KR100493580B1 - Primary settling basin having flow regulation function and flow regulation method using the same - Google Patents

Abstract

The present invention relates to a primary sedimentation battery applied to a sewage and wastewater treatment plant. More specifically, a flow regulating tank is separately installed by providing a flow regulation function performed by a conventional flow adjusting tank to a primary sedimentation battery necessarily required in a sewage and wastewater treatment plant. The present invention relates to a primary sedimentation battery having a flow adjustment function capable of reducing a site required for performing the same, and a flow adjustment method using the same.

The present invention relates to a flow rate adjusting primary settler cell partitioned into a plurality of settling tanks, an equal distribution tank installed to equally distribute and transport the inflow sewage flowing into each settling tank of the flow rate adjusting primary settling cell, and a settling tank of the flow rate adjusting primary settling cell. A tank sewage conveying apparatus installed to convey the internal sewage inside the sedimentation tank to the absorption well of the pumping station, and an inflow pump configured to transfer the inflow sewage or the internal sewage of the absorption well to the primary settling battery for adjusting the flow rate. With primary battery:

When the amount of inflow sewage is insufficient, such as at dawn, the internal sewage of any sedimentation tank (return sedimentation tank) selected from the sedimentation tank of the flow rate primary settler is returned to the absorption well of the pump station, and the inlet pump installed in the absorption well is used. The returned tank internal water is introduced into the equalizing tank and supplied evenly to each settling tank of the flow adjusting primary settler, and when the quantity of inflow sewage is sufficient as in the daytime, the inflowing sewage is introduced into the equalizing settling tank of the flow adjusting primary settler. By supplying equally to each settling tank to fill the sewage into the selected settling tank (bounce settling tank) provides a method for adjusting the flow rate.

Description

Primary settling basin having flow regulating function and flow regulating method using same {primary settling basin having flow regulation function and flow regulation method using the same}

The present invention relates to a primary sedimentation battery applied to a sewage and wastewater treatment plant. More specifically, a flow regulating tank is separately installed by providing a flow regulation function performed by a conventional flow adjusting tank to a primary sedimentation battery necessarily required in a sewage and wastewater treatment plant. The present invention relates to a primary sedimentation battery having a flow adjustment function capable of reducing a site required for performing the same, and a flow adjustment method using the same.

In general, the sewage and wastewater treatment plant, as shown in Figures 1a and 1b, primary sedimentation battery (7) and bioreactor (aeration tank) (40) for removing the floating contaminants and organic contaminants contained in the sewage and wastewater 40 Are applied sequentially. That is, the primary sedimentation battery 7 serves as a pretreatment for biological treatment at the rear end. The primary sedimentation battery 7 retains the inflow sewage for a predetermined time to settle the material heavier than water and removes it as sedimentation sludge. After removal through the scum removal device of the feed to the bioreactor by a predetermined amount. At this time, the bioreactor 40 is a process of oxidatively decomposing organic contaminants using aerobic microorganisms, so the environment bonded to the growth of microorganisms must be maintained and the residence time must be constant. Therefore, it is preferable that the amount of sewage supplied to the bioreactor from the primary needle battery 7 is always constant.

However, as shown in Figure 7, the amount of influent sewage flowing into the sewage and wastewater treatment plant fluctuates greatly depending on the time of day. For example, the inflow of sewage increases during the daytime (6: 00 ~ 22: 00), when people are active, and during the early morning (0: 00 ~ 6: 00), when there is little activity. Is reduced. Therefore, bioreactors in sewage and wastewater treatment plants are generally designed based on average inflow sewage (eg 2,000㎥ / hr), and fluctuations in inflow sewage can be made by buffering the flow control tank separately.

The flow regulating tank 6 is divided into an in-line method and an off-line method according to the arrangement method. FIG. 1A is a series method in which all inflow and outflow water passes through the flow adjusting tank 6, and FIG. 1b is a parallel system in which only the amount exceeding the maximum amount of sewage per day flows into the flow regulating tank 6. Therefore, if the flow rate adjustment tank (6) is installed, it is possible to solve the problem caused by the fluctuation of the inflow and sewage amount. However, in order to install the flow rate adjustment tank (6) there is a problem that a lot of installation site cost and facility construction cost is required because the installation site of a fairly large area is required. In particular, when the available facility site is insufficient or a large flow adjustment tank is required, the cost is very large.

