KR101037053B1 - Treatment apparatus of non-point source pollutant for the initial rainfall effluent - Google Patents

Abstract

PURPOSE: An apparatus for processing non-point contaminants contained in initial rainwater is provided to process the non-point contaminants using an integrated type of screening process, a sedimenting process, a precipitating process, and a filtering process without power. CONSTITUTION: Rainwater effluent soil and floats are introduced and processed in a processing bath. A settling basin(30) eliminates earthy materials and settling floats. A inclination controlling plate(40) is installed in the processing bath using a second partition(2) and minimizes the rate of water surface load and increases the efficiency of precipitation. A processing water overflow weir waterway unit(50) discharges processed water through the inclination controlling plate.

Description

Treatment apparatus of non-point source pollutant for the initial rainfall effluent}

The present invention is to discharge the sewage and suspended matter contained in the runoff during rainfall and rainwater runoff treated by the screen, sedimentation, sedimentation, filtration device to remove dissolved and soluble trace harmful substances to the flow in the pipeline The present invention relates to a treatment apparatus for non-point pollutants configured to treat nonpoint pollutants by non-power using hydraulic energy according to the above, and the excessive flow rate is discharged through a bypass passage bypassing the filtration tank.

In general, pollutant sources are classified into point sources and nonpoint sources. For example, if a workplace is classified, a wastewater treatment facility at a workplace that treats and discharges wastewater generated at the workplace through a wastewater treatment facility becomes a point source. Rainwater runoff flows into rivers without treatment, at which site sites such as yards that discharge rainfall runoff become nonpoint sources and pollutants generated are nonpoint pollutants.

As such, nonpoint pollutants discharged from nonpoint sources cause environmental problems, such as river pollution, because they immediately flow into the stream without being treated. These nonpoint pollutants have many difficult problems in the design and maintenance of nonpoint pollution treatment facilities because they are difficult to collect because the discharge and discharge paths are not clearly distinguished and the amount of occurrence is greatly influenced by weather conditions such as precipitation. In addition, nonpoint pollutants include fertilizers and pesticides that remain in agricultural land without being absorbed by crops, manure from livestock grazing on grassland, untreated livestock waste discharged from livestock farms, air pollutants mixed with rainwater, and road surface sediments. In case of rainfall, it flows down to the river with rainwater.

Recently, the increase of impervious surface due to land development increases the risk of flooding due to the increase in the amount of rainfall runoff that is not absorbed or evaporated into the soil and discharged into the rivers, and the groundwater regeneration decreases, causing the rivers to become dry. It can also be a factor. Especially, in urban areas, the area of green space and permeable surface due to land development is decreasing and the area of impervious surface is increasing. In addition to the flow into the river and dry season there is a problem that causes the river dry stream due to the lack of river maintenance water.

In addition, rainfall runoff from urban areas during rainfall includes soil and suspended solids, suspended matter, organic matter, nutrients, as well as bacteria and metals. Rainfall runoff flows into rivers, resulting in various boiling points. It can be said to be the main cause of water ecosystem destruction and water pollution, such as fish collective death due to pollutants.

In addition, the outflow characteristics of nonpoint pollutants generated in farming areas and development areas in high mountains are affecting the environmental ecosystem in a different form from the characteristics of rainfall runoff in urban areas. Korea has high altitudes and mountainous terrain, and the highland agricultural area in high areas is 51,000 hectares (ha), accounting for 2.7% of the country's agricultural land. Soil runoff is very severe in high-altitude agricultural areas due to high slopes and elevations.In addition, the outflow of organic pollutants by livestock manure from livestock farms in highlands is very serious. .

The farming areas in these highlands are still low in environmental damage and possess various animal and plant resources, and the beautiful landscapes unique to the forests are preserved, but they are distributed in the upper parts of the Nakdong and Han rivers, which are major water systems in Korea. It is also an area that requires special management on environmental pollution to maintain clean water resources.

