KR100907290B1 - Storage system - Google Patents

Abstract

The present invention, the inlet water measurement unit is provided in the conduit to measure the quantity and quality of the influent water flowing into the conduit; A storage tank connected to the collection conduit, the inner space being divided into a high concentration storage tank for accommodating a high concentration of inflow water from the intake water of the collection conduit by a partition wall, and a low concentration storage tank for receiving a low concentration inflow water from the inflow of the collection conduit; An opening / closing valve unit for switching the inflow water discharge direction of the collecting pipe into one of the high concentration storage tank and the low concentration storage tank; And a control unit for controlling the opening / closing valve unit according to the data measured by the inflow water measuring unit, to separate and store the inflow water of the collection conduit in the high concentration storage tank and the low concentration storage tank for each concentration. to provide.

Storage system, high concentration storage tank, low concentration storage tank

Description

Storage system {STORAGE SYSTEM}

1 is a schematic diagram of a typical combined sewage system,

2 is a schematic view of a general storage facility,

3 is a schematic view of a conventional storm collecting device,

4 is a schematic diagram of a storage system according to the present invention;

5 is a plan view and a longitudinal sectional view of the storage tank according to the present invention;

6 is a conceptual diagram applying the storage system according to the present invention to the storage of the combined sewage pipe overflow water;

7 is a conceptual diagram of applying the storage system according to the present invention to the initial excellent storage of the classification storm drain;

8 is a conceptual diagram applying the storage system according to the present invention to the storage of sewage collected above the sewage treatment plant treatment capacity in the combined sewage pipe.

The present invention, by measuring the water quality and flow rate of the inflow water flowed into the drainage conduits based on this to control the inflow of the intake water transport direction according to the water quality of the inflow water to discharge the inflow to the sewage treatment plant or to separate the concentration in the storage tank by storage A storage system and a storage device that can be used.

1 is a schematic diagram of a typical combined sewage system. In the dry season, the total amount of sewage generated is transferred to the sewage treatment plant through the conduit, but during rainfall, the flow rate exceeding 3Q of the conduit is overflowed by the discharge line. Combined Sewer Overflows (CSOs) run off together with rainwater and cause surface contaminants, sediments in the conduits, and untreated sewage to flow out, resulting in higher or higher concentrations than dry season sewage and are directly discharged to adjacent waters. It is known as one of the main causes of pollution.

Recently, there has been a great deal of interest in the installation of an apparatus-type treatment facility and a storage tank facility as a technology for treating overflow water generated during rainfall. Apparatus-type treatment facility treats overflowed water and discharges treated water into the stream and sends solids to the sewage treatment plant. The storage tank facility stores the overflowed water in the storage tank, and the overflowed water exceeding the storage tank capacity is discharged into the stream. The reservoirs stored in the storage tanks are treated in conjunction with sewage treatment plants, sometimes with separate treatment facilities.

On the other hand, such a storage tank facility is installed during the sewage treatment process as well as the storage of the overflow water, and also performs a function of the flow adjustment tank to temporarily store the sewage collected in the collector. An example of a storage facility having such a scheme is shown in FIG. Sewage collected during rainfall has a treatment process in which it is stored in a storage tank installed at the rear of a screen and a sedimentation facility and discharged to a treatment plant or a reservoir according to the water quality of the storage water. However, this type of storage tank is stored regardless of the water quality of the sewage flowing in during rainfall, and the sewage or rainwater with high concentration is excellent because it is determined whether or not to flow into the subsequent process, that is, to be discharged by the mixed water quality. Alternatively, since the monthly water flows into the storage tank and is subsequently diluted by the low concentration sewage or rainwater or the monthly water flowing into the storage tank, there is a limit that the efficiency can be reduced in terms of the quantity of pollutants stored in the storage tank. For this reason, there is a need for storage by dividing the concentration of influent in the storage tank.

