method.

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