The present invention is to solve the problems as described above, the first having a flow adjustment function that can uniformly maintain the amount of sewage flowing into the bioreaction tank irrespective of fluctuations in the inflow of sewage, while omitting the flow adjustment tank that requires a large amount of land area The purpose is to provide a settling basin.

In another aspect, the present invention is to provide a method for adjusting the flow rate using a primary settling battery having a floating pollutant removal function and a flow adjustment function for buffering the fluctuation of the influent sewage.

In order to achieve the above object of the present invention, the primary settling battery having a flow adjusting function according to the present invention is applied to a sewage and wastewater treatment plant to remove floating contaminants contained in influent sewage, etc. 1. A flow rate primary needle battery for constantly supplying sewage, the flow rate adjusting primary needle battery comprising: a plurality of settling tanks partitioned into a predetermined size in the flow rate primary needle battery; A pumping station composed of an absorption well and an inflow pump of a predetermined size so as to transfer the inflow sewage into the primary settling battery for adjusting the flow rate; An equal distribution tank installed to equally distribute and transport the inflow sewage pumped from the pumping station to each settling tank of the flow rate primary settler battery; And a tank sewage conveying apparatus for conveying the sewage inside the sedimentation tank from the plurality of sedimentation tanks to the absorption well of the pump station.

In addition, the flow rate adjusting method using the primary settler having a flow adjusting function includes a settling tank selected from the settling tank of the settling tank for adjusting the flow rate when the quantity of the inflow sewage is insufficient in the flow rate adjusting primary settler having the above-described configuration, such as at dawn. The internal tank sewage of the (returning settling tank) is returned to the absorption well of the pumping station, and the tank inner sewage returned by the inlet pump installed in the absorption well is introduced into the equal distribution tank to equally supply the sedimentation tank of the primary settling battery for flow rate adjustment. Intra-tank sewage return step; When the amount of inflow sewage is sufficient, such as during the day, the inflow of sewage is introduced into an equal distribution tank and equally supplied to each sedimentation tank of the flow control primary settling cell to fill the inflow sewage into the selected sedimentation tank (bounce sedimentation tank). It is configured to include.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the primary needle battery having a flow adjustment function according to the present invention.

First, Figures 2a and 2b is a schematic configuration showing a sewage and wastewater treatment plant equipped with a primary sedimentation battery having a flow adjustment function according to the present invention, Figure 3 is a configuration showing the flow rate adjustment primary needle cell according to the present invention in more detail Figure 4 is a plan view of the flow rate primary needle battery according to the present invention, Figure 5 is a plan view showing an example of a distribution device installed at the tip of the flow rate primary needle battery according to the present invention.

2A and 2B, the sewage and wastewater treatment plant 1 (hereinafter referred to as a “sewage treatment plant”) according to the present invention has a predetermined size, instead of separately installing a flow control tank and a primary sedimentation tank. The primary needle battery 10 for flow rate adjustment is provided. 2A and 2B are distinguished according to the installation position of the pump or pump station 20, and FIG. 2A is a case in which the pump or pump station 20 is installed in-line with the primary precipitator 10 for adjusting the flow rate. 2B is a case where the in-line is installed.

3 and 4, the primary settler battery having a flow adjusting function according to the present invention, the primary settling battery 10 for adjusting the flow rate consisting of a plurality of settling tank 13 having a predetermined size and shape, and the inflow sewage equally It is comprised from the equal distribution tank 30 which distributes, the conveying apparatus 50 which conveys internal sewage, and the pumping station 20 which conveys inflow sewage or conveyed internal sewage.

The plurality of settling tank 13 has the same structure and function as a conventional primary settling battery. Therefore, the bottom surface is inclined, and a scum removal device is installed on the water surface, and a predetermined overflow wear is formed at the inflow portion into which the inflow sewage flows in and the outflow portion through which the outflow sewage flows out. In addition, an equal distribution tank 30 is provided at the tip of the flow rate adjusting primary needle battery 10 to introduce inflow sewage (or tank internal sewage to be returned) into each settling tank 13. The equal distribution tank 30 is in communication with the pump station 20 and the plurality of settling tank 13 through the inlet pipe 27 and the plurality of transfer pipes (39).