In this regard, an apparatus for collecting rainwater flowing in rainfall at different concentrations has been developed. FIG. 3 shows a schematic diagram of the collecting device. This collection device is designed to automatically collect and remove only the rainwater so that the initial rain, which contains various pollutants in the early days of rain, does not mix with the relatively clean rainwater afterwards. It is composed of rainwater discharge tank, float ball installed inside the discharge tank to block the inlet of the discharge water, and rainwater storage tank that collects relatively clean rainwater after the initial rainwater.

In the rainwater collecting device, the initial excellent separation discharge tank has a structure in which opening and closing of the inlet is made of float balls so that the storage in the rainwater storage tank starts only when the level of the separation discharge tank is maximized. Therefore, even rain can be stored in a separate discharge tank even relatively clean rain, the overall water quality is diluted, there is a disadvantage that the function of the separation discharge tank, which was the purpose of the separation and discharge of the initial excellent rainwater with a lot of contaminants may be reduced.

An object of the present invention is to store the overflowed water in a consolidation sewage pipe, or to store the condensed sewage collected at a concentration or higher than the sewage treatment plant. It is to provide a storage system and a storage device that can discharge the influent to the sewage treatment plant or by separating the concentration in the storage tank by storing the inflow of the influent flows into the new collection conduits according to the water quality concentration of the influent.

According to the present invention, the inlet water measuring unit for measuring the amount of water and the quality of the inflow water is provided in the collecting pipe inflow to the collecting pipe; A storage tank connected to the collection conduit, the inner space being divided into a high concentration storage tank for accommodating a high concentration of inflow water from the intake water of the collection conduit by a partition wall, and a low concentration storage tank for receiving a low concentration inflow water from the inflow of the collection conduit; An opening / closing valve unit for switching the inflow water discharge direction of the collecting pipe into one of the high concentration storage tank and the low concentration storage tank; In accordance with the data measured by the inflow water measuring unit, by controlling the opening and closing valve unit, the storage system and the storage device, characterized in that it comprises a control unit for storing the inlet water of the collection conduits separated by concentration in the high concentration storage tank and the low concentration storage tank. Is achieved.

The storage system and the storage device are branched from the collection conduit, the storage tank supply line having a high concentration transfer line for transferring the inflow of the collection conduit to the high concentration storage tank, and a low concentration transfer line for transferring the inflow of the collection conduit to the low concentration storage tank. It may further include.

In addition, it may further include an influent stream discharge line is formed branched from the low concentration transfer line, the inlet water discharged to the stream inlet flows into the low concentration transfer line.

In addition, a low concentration sewage discharge line having a low concentration sewage treatment discharge line for releasing the low concentration storage water of the low concentration storage tank mutually branched to the sewage treatment plant, and a low concentration river discharge line for releasing the low concentration storage water of the low concentration storage tank; It may further comprise a high concentration sewage treatment discharge line for discharging the high concentration storage water of the high concentration storage tank to the sewage treatment plant.

Here, the high concentration sewage treatment discharge line and the low concentration sewage treatment discharge line may be joined by a joining line connected to the sewage treatment plant.

It is preferable that a first discharge valve is provided on the high concentration sewage treatment discharge line, and a second discharge valve is provided on the low concentration sewage treatment discharge line.

On the other hand, the drainage pipe is connected to the confluence sewage pipe drain wall drainage pipe flows inflow of the overflow water of the combined sewage pipe drainage, drainage drainage pipe drainage connected to the rainwater type drainage drainage, and the confluence of sewer drainage flows into the sewage drainage of the combined sewage pipe It can be any one of the dwellings.

The inflow water measuring unit comprises: a first inflow water measuring unit for measuring the quantity and water quality of the inflow water flowing through the initial and middle regions of the drainage pipe; It is preferable that the second inflow measurement unit for measuring the quantity and the quality of the inflow water flowing through the late discharge zone of the collecting pipe just before entering the storage tank supply line.

The first and second inflow water measuring unit is preferably composed of a flow meter for measuring the flow rate and a water quality meter for measuring the water quality.