Environmental problems associated with farming management in high mountains are closely related to nonpoint sources. There are two main types of nonpoint sources involved. The first is land-based pollutants related to cropland-based soils, and the sediment flowing into the water system due to soil loss becomes the source. Second, it can be classified as management-based pollutants, which refers to pollutants used in crops or soil to improve productivity or control pests, such as pesticides, fertilizers and livestock manure. Belong. That is, some of the pollutants introduced are dissolved in the water and move with the effluent, and some are absorbed by the soil particles and move when the soil is lost.

In order to prevent the inflow of nonpoint pollutants into the water system during the rainfall, facilities such as buffered vegetation zone, bypass channel, vegetation channel, vegetation field dune, freefall settlement site, and masonry are underway. However, all of these non-point pollutant treatment methods are facilities to prevent the inflow of soil, and the reduction of pollutants based on agricultural management methods such as pesticides, fertilizers, and livestock manure has not been solved.

Conventional apparatus for treating non-point source has mainly been the treatment technology by the physical method to remove only soil or sand, such as pollutants with high specific gravity. Such physical treatment technology is extremely low in the removal efficiency of organic matter and nutrients, high cost compared to treatment efficiency, and mainly depends on foreign technology.

On the other hand, a variety of technologies and methods for removing non-point pollutants have been developed to look at the patent registered contents, the non-point source removal apparatus of the Korean Patent No. 443420 (registered on July 27, 2004) and No. 491867 ( The non-point pollutant treatment device of the initial excellent water of the registration of May 19, 2005 and the non-point pollutant purification device of the initial effluent of No. 561092 (registered on March 8, 2006) have been registered. It is a nonpoint pollutant that occurs in urban areas such as roads, factories, and parking lots.

Therefore, in order to remove nonpoint pollutants that occur under special environmental conditions such as farming areas and urban development in high mountains, a unit process to remove a large amount of soil and a unit process to remove dissolved pollutants are required. Requires a non-powered treatment unit.

The outflow characteristics of nonpoint pollutants generated in agricultural and development areas of alpine areas are very different from those of rainfall runoff in urban areas. In particular, during rainfall in the high-altitude farming region, as shown in FIG. 1, the outflow of the dissolved substance (C) due to the composting of the soil is concentrated at the beginning of the rainfall, and the dissolved substance contained in such a large amount of the initial effluent ( C) is a causative agent of eutrophication, such as total nitrogen and total phosphorus, so it is necessary to remove the initial rainfall runoff.

However, unlike the outflow characteristics of the dissolved material (C), the outflow characteristics of the soil (S), which occupy a large proportion of the pollutants in the high mountainous region, are largely outflowed after a certain time in the early rainfall, so the outflow of rainfall (Q) It is almost similar to the characteristics. Considering the outflow characteristics of dissolved material (C), soil (S) and rainfall (Q) over time, the installation of a treatment device for efficiently removing contaminants such as soil and dissolved material is urgently needed. It is a required situation.

In order to solve the above problems, the present invention is to separate and remove the coarse material of the soil and suspended solids contained in the rainwater runoff of the initial rainwater flowing in the urban area, urban development area and high-altitude farming area Two-stage screen, sedimentation paper to remove the sediment and sediment floating material discharged along with rainfall runoff through the screen, slanted plate settling battery to remove fine soil and floating material, and dissolved and soluble organic and inorganic materials. Filter paper for adsorption, filtration and removal, discharge section for discharging the effluent through the screen, sedimentation, sedimentation, and filtration to the outside, and a bypass flow section for bypassing the filtration tank is composed of soil, suspended solids, and dissolved and soluble It is designed and designed to handle non-point pollutants of organic and inorganic substances. Message to the station, showing the development zone, and screened for the boiling point contaminants generated in the highlands one agricultural area, sediment, precipitate, providing a filtered integral of the apparatus type having a boiling point contaminants processing apparatus it is an object.

