KR101361272B1 - Equipment and method for decrease non­point pollution sources using vegetation waterway - Google Patents

Abstract

The present invention relates to a non-point pollution reduction facility having a vegetation channel and a non-point pollution reduction method using the reduction facility. More specifically, in the non-point pollution reduction facility, pre-treatment tank for rainfall runoff flows into the existing water channel to settle the contaminants contained in the rainfall runoff to the bottom; Rainwater outflow overflowed from the pretreatment