On one side of the flow rate adjusting primary settlement battery 10, a tank sewage transport apparatus 50 for transporting tank sewage and sediment sludge in each sedimentation tank 13 is provided. The conveying apparatus 50 communicates with the pumping station 20 via a plurality of conveying pipes 51. The conveying pipe 51 is provided with a conveying pump 55 for pumping sewage in the tank. In addition, the pumping station 20 includes an absorption well 23 and an inflow pump 25 having a predetermined size, and the inflow pump 25 is installed in an inflow pipe 25 to provide inflow and sewage in the absorption well 23. The conveyed inner tank sewage is transferred to an equal distribution tank 30.

 On the other hand, at the rear end of the flow rate adjusting primary needle battery 10, an outflow sewage equal distribution device 60 for equally distributing the outflow sewage to flow into the plurality of biological reactors 40 is provided. That is, the outflow sewage flowing out of each settling tank 13 is configured to be sorted again, so that the sewage flowing into the bioreactor 40 is distributed evenly.

Next, referring to FIG. 5, the equal distribution tank 30 is provided in the distribution tank 31 having a predetermined size in communication with the end of the inflow pipe 27 and the distribution tank 31 to equalize the inflow sewage. A plurality of distribution chambers 33 for distributing, and a plurality of transfer pipes 39 for guiding the inflow sewage evenly distributed in communication with each of the distribution chambers 33 to each settling tank 13 of the flow regulating basin 10. Consists of In addition, the distribution tank 31 is provided with a rectifying plate 32 for rectifying the sewage flowing through the inflow pipe 27 and a overflow plate 34 for maintaining a constant flow rate flowing into each distribution chamber 33. It is.

Accordingly, the inflow sewage (or the tank internal sewage) introduced through the inflow pipe 27 is injected from the lower portion of the distribution tank 31 and passes through the rectifying plate 32 and the overflow plate 34 to each distribution chamber ( 33) and evenly distributed. At this time, the distribution chamber 33 is installed so that the settling tank 13 corresponds to the number. In addition, the transfer pipe 39 is in the form of a channel, and a control gate 38 is installed at each end of the channel. However, the equal distribution tank 30 is only to show an example of the equal distribution tank 30 having a variety of configurations and the equal distribution tank according to the present invention is not limited to this configuration.

3 and 4, a plurality of control means for selectively blocking the inflow of sewage evenly distributed in the distribution chamber 33 into each settling tank 13 in the transfer pipe 39 ( 36) (including control gate) is installed. At this time, another example of the transfer pipe 39 is a pipe-type pipe and the control means 36 is a solenoid valve. The conveying pipe 51 is provided with a plurality of conveying control valves 56 for controlling the flow of sewage and sedimentation sludge in the tank. In this case, the conveying pump 27 installed in the conveying pipe 51 may be omitted when natural drop due to gravity is possible. In addition, a first water level measuring device 26 for measuring the water level of the absorption well 23 is installed in the absorption well 23 of the pumping station 20, and in each settling tank 13 of the primary settling battery 10 for flow rate adjustment. The second water level measuring device 16 is provided. In addition, in the primary needle battery having a flow adjusting function according to the present invention, the inflow pump 25 and the conveying pump 55 and the plurality of control means 36 according to the measured values of the first and second water level measuring devices 26 and 16. And a control unit (not shown) for selectively controlling the return control valve 56.

As described above, the primary settling cell having a flow adjusting function according to the present invention includes a settling basin for adjusting the flow rate divided into a plurality of settling tanks, and absorbs the sewage in the settling tank selected from the plurality of settling tanks when the amount of inflow water is small, such as at dawn. The internal sewage that is returned to the well and returned is supplied to the other sedimentation tank through the inflow pump and the equal distribution tank (internal water sewage return step), and on the contrary, when the inflow amount is large, such as during the day, the inflow through the inflow pump and the equal distribution channel The sewage is supplied to the sedimentation tank to fill the empty sedimentation tank while supplying the remaining sedimentation tank (inflow and sewage supply stage) to maintain a constant flow rate of sewage flowing into the rear bioreactor.

Hereinafter, a flow rate adjusting method using a primary needle battery having a flow rate adjusting function according to the present invention will be described with reference to the accompanying drawings.