In particular, the non-point pollutant treatment device of the present invention can be easily applied in the region and urban development area consisting of the topography of the slope with the difference in height and height of the ground as it can be operated by a non-powered construction. Another object is to provide a treatment apparatus for non-point pollutants occurring in urban areas, urban development areas, and high-altitude farming areas, which are characterized by being easily applicable in urban areas.

Thus, in the present invention, coarse particulate matter, fine particulate matter and dissolved solubility in consideration of the outflow characteristics of non-point pollutants generated during rainfall in the process of treating existing non-point pollutants during rainfall in a single process such as storage and filtration. The material is designed to be treated in two stages of screening, settling paper, slanted plates, sedimentation, filtration and adsorption. In addition, as a non-powered device using hydraulic energy according to the flow in the pipeline, the stability of the process is increased.

The present invention is an integrated non-point pollutant treatment process that combines the screen, sedimentation process, sedimentation process, filtration and adsorption process combining physical and chemical treatment methods, and confirmed the treatment efficiency of the treatment process through the examples. To achieve the object of the present invention by deriving the operation factor according to the above, it is characterized by providing a technology that is more compact than the conventional technology, and also excellent processing efficiency.

The present invention is an apparatus for removing non-point pollutants occurring in urban areas, urban development areas, and high-altitude farming areas, and excellent runoff soils and suspended solids spilled by rainfall from urban areas, urban development areas, and high-altitude farming areas. A two-stage screen for removing; Settling paper for removing the soil and sediment floating material discharged with the rainwater runoff through the screen; Inclined plate settler for removing fine soil particles, particulate matter (SS) and particulate and organic matter; Adsorption and filtration apparatus for removing dissolved and soluble organic and inorganic substances; A discharge part for discharging the outflow water of the adsorption / filtration device to the outside; Transient flow rate bypass bypass for bypassing the filter tank; The treatment device for non-point pollutants occurring in urban areas, urban development areas, and high-altitude farming areas, characterized in that the problem solution means.

In particular, the present invention is to treat the non-point pollutants generated by the non-point pollutants generated during the rainfall using the hydraulic energy according to the flow in the pipeline by using the treatment apparatus according to the present invention, the construction of the device on a small scale Because it can be operated by no power, it can be easily applied in the high-altitude farming area and urban development area, which is composed of the terrain of the inclined plane with the difference of the height of the ground, and the device type characterized in that it can be easily applied in the general urban area. It is a non-point pollutant treatment device.

The present invention, by using the hydraulic energy according to the flow in the pipeline to the non-point pollutants generated during rainfall by means of the above-mentioned means to solve the non-point pollutants as a unit of screen, sedimentation, sedimentation, filtration as a unitary It is possible to construct small facilities, so that it can be easily applied in the high-altitude farming area and urban development area, which is composed of sloped terrain with the difference of the height of the ground, and it can be easily applied in general urban areas.

In addition, physical and chemical treatment methods are applied to remove organic and inorganic substances contained in nonpoint sources, and are integrated into screen, sedimentation, sedimentation, and filtration devices. And it is an advantage that it is a semi-permanent treatment technology that is excellent in the ability to remove soluble organic and inorganic substances, and minimize the environmental burden by minimizing the generation of secondary pollutants caused by physical and chemical treatment of pollutants.

In addition, the present invention is to treat the non-point pollutants in the initial rainfall runoff in the sewage treatment area, the treatment of the overflow water in the combined sewage conduit area, the removal of non-point pollutants introduced from the water supply source or dam upstream, fire in the workplace, factory, etc. It can be used as a non-point pollution reduction facility with a combination of emergency storage tanks.In addition to the treatment of non-point pollutants generated in various development projects such as complex development, combined use with excellent storage tanks, and reuse of water in golf courses, etc. It is a highly applicable technology that can be applied.