Here, the water quality factors of the water quality meter may vary, such as BOD (biochemical oxygen demand), COD (chemical oxygen demand), TOC (total organic carbon), SS (floating solids), EC (electric conductivity), etc. It can select accordingly.

The high concentration storage tank is provided with a high concentration storage tank measuring unit for measuring the water level and the water quality of the high concentration storage water stored in the high concentration storage tank, the low concentration storage tank is a low concentration storage tank measurement for measuring the water level and water quality of the low concentration storage water stored in the low concentration storage tank. It is preferable that a part is provided.

The high concentration and low concentration storage tank measuring unit is preferably composed of a water level meter for measuring the water level and a water quality meter for measuring the water quality, respectively. Here, the water quality meter may be the same as the water quality meter of the inflow water measuring unit.

Each of the high concentration storage tank and the low concentration storage tank is preferably formed with a wall wear for collecting the sand included in the inflow water, and a dike wall for increasing the settling efficiency of the solids.

The on-off valve part may be provided as a three-way valve formed in a branching area branched from the collecting pipe to the storage tank supply line.

Or the opening / closing valve unit includes: a first opening / closing valve provided on an inflow side of the high concentration storage tank on the high concentration transfer line; The low concentration transfer line may be composed of a second opening and closing valve provided on the inlet side of the low concentration storage tank. The apparatus may further include a third open / close valve provided on the inflow stream discharge line.

The controller calculates a flow-weighted average concentration using the measured value measured by the first inflow water measurement unit, compares the measured value measured by the second inflow water measurement unit with the flow-weighted average concentration, and the second value. When the value measured by the inflow water measuring unit is higher than the flow weighted average concentration, the first opening / closing valve is opened to transfer the inflow water from the collecting conduit to the high concentration storage tank through the high concentration conveying line, and measured by the second inflow water measuring unit. When the lowered value is lower than the flow weighted average concentration, the second opening / closing valve is opened to transfer the inflow of the collecting conduit to the low concentration storage tank through the low concentration transfer line.

The controller may further include: when the flow rate weighted average concentration is greater than the high concentration storage water concentration of the high concentration storage tank, and the high concentration storage tank and the low concentration storage tank are both high water tanks, the third discharge valve may be opened to reduce the low concentration storage tank. The storage water is discharged through the low concentration river discharge line, and the first opening and closing valve is opened to introduce the inflow water of the collecting conduit into the high concentration storage tank through the high concentration conveying line, so that the amount of the high concentration storage tank is introduced into the high concentration storage tank. The high concentration reservoir is allowed to overflow into the low concentration tank.

The controller may include the third discharge valve when the flow-weighted average concentration is lower than the high concentration storage water concentration of the high concentration storage tank and greater than the low concentration storage water concentration of the low concentration storage tank, and the high concentration storage tank and the low concentration storage tank are both high water tanks. Open to discharge the low concentration storage water of the low concentration storage tank through the low concentration stream discharge line, and the second opening and closing valve to open the inlet water of the collection conduit flows the low concentration transfer line into the low concentration storage tank.

The control unit, when the flow-weighted average concentration is lower than the low concentration storage water concentration of the low concentration storage tank and both the high concentration storage tank and the low concentration storage tank is high water, the first and second opening and closing valves are closed and the third opening and closing valve Opening and discharging the influent flowing into the low concentration conveying line from the collecting conduit through the influent stream discharge line.

As described above, when discharged to the stream through the influent stream discharge line or the low concentration stream discharge line may be discharged to the stream immediately, may be discharged after filtering through the device type treatment facility or filter type treatment facility.

On the other hand, when the control unit discharges the high concentration storage water of the high concentration storage tank to the sewage treatment plant, the control unit checks the water quality of the inflow water flowing into the sewage treatment plant at a low time and supplies the high concentration storage water at the low water quality flowing into the sewage treatment plant. Can be released.

In addition, the control unit in conjunction with the stormwater control system (Korean Patent No. 0447049) that controls the hydrology to collect a large amount of high-flowing effluent and to suppress the collection of low-concentration effluent according to the water quality of the effluent flowing out during rainfall in rainstorm soil Can be operated.