First, FIG. 6 shows that all the settling tanks 13 of the flow rate primary needle battery 10 are at full water level. In this state, if sewage is not introduced from the outside of the sewage treatment plant (or wastewater treatment plant), the water level of the absorption well 23 drops rapidly. Then, the first water level meter 26 installed in the absorption well 23 detects this and provides an electric signal to a controller (not shown). Then, the control unit selects any one of the settling tanks 13 in the full water level, opens the transfer control valve 56a of the transfer pipe 51 installed in communication with the lower portion of the settling tank 13a, and at the same time the transfer pipe ( Operate the transfer pump 55 installed in 51). Then, the sedimentation sludge together with the sewage in the tank from the selected sedimentation tank (conveying sedimentation tank) 13a is returned to the absorption well 23.

Subsequently, the control unit operates the inflow pump 25 installed in the absorption well 23 to send the returned inner sewage and sedimentation sludge to the equal distribution tank 30 and between the equal distribution tank 30 and each settling tank 13. The control means 36a on the conveyance pipe line 39 communicated with the conveyance settling tank 13a which conveys the sewage in tank inside of the conveyance pipe line 39 installed in this is closed. Therefore, the conveyed tank internal water is prevented from continuously circulating through the conveyance settling tank 13a. On the other hand, tank sewage introduced into the settling tank 13 other than the return settling tank 13a is discharged through the outflow sewage equalization device 60 installed at the rear end of the settling tank 13 through a normal settling process.

The internal sewage of the sedimentation basin (13a) is completely depleted by continuing the internal sewage transport step for a predetermined time, and the second water level measuring unit (16a) installed in the sedimentation basin (13a) detects this and provides an electric signal to a controller (not shown). do. Then, the control unit closes the currently open transfer control valve 56a, selects another sedimentation basin 13b, opens the corresponding transfer control valve 56b, and returns the sewage in the tank to the pump station 20. At this time, the control valves 36a and 36b of the conventional sedimentation basin 13a and the newly selected sedimentation basin 13b are all closed to prevent the internal tank sewage from being returned to the returning sedimentation basins 13a and 13b. In some cases, it is also possible to simultaneously return crude sewage from two settling basins. As the return settling tank (13a) (13b) is increased in this way, the settling tank in the full water level is reduced, so that the amount of sewage supplied to the bioreactor (40) is also reduced. Therefore, in this case, it is preferable to increase the pumping amount of the conveying pump 55 and the inflow pump 27 so that the amount of sewage flowing into the bioreactor 40 is kept constant.

Subsequently, when a sufficient amount of sewage flows from the outside of the sewage treatment plant in the state where the internal sewage of the return sedimentation tanks 13a and 13b of the flow rate adjusting sedimentation basin 10 or 13b is exhausted, the absorption well 23 The water level will increase rapidly. Then, the first water level meter 26 installed in the absorption well 23 detects this and provides an electric signal to a controller (not shown). Then, the control unit closes the transfer control valve 56b of the sedimentation tank 13b carrying the internal sewage and stops the operation of the transfer pump 55 to stop the internal sewage transportation.

Then, the suction pump 25 is operated to supply the sewage flowing into the absorption well 23 to the equal distribution tank 30, and simultaneously open all the control means 36 installed in the transfer pipe 39. Then, the sewage equally distributed in the equal distribution tank 30 is introduced into each settling tank 13. At this time, the sewage introduced into the sedimentation tank 13 in the full water level is discharged after being precipitated and supplied to the microbial reaction tank 40. However, the sewage flowing into the return sedimentation tanks 13a and 13b depleted of the sewage in the tank is not discharged to the outside until the water level is reached, and continues the filling process.

On the other hand, if the amount of sewage flowing in from the outside of the sewage treatment plant (or wastewater treatment plant) is temporarily insufficient, the amount of sewage flowing into the bioreactor 40 may be limited by limiting the amount of sewage flowing into the return settling tanks 13a and 13b. It is also preferable to keep it constant.

As described above, the primary settling battery capable of adjusting the flow rate of the sedimentation tank is emptied of the sewage in the sedimentation tank sequentially and then refilled with the inflow sewage so as to easily buffer the flow rate that varies according to the time zone so that the amount of sewage flowing into the bioreactor is always available. Keep it constant Incidentally, by periodically emptying each sedimentation basin, problems such as sludge interface management can be solved. In addition, the flow rate adjusting method according to the present invention can easily control a plurality of water level meters and valves by using a predetermined control unit. 7 is a graph showing the effect of the flow rate adjustment using the primary needle battery having a flow rate adjustment function according to the present invention, as shown, it is possible to maintain a constant flow rate irrespective of the fluctuation of the incoming sewage amount.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

As described above, according to the present invention, since the fluctuation amount of the inflow sewage can be adjusted without installing a separate flow adjustment tank, it is possible to save the site and installation cost required for the installation of the flow adjustment tank.