1 is a graph showing changes in time, flow rate and dissolved pollutants and soil amount caused by rainfall in urban areas, urban development areas, and alpine farming areas.
Figure 2 is a perspective view showing a non-point pollutant treatment apparatus occurring in the urban area, urban development area and high-altitude farming area according to the present invention.
Figure 3 is a plan view showing a non-point pollutant treatment device occurring in the urban area, urban development area and high-altitude farming area according to the present invention.
Figure 4 is a front configuration diagram showing a non-point pollutant treatment device occurring in the urban area, urban development area and high-altitude farming area according to the present invention.
Figure 5 is a side view showing a non-point pollutant treatment device occurring in the urban area, urban development area and high-altitude farming area according to the present invention.
6 is a perspective view illustrating main parts of the screen device according to the present invention;
Figure 7 is an exploded perspective view showing a tilt control plate according to the present invention.
8 is a perspective view showing the treated water overflow wear channel according to the present invention.
9 is a graph showing the removal rate of contaminants by the device-type non-point pollutant treatment device of the screen sedimentation precipitation integrated unit according to the present invention.
Figure 10 is a graph showing the removal rate of contaminants by the device type non-point pollutant treatment unit of the integrated screen sedimentation filtration according to the present invention.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing a non-point pollutant treatment device occurring in the urban area, urban development area and alpine farming area according to the present invention, Figure 3 is an urban area, urban development area and alpine area according to the present invention 4 is a plan view showing a non-point pollutant treatment device occurring in a large farming area, Figure 4 is a front configuration diagram showing a non-point pollutant treatment device occurring in an agricultural area in an urban area, urban development area and alpine according to the present invention. , Figure 5 is a side configuration diagram showing a non-point pollutant treatment device occurring in the urban area, urban development area and high-altitude farming area according to the present invention.

2 to 5, non-point pollutant treatment apparatus included in the initial rainfall runoff according to the present invention rainwater outflow soil and suspended solids discharged by rainfall from the urban area, urban development area and farming area of the alpine region The processing tank 10 is introduced and processed; The first partition (1) is divided into one side of the treatment tank (10) to open the lower region, and the upper part is provided with a screen device (20) for filtering the outflowing sewage and suspended matter flowing out by the rain and sand and Settling paper 30 for removing the settling suspended solids; The treatment chamber 10 is divided into the second partition (2) and spaced apart from the settling basin (30), the lower region is provided with a tilt control plate 40 for increasing the precipitation efficiency while minimizing the surface area load rate, The upper portion of the control plate 40 is provided with a treated water overflow wear waterway device 50 for discharging the treated water passing through the inclined control plate 40 to remove fine soil particles, particulate matter (SS) and particulate organic material. A sedimentation basin 60; It is divided into a third partition (3) between the second partition (2) and the treatment tank (10), and is contained in the inflow water introduced through the treated water wolweo waterway device 50, so that a small amount of dissolved pollutants and solubility An adsorption filtration tank 70 for removing organic substances; It is divided into a third partition 3 in the rear region of the adsorption filtration tank 70, and consists of a discharge tank 80 for discharging the outflow water of the adsorption filtration tank 70 to the outside.

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At this time, the excessive flow rate is configured to bypass the adsorption filtration tank 70 to be quickly discharged to the discharge tank 80 through the bypass passage 82 formed in the second partition (2).

6 is a perspective view illustrating main parts of the screen device according to the present invention. As shown, the screen device 20 according to the present invention is provided inside the treatment tank 10 in the upper region of the settlement area 30, the particles of the non-point pollutants introduced through the inlet pipe 21 of the rainfall effluent water As a facility for filtering large sized soil and suspended solids, it is preferable to install in two stages so as to increase the efficiency of removing the soil and suspended solids from the coarse particles introduced.

That is, the screen device 20 includes an upper screen 22 provided in the upper portion of the treatment tank 10 in the upper region of the settlement paper 30; It consists of a lower screen 24 provided inside the treatment tank 10 in the lower region of the upper screen 22. At this time, the upper screen 22 is maintained at a distance of 25 ~ 50mm, the lower screen 24 to maintain a 15 ~ 25mm to filter out the soil and suspended solids having a large particle size in the non-point pollutant in order.