Hereinafter, the present invention will be described in detail with reference to FIGS. 4 and 5.

As shown in Figure 4, the storage system according to the present invention, the inlet water measuring unit for measuring the amount of water and the quality of the inflow water is provided in the collecting pipe to the collection pipe; A storage tank connected to the collection conduit, the inner space being divided into a high concentration storage tank for accommodating a high concentration of inflow water from the intake water of the collection conduit by a partition wall, and a low concentration storage tank for receiving a low concentration inflow water from the inflow of the collection conduit; An opening / closing valve unit for switching the inflow water discharge direction of the collecting pipe into one of the high concentration storage tank and the low concentration storage tank; According to the data measured by the inflow water measuring unit, by controlling the opening and closing valve unit, the control unit for separating and storing the inflow water of the collecting pipe in the high concentration storage tank and the low concentration storage tank for each concentration.

The inflow water measuring unit includes a first and second inflow water measuring unit, and the first and second inflow water measuring units each include a water quality meter and a flow meter for measuring the water quality and the flow rate of the intake water of the conduit.

The water quality factors of the water quality meter may vary from BOD (biochemical oxygen demand), COD (chemical oxygen demand), TOC (total organic carbon), SS (rich solids), EC (electric conductivity), etc. You can choose.

The first inflow water measurement unit is installed in three places in the initial and the middle area on the conduit, and the second inflow water measurement unit is installed in front of the point where the high concentration feed line and the low concentration feed line diverge. Here, the number of first inflow measurement units is not limited as shown in the drawings.

In addition, the storage system according to the present invention further includes an influent stream discharge line branched from a high concentration conveying line, a low concentration conveying line, and a low concentration conveying line branched from the conduit.

The high concentration transfer line is provided with a first open / close valve, the low concentration transfer line is provided with a second open / close valve, and the low concentration transfer line is provided with a third open / close valve branched before reaching the second open / close valve.

The storage tank is divided into a high concentration storage tank and a low concentration storage tank by a weir-type partition wall provided therein.

Even when the level of the high concentration tank continues to be high, if a high concentration of inflow water flows into the conduit, the high concentration inflow of the conduit is transferred to the high concentration storage tank, and the high concentration storage water of the high concentration storage tank crosses the partition wall and flows into the low concentration storage tank as the flow rate flows into the high concentration storage tank. The partition wall is formed to have a height lower than the total height from the bottom of the high concentration storage tank or the low concentration storage tank to the ceiling surface so as to be introduced.

As shown in Figure 5, each storage tank inlet direction by installing the overflow wear so that the sand contained in the inflow water can be collected in the space in front of the overflow wear as much as possible can be efficiently removed.

In addition, when the storage tank is to be operated as a storage sedimentation tank for the purpose of sedimentation of suspended solids, the sedimentation efficiency can be increased by installing a distillation wall inside the high concentration reservoir and the low concentration reservoir. The number of dividing walls to be installed can be appropriately adjusted depending on the size of the storage tank.

Machinery such as sedimentation pumps for removing sedimented sand, aeration for preventing decay of the stored water stored in the storage tank, and sludge collectors for removing solids deposited in the storage tank may be properly installed.

Each of the high concentration storage tank and the low concentration storage tank is provided with a high concentration storage tank measuring unit and a low concentration storage tank measuring unit.

Each of the high concentration reservoir and the low concentration reservoir consists of a water level meter and a water meter for measuring the water level and water quality of the reservoir. However, depending on the site conditions, the water quality can be predicted and applied through modeling techniques without installing a water meter.

The high concentration sewage treatment discharge line for discharging the high concentration storage water of the high concentration storage tank and the low concentration sewage treatment discharge line for discharging the low concentration storage water of the low concentration storage tank are connected to the discharge side of the high concentration storage tank and the low concentration storage tank, and on the low concentration sewage treatment discharge line. The river discharge line is forked.

In addition, the high concentration and low concentration sewage treatment discharge line is formed to join in the confluence line connected to the sewage treatment plant.