In addition, the present invention has an effect that can facilitate the sludge interface management by periodically emptying each sedimentation basin.

Figure 1a and Figure 1b is a schematic configuration showing a wastewater treatment plant equipped with both a flow control tank and the primary settler according to the prior art,

Figure 2a and Figure 2b is a schematic configuration showing a wastewater treatment plant in which the flow rate adjustment tank is omitted and the primary settler for flow rate adjustment is installed in accordance with the present invention,

3 is a block diagram showing the flow rate adjustment primary needle battery according to the present invention in more detail,

4 is a plan view of a primary needle battery for adjusting the flow rate according to the present invention;

5 is a plan view showing an example of a distribution device installed at the tip of the primary needle battery for adjusting the flow rate according to the present invention;

6 is a configuration diagram for explaining a flow rate adjustment method using the primary precipitator for flow rate adjustment according to the present invention;

7 is a graph showing the flow adjustment effect according to the present invention.

***** Description of the symbols for the main parts of the drawings ******

10: primary immersion battery for flow adjustment 13: settling basin

13a, 13b: conveyed sedimentation basin 16: second water level meter

20: pump station 23: absorption tablet

25 inflow pump 26 first level gauge

30: equal distribution tank 31: distribution tank

33: distribution room 36: control means

39: transfer pipe 40: bioreactor

50: tank sewage conveying device 51: conveying pipe

55 transfer pump 56 transfer control valve

60: Effluent distribution device

Claims (12)