As shown in FIG. 7, the inclination adjusting plate 40 is equipped with a settling function to settle sedimentary suspended solids, such as earth and sand, contained in the rainfall effluent passing through the two-stage screen device 20. Furnace is a facility installed in order to increase the effect of the sedimentation basin (60) is connected to the settlement (30).

That is, the inclination control plate 40 includes a fixed plate 42 fixed between the first and second partitions 1 and 2; A plurality of upwardly inclined plates 44 provided inclined between the fixed plates 42; It consists of a plurality of baffles 46 provided inside the inclined surface of the upward inclined plate 44.

At this time, the upward inclined plate 44 may maintain an angle of 40 to 80 degrees with respect to the horizontal direction as the upflow separating plate body, but preferably maintained at 60 degrees.
The baffles 46 are provided with 2 to 4 by maintaining the 30 to 120 degrees on each of the upward inclination plate 44, the angle is preferably maintained to 70 to 90 degrees.

On the other hand, the baffle 46 can maintain a constant interval of 20 ~ 100mm interval, it is preferable that the interval of 50mm. A plurality of such inclined plates are arranged at regular intervals. Therefore, the space between each inclined plate forms a series of parallel flow paths.

In addition, as shown in Figure 3 and 8, the upper region of the inclined control plate 40 is provided with a treated water overflow wear waterway device 50 for discharging the treated water passing through the inclined plate.

The treated water overflow wear channel 50 is installed while maintaining a "T" shape between the first and second partitions 1 and 2 in the upper region of the inclination control plate 4 process 0. That is, the supply unit 52 having one end fixed to the first partition 1 to form a wear 52a through which treated water is supplied; It is formed in communication with the other end of the supply portion 52 orthogonally, and the wear 54a is formed to communicate with the second partition 2, the discharge portion 54 is discharged to the adsorption filtration tank 70.

At this time, the second partition (2) is formed stepped so that the discharge portion 54 of the treated water overflow wear waterway device 50 can be installed, and the treated water is discharged to the adsorption tank treatment tank 70 through the wear 54a. .

On the other hand, the weir of the treated water overflow wear channel 50 is formed in a triangular or square, evenly formed, it is configured to guide and discharge the flow of the treated water past the slope plate. Accordingly, it is also possible to help ensure a constant flow between the plurality of inclined plates.

The adsorption filtration tank 70 and the discharge tank 80 is divided into a third partition 3 between the second partition 2 and the other side of the treatment tank 10 and arranged in front and rear. At this time, the lower portion of the third partition 3 is opened.

The adsorption filtration tank 70 is contained in the inflow water introduced through the treated water wal oil wear channel 50 so as to remove traces of dissolved pollutants and soluble organic substances, the internal structure of which has a sand layer 72a, It is a structure laminated in the order of the activated carbon layer 72b, the gravel layer 72c, and the hole conduit 72d.

That is, a hole is formed in the lower portion of the adsorption filtration tank 70 so that water is discharged to the lower portion, and a hole is disposed in the other side of the treatment tank 10 and the lower portion of the second and third partitions 2 and 3 so as to be spaced apart from the bottom surface. 72d) is provided, and the gravel layer 72c, granular activated carbon layer 72b, and sand layer 72a are sequentially provided on the upper portion of the hole conduit 72d, and the treated water is filtered and discharged downward.

The discharge tank 80 is divided into a third partition 3 between the second partition 2 and the treatment tank 10 and is disposed at the rear of the adsorption filtration tank 70, and then passes through the adsorption filtration tank 70 to the inside. The treated water to be supplied is discharged to the outside through the discharge port 84.

On the other hand, when the inflow water exceeds the processing capacity of the adsorption filtration tank 70, the second partition (2) is directly supplied to the discharge tank 80 through the bypass passage 82 formed in the outside through the discharge port 84 Is discharged.