The first discharge valve is provided on the high concentration sewage treatment discharge line, the second discharge valve is provided on the low concentration sewage treatment discharge line, and the low concentration branched from the low concentration sewage treatment discharge line before reaching the second discharge valve of the low concentration sewage treatment discharge line. The third discharge valve is provided on the stream discharge line.

In addition, the low concentration storage water of the low concentration storage tank discharged to the stream through the low concentration river discharge line may be discharged after treating the pollutants by the device type treatment facility or filter type treatment facility before being discharged to the stream.

In addition, the device type treatment facility or the filter type treatment facility may discharge the pollutants before discharge into the stream through the influent stream discharge line, the inflow of the collecting pipe flowing into the low concentration transfer line.

The control unit calculates an event mean concentration (EMC) using the values measured by the water quality meter and the flow meter of the first influent measurement unit, and compares this with the water quality measured by the water meter of the second influent unit. And, if the water quality concentration measured by the second inflow measurement unit is higher than the flow-weighted average concentration measured on the collector conduits, the inflow of the collector conduits is transferred to the high concentration storage tank, and low to the low concentration storage tank.

)를 나타내는데, 유량가중평균농도를 고려하는 이유는 월류수 및 우수유출수의 특성을 파악하기 위해서는 유량을 고려하여 농도변화를 해석하는 것이 수계에 미치는 영향을 평가하는데 중요한 의미를 갖기 때문이다.Where the flow weighted average concentration (EMC) is the total runoff load ratio (

The reason why the flow weighted average concentration is considered is that in order to understand the characteristics of overflow and stormwater runoff, it is important to analyze the change in concentration considering the flow rate.

Here, the control operation of all the storage tanks consists of opening and closing operations of the respective valves by a command sent from the control unit based on the information on the water quality and flow rate sent from the inflow water measuring unit.

The control unit opens the first opening / closing valve to transfer the inflow of the collecting pipe to the high concentration storage tank through the high concentration conveying line when the water quality concentration measured by the second inflow measuring unit is higher than the flow weighted average concentration measured on the collecting conduit.

When the value measured by the second inflow water measuring unit is lower than the flow weighted average concentration, the controller opens the second opening / closing valve to transfer the inflow of the collecting pipe to the low concentration storage tank through the low concentration transfer line.

When the flow weighted average concentration is greater than the high concentration reservoir water concentration in the high concentration reservoir, and the high concentration reservoir and the low concentration reservoir are both high water tanks, the controller releases the third discharge valve to discharge the low concentration reservoir water in the low concentration reservoir through the low concentration stream discharge line. The first opening / closing valve is opened so that the inflow of the collecting pipe flows into the high concentration storage tank through the high concentration transfer line so that the high concentration storage water of the high concentration storage tank is transferred to the low concentration storage tank by the amount introduced into the high concentration storage tank. This allows existing high concentration reservoirs to mix with the influent.

The control unit, when the flow weighted average concentration is lower than the high concentration storage water concentration of the high concentration storage tank and larger than the low concentration storage water concentration of the low concentration storage tank, and the high concentration storage tank and the low concentration storage tank are both high water tanks, the third discharge valve is opened to open the low concentration storage tank low concentration tank. The storage water is discharged through the low concentration river discharge line and the second opening / closing valve is opened to introduce the inflow water from the duct to the low concentration transfer line into the low concentration storage tank.

If the flow weighted average concentration is lower than the low concentration reservoir water concentration in the low concentration reservoir and both the high concentration reservoir and the low concentration reservoir are high water tanks, the control unit closes the first and second open / close valves and opens the third open / close valve to open the low concentration transfer line in the conduit. Influent flows into the discharge through the influent stream discharge line.

On the other hand, the treatment of the high concentration storage water in the high concentration storage tank of the control unit is based on the treatment in conjunction with the sewage treatment plant when the water quality of the influent of the sewage treatment plant during the dry season is low. In this case, the first discharge valve may be opened to supply the high concentration storage water of the high concentration storage tank to the sewage treatment plant through the high concentration sewage treatment discharge line. However, depending on site conditions, it may be treated with an apparatus or filter treatment plant and discharged into a stream.