In the primary sedimentation battery for flow rate adjustment, which is applied to sewage and wastewater treatment plant and removes floating contaminants contained in inflow sewage, and then continuously supplies effluent sewage to the bioreactor in the next stage, A plurality of settling tanks partitioned into a predetermined size in the flow rate primary needle battery; A pumping station composed of an absorption well and an inflow pump of a predetermined size so as to transfer the inflow sewage into the primary settling battery for adjusting the flow rate; An equal distribution tank installed to equally distribute and transport the inflow sewage pumped from the pumping station to each settling tank of the flow rate primary settler battery; A primary sedimentation battery having a flow regulating function, characterized in that it comprises a tank sewage conveying device for conveying the internal sewage in the sedimentation tank from the plurality of sedimentation tank to the absorption well of the pump station. The method of claim 1, The inflow and sewage equalization tank is connected to the inflow pump and the distribution tank of the predetermined size is installed so that the end of the inflow pipe for transporting the inflow sewage; A plurality of distribution chambers installed to equally distribute the inflow sewage introduced into the distribution tank; A plurality of transfer pipes installed in communication with each of the distribution chambers to guide the influent sewage distributed evenly to the inlets of each settling tank; The primary precipitator having a flow rate adjusting function, characterized in that it is installed in the conveying pipeline and comprises a control means for controlling the flow of inflow sewage. The method of claim 2, The feed pipe is a feed pipe or a feed channel, the control means is a primary needle battery having a flow adjustment function, characterized in that the control valve or the control gate. The method of claim 1, The tank sewage conveying apparatus is provided in communication with the lower portion of the sedimentation tank and a plurality of conveying pipes for conveying the sewage and sediment sludge in the sedimentation tank to the absorption well; The primary needle battery having a flow rate adjustment function, characterized in that it comprises a conveying control valve installed in the conveying pipe to control the flow of conveying sewage. The method of claim 1, The conveying pipe is a primary settling battery having a flow rate adjustment function, characterized in that the conveying pump for transferring the sewage and sedimentation sludge is further installed. In the primary sedimentation battery for flow rate adjustment, which is applied to sewage and wastewater treatment plant and removes floating contaminants contained in inflow sewage, and then continuously supplies effluent sewage to the bioreactor in the next stage, A plurality of settling tanks partitioned into a predetermined size in the flow rate primary needle battery; An equal distribution tank installed to equally distribute and transport the inflow sewage flowing into each settling tank of the flow rate primary settling battery; A coarse sewage conveying apparatus for conveying internal sewage in the sedimentation tank from the sedimentation tank of the primary settling battery for flow rate adjustment to an absorption well in a pump station; And an inlet pump for conveying the sewage sewage conveyed to the absorption well into the equal distribution tank through an inflow pipe communicating with the equal distribution tank. The primary settling cell for flow rate adjustment divided into a plurality of settling tanks, an equal distribution tank installed to equally distribute and transport the inflow sewage flowing into each settling tank of the flow rate adjusting primary settling cell, and the tank inside the settling tank from the settling tank of the flow rate adjusting primary settling cell Using a primary sedimentation battery having a flow regulating function comprising a tank sewage conveying apparatus installed to convey the sewage to the absorption well of the pumping station, and an inflow pump for transferring the inlet sewage or the inner sewage of the absorption well into the flow rate adjusting primary sedimentation battery. In the flow rate adjustment method, When the amount of inflow sewage is insufficient, such as at dawn, the internal sewage of any sedimentation tank (return sedimentation tank) selected from the sedimentation tank of the flow rate primary settler is returned to the absorption well of the pump station, and the inlet pump installed in the absorption well is used. An intra-tank sewage conveying step of feeding the returned intra-tank sewage into an equal distribution tank and equally supplying the sedimentation tank of the primary settling battery for flow rate adjustment; When the amount of inflow sewage is sufficient, such as during the day, the inflow of sewage is introduced into an equal distribution tank and equally supplied to each sedimentation tank of the flow control primary settling cell to fill the inflow sewage into the selected sedimentation tank (bounce sedimentation tank). Flow rate adjustment method using a primary needle battery having a flow rate adjustment function comprising a. The method of claim 7, wherein In the tank sewage conveying step, the flow rate adjusting method using the primary sedimentation battery having a flow adjusting function, characterized in that for supplying the inner sewage returned to the remaining sedimentation tank except the selected sedimentation tank (conveying sedimentation tank). The method of claim 7, wherein In the inflow and sewage supply step, the flow rate adjusting method using a primary settling cell having a flow rate adjustment function, characterized in that for limiting the flow rate of the inflow sewage flowing into the selected sedimentation tank (conveying settling tank). The primary settling cell for flow rate adjustment divided into a plurality of settling tanks, an equal distribution tank installed to equally distribute and transport the inflow sewage flowing into each settling tank of the flow rate adjusting primary settling cell, and the tank inside the settling tank from the settling tank of the flow rate adjusting primary settling cell An intra-tank sewage conveying apparatus installed to convey the sewage to the absorption well of the pumping station, an inflow pump for transferring the inflow sewage or the intra-sea sewage of the absorption well to the primary needle battery for adjusting the flow rate, a first water level meter installed in the absorption well; A plurality of second water level meters installed in each settling tank of the flow rate adjusting primary settlement cell, a plurality of return control valves installed in a conveying pipe communicating with each settling tank and discharging the inner water of the tank; Flow rate that includes a plurality of control means installed in the conveying line for transporting sewage In the flow rate adjustment method using a primary needle battery having an adjustment function, When the water level of the first water level meter installed in the absorption well falls below the reference level, the transport control valve selected from the plurality of transport control valves is opened to discharge the internal sewage of the sedimentation tank (bounce sedimentation tank) selected from the sedimentation tank of the primary settling battery for flow rate adjustment. It returns to the absorption well of the pumping station, operates the inflow pump of the absorption well, inflows the conveyed internal sewage into the equal distribution tank, and closes the control means of the transfer pipe communicating with the selected sedimentation tank (transfer sedimentation tank) of the transfer pipe to close the return sedimentation tank. A coarse sewage conveying step of equally supplying coarse sewage returned to the remaining sedimentation tank; When the water level of the first water level meter installed in the absorption well rises above the reference level, the inlet sewage is equalized by operating the inlet pump of the absorption well while closing the open transport control valve and opening the closed control means. Using the primary settler having a flow control function comprising the inlet sewage supply step of supplying the inlet sewage into the selected settling tank (returning settling tank) by supplying equally to each settling tank of the flow rate adjustment primary settler battery to flow into the distribution tank How to adjust the flow rate. The method of claim 10, In the tank sewage conveying step, if the level of the second water level meter of the selected sedimentation tank (conveying sedimentation tank) falls below a certain level, the selected flow control valve is closed and the flow control function of the other sedimentation tank is opened. Flow rate adjustment method using a primary needle battery having. The method of claim 9, An inflow pump installed in the absorption well is controlled to maintain a uniform flow rate of the outflow sewage flowing out of the flow rate primary needle battery, characterized in that the flow rate adjustment method using a primary needle battery having a flow adjustment function.