At this time, the small amount of dissolved contaminants and soluble organic substances contained in the inflow water passes through the sand layer 72a, the granular activated carbon layer 72b, and the gravel layer 72c in the adsorption filtration tank 70. Through the normal processing, and is discharged to the lower through the hole conduit 72d is discharged to the outside through the discharge tank (80).

Therefore, the device-type non-point pollutant treatment device of the screen, sedimentation, sedimentation and filtration according to the present invention utilizes non-point pollutants generated by a non-point pollutant generated by rainfall using hydraulic energy according to the flow in the pipeline. It can be easily applied in the high-altitude farming area and urban development area, which is composed of sloped terrain with difference in height and height of the ground, because it is possible to operate by the small scale because the scale of the device can be operated by the integrated process of screen, sedimentation, sedimentation and filtration. It is a device that can be easily applied in general urban areas.

Hereinafter, the configuration of the present invention in detail through the following examples.

[Example]

1. Operation of the reactor

In order to understand the treatment capacity of nonpoint pollutants generated in urban areas, urban development zones and alpine farming areas according to the present invention, an apparatus-type nonpoint pollutant treatment device of screen, sedimentation, sedimentation and filtration is manufactured on a laboratory scale. The experiment was carried out.

The experiment was conducted by adopting two methods in the screen, sedimentation, sedimentation, and integrated device type non-point pollutant treatment device. The experiment was conducted by adopting the integrated method of sedimentation, sedimentation and filtration. The purpose of this study was to confirm the removal of trace dissolved contaminants and soluble organic substances by sand and granular activated carbon in the filter tank.

In the experiments on non-point pollutant concentrations in urban areas, urban development areas, and alpine farming areas, inflow concentrations as shown in [Table 1] were obtained, and in this experiment, synthetic sewage according to [Table 1] To prepare the experiment.
Synthetic sewage at the concentration as shown in [Table 1] was introduced at 600 L each time over a total of 20 times for 5 days without rainfall. This flow corresponds to the amount of nonpoint pollutants in urban areas, urban development areas, and high-altitude farming areas with an annual rainfall of 1200 mm and an area of 30 m ² .

division pH COD _Cr (mg / L) BOD ₅ (mg / L) SS (mg / L) TN (mg / L) TP (mg / L) density 6.2 to 7.3 150-230 100-170 650-970 13-45 4-12

2. Driving Result

end. Integrated facility removal of screen sedimentation

The removal capacity of each contaminant in the integrated facility of screen, sedimentation and sedimentation is determined by chemical oxygen demand (COD) and suspended solids (SS) as shown in the graph shown in FIG. The mean effluent concentrations of total nitrogen (TN) and total phosphorus (TP) were 28, 32, 11 and 4 mg / L, respectively, and the removal efficiencies were 57, 81, 62 and 48%, respectively. In the experiment conducted on the basis of 20 days of the preceding rainwater days, it was possible to achieve a constant effluent quality over the previous time. As a result, it was proved feasible to introduce the integrated screen, sedimentation and sedimentation facilities of the present invention for the removal of pollutants based on urban areas, urban development areas, and alpine farming areas due to rainfall runoff characteristics.

I. Integrated removal capability of screen, sedimentation, sedimentation and filtration

The removal capacity of each contaminant in the integrated facility of screen, sedimentation, sedimentation, and filtration is shown in the graph shown in FIG. 10, attached to the chemical oxygen demand (COD) and suspended solids. , SS), total nitrogen (TN) and total phosphorus (TP) were 12, 6, 4 and 2 mg / L, respectively, and the removal efficiencies were 86, 96, 63 and 60%, respectively. In the experiment conducted on the basis of 5 days of the preceding rainy days, the effluent quality worsened as the number of times increased, but a relatively constant effluent quality could be achieved. Thus, the introduction of the screen, sedimentation, sedimentation and filtration of the present invention for the removal of contaminants due to rainfall runoff characteristics has proved feasible.