In addition, the low concentration storage water treatment of the low concentration storage tank of the control unit is based on the treatment by the device type treatment facility or filter type treatment facility to discharge to the stream. However, depending on the site conditions, it may be treated in conjunction with the sewage treatment plant, and at this time, the second discharge valve may be opened to supply the low concentration storage water of the low concentration storage tank to the sewage treatment plant through the low concentration sewage treatment discharge line.

If there is a storage space in the high concentration storage tank and the low concentration storage tank for all control operations by the control unit, the inflow flow direction of the collection pipe is determined according to the inflow water quality concentration of the conduit, and the high concentration storage water is transferred to the low concentration storage tank or the low concentration storage water is flowed. The discharge is to be carried out only when the water level in each storage tank is at maximum.

The storage system according to the present invention having such a configuration can be applied to a system for treating overflow water of a combined sewage pipe, as shown in FIG. 6. In other words, the monthly water is collected in the tea house and processed in the storage system according to the present invention.

In addition, as shown in Figure 7, it can be applied to a system for processing the initial excellent excellent classification classification. In other words, the rainwater is collected in a conduit and treated in a storage system according to the present invention.

In addition, as shown in Fig. 8, the storage system according to the present invention can be applied to a system for treating sewage of a combined sewage pipe. That is, the sewage collected above the sewage treatment plant treatment capacity will be treated in the storage system according to the present invention.

As described above, the storage system according to the present invention is a storage tank for storing and treating monthly water in a combined sewage pipe, a storage tank for storing and treating a high initial concentration of excellent rainfall in a classified storm, and a sewage treatment plant in a combined sewage pipe. It can be applied to a storage tank for storing and treating combined sewage.

As described above, according to the present invention, the discharge pollution load to the water system can be minimized through the storage system, and the operation of the system can be improved as the controller operation is automatically controlled in real time by the controller.

In addition, high concentration reservoirs and low concentration reservoirs distributed according to concentrations are considered in the sewage treatment plant in consideration of the water quality of the influent. High concentration reservoirs are used when the influent quality is low, and low concentration reservoirs are used when the influent quality is high. As it is discharged to the sewage treatment plant, the sewage treatment efficiency can be improved by stabilizing inflow water quality of the sewage treatment plant.

Claims (23)

A first inflow measurement unit provided in the initial and middle regions within the collection pipe, and measures the water quality of the inflow flowing into the collection pipe and flowing through the initial and the middle of the collection pipe, but the biochemical oxygen demand (BOD), chemical oxygen demand (COD), A first water quality meter for measuring water quality using total organic carbon (TOC), suspended solids (SS), or electrical conductivity (EC) as a water quality factor, and a flow rate of inflow water flowing into the drainage pipe and flowing through the initial and mid-term areas of the drainage pipe A first inflow water measurement unit including a first flow meter for measuring a; A second inflow water measuring unit provided in the late discharge region in the collecting conduit, the water quality of the influent flowing into the collecting conduit flowing through the late discharge region of the collecting conduit, but the biochemical oxygen demand (BOD), chemical oxygen demand (COD), total A second water quality measuring instrument for measuring water quality using organic carbon (TOC), suspended solids (SS), or electrical conductivity (EC) as a water quality factor, and measuring the flow rate of inflow water flowing into the collecting conduit and flowing through the late discharge region of the collecting conduit; A second inflow water measurement unit including a second flow meter; A storage tank supply line including a high concentration conveying line and a low concentration conveying line branched from the collecting conduit at the late discharge region side of the collecting conduit; A storage tank including a high concentration storage tank connected to the high concentration transfer line and a low concentration storage tank connected to the low concentration transfer line, wherein an internal space is divided into the high concentration storage tank and the low concentration storage tank by a partition wall; An open / close valve unit including a first open / close valve provided on the high concentration transfer line and a second open / close valve provided on the low concentration transfer line; Flow-weighted average concentration using the water quality of the inflow water flowing through the initial and middle regions of the collection conduit measured by the first water quality meter and the inflow water flowing through the initial and middle regions of the conduit measured by the first flow meter (Event Mean) Concentration,

), And compares the water quality concentration of the inflow water flowing through the late discharge zone of the collecting pipe measured by the second water quality meter with the flow-weighted average concentration, and measures the late discharge zone of the collecting pipe measured by the second water meter. If the water quality of the flowing inflow water is higher than the flow-weighted average concentration, the first opening and closing valve is sent to the high concentration storage tank through the high concentration transfer line to discharge the discharge water discharged from the collecting conduit through the late discharge region of the collecting conduit to the high concentration storage tank. When the water quality concentration of the inflow water flowing through the late discharge zone of the collection conduit measured by the second water quality meter is lower than the flow rate weighted average concentration, the first opening / closing valve is opened, and is discharged from the collection conduit after the late discharge region of the collection conduit. The low concentration reservoir through the low concentration transfer line Send a command to the second on-off valve, so that the feed storage system, comprising a step of opening the second on-off valve. delete delete delete delete delete The method according to claim 1, A low concentration sewage discharge line having a low concentration sewage treatment discharge line for releasing low concentration storage water of the low concentration storage tank mutually branched to a sewage treatment plant, and a low concentration river discharge line for discharging the low concentration storage water of the low concentration storage tank to a stream; And a high concentration sewage treatment discharge line for discharging the high concentration storage water of said high concentration storage tank to said sewage treatment plant. The method according to claim 7, A first discharge valve provided on the high concentration sewage treatment discharge line; And a second discharge valve provided on the low concentration sewage treatment discharge line. The method according to claim 7, Storage system further comprises a confluence line that the high concentration sewage treatment discharge line and the low concentration sewage treatment discharge line joins. delete delete The method according to claim 7, A first discharge valve provided on the high concentration sewage treatment discharge line; A second discharge valve provided on the low concentration sewage treatment discharge line; And a third discharge valve provided on the low concentration stream discharge line. The method according to claim 12, The high concentration storage tank includes a biochemical oxygen demand (BOD), a chemical oxygen demand (COD), a total organic carbon (TOC), a suspended solid (SS), or an electrical conductivity (EC) as a water quality factor and is stored in the high concentration storage tank. A high concentration storage tank measuring unit including a water quality meter of the high concentration storage tank for measuring the water quality of the storage water and a water level meter of the high concentration storage tank for measuring the level of the high concentration storage water stored in the high concentration storage tank, In the low concentration storage tank, the low concentration stored in the low concentration storage tank using biochemical oxygen demand (BOD), chemical oxygen demand (COD), total organic carbon (TOC), suspended solids (SS) or electrical conductivity (EC) as water quality factors. A low-density storage tank measuring unit including a water quality meter of the low-concentration storage tank for measuring the water quality of the storage water and a water level meter of the low-concentration storage tank for measuring the water level of the low-concentration storage tank stored in the low-concentration storage tank. delete delete The method according to claim 13, An influent stream discharge line branched from the low concentration transfer line and discharged to the stream before the inflow of the collecting conduit introduced into the low concentration transfer line reaches the second opening / closing valve; And a third open / close valve provided on the inflow stream discharge line. delete delete delete The method according to any one of claims 1, 7 to 9, 12 to 13, and 16, Each of the high concentration reservoir and the low concentration reservoir is a storage system for collecting sand contained in the inflow water, and a storage wall, characterized in that the flow wall for increasing the settling efficiency of the solids is formed. The method according to any one of claims 1, 7 to 9, 12 to 13, and 16, The drainage pipe is connected to the confluence sewer pipe, the overflow water drainage pipe flows into the overflow water of the consolidation sewage pipe, the rainwater drainage pipe connected to the classification storm drainage, and the storm drainage pipe connected to the confluence drainage pipe, Storage system, characterized in that any one. delete delete

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