As described above, it was found that the suspended substances are mostly removed from the integrated facility of screen, sedimentation and sedimentation. When these suspended substances are removed, organic matter, total nitrogen and total phosphorus are also removed. In addition, it was confirmed that sand and granular activated carbon smoothly remove residual contaminants in an integrated facility of screen, sedimentation, sedimentation and filtration.

Therefore, the conventional apparatus for treating a nonpoint source can remove only soil or sand, which are mainly pollutants having a high specific gravity, by a physical treatment method, whereas the present invention is an integrated device type of screen, sedimentation, sedimentation and filtration. Through the non-point pollutant treatment apparatus, it was confirmed by the above examples that organic substances, nitrogen compounds, and the like contained in the non-point pollutant can be treated.

As described above, the superiority of the apparatus for treating non-point pollutants according to the present invention has been demonstrated by the above embodiments, but the configuration of the present invention is not necessarily limited only to the above embodiments, and does not depart from the technical spirit of the present invention. Many substitutions and variations are possible without departing from the scope of the invention.

1,2,3: 1st, 2nd, 3rd partition 10: Treatment tank
20: screen device 22: upper screen
24: lower screen 30: settlement
40: tilt control plate 42: fixed plate
44: upward slope 46: baffle
50: treated water overflow wear waterway device 52: supply unit
54 outlet 52a, 54a
60: sedimentation basin 70: adsorption filtration tank
72a: sand layer 72b: granular active layer
72c: gravel layer 72d: perforated pipe
80: discharge tank 82: bypass passage

Claims (7)

delete delete A treatment tank 10 in which rainwater discharged from the urban areas, urban development areas, and agricultural areas in the high mountains is discharged by rainwater and suspended matters are introduced and treated; The first partition (1) is divided into one side of the treatment tank (10) to open the lower region, and the upper part is provided with a screen device (20) for filtering the outflowing sewage and suspended matter flowing out by the rain and sand and Settling paper 30 for removing the settling suspended solids; The treatment chamber 10 is divided into the second partition (2) and spaced apart from the settling basin (30), the lower region is provided with a tilt control plate 40 for increasing the precipitation efficiency while minimizing the surface area load rate, The upper portion of the control plate 40 is provided with a treated water overflow wear waterway device 50 for discharging the treated water passing through the inclined control plate 40 to remove fine soil particles, particulate matter (SS) and particulate organic material. Sedimentation basin 60; It is divided into a third partition (3) between the second partition (2) and the treatment tank (10), and contained in the inflow water introduced through the treated water monthly oil weir waterway device (50), so that a small amount of dissolved contaminants and soluble organic matters. Adsorption filtration tank 70 for removing substances; And a third partition (3) in the rear region of the adsorption filtration tank (70), the non-point pollutant treatment included in the initial rainfall effluent consisting of a discharge tank (80) for discharging the effluent of the adsorption filtration tank (70) to the outside. In the device,
The tilt control plate 40
A fixing plate 42 fixed between the first and second partitions 1 and 2;
A plurality of upwardly inclined plates 44 provided to be inclined between 40 and 80 degrees between the fixing plates 42;
Treatment of non-point pollutants included in the initial rainfall effluent, characterized in that it consists of a plurality of baffles 46 provided to maintain 30 to 120 degrees inside the inclined surface of the upward slope plate 44, the interval is maintained to 20 ~ 100mm Device. The method of claim 3, wherein the treated water overflow wear channel 50
A supply part 52 having one end fixed to the first partition 1 so that a weir 52a made of a quadrangle to which treated water is supplied is equally formed;
It is formed to be in communication with the other end of the supply portion 52, the second weave (2) is formed in the discharge portion 54 is formed evenly formed so that the square ware 54a is discharged to the adsorption filtration tank (70). Non-point pollutant treatment device included in the initial rainfall runoff. delete delete The method of claim 3, wherein the second partition (2)
Bypass passage 82 is formed through the non-point pollutant treatment apparatus included in the initial rainfall effluent, characterized in that configured to bypass the adsorption filtration tank 70 to be quickly discharged to the discharge tank (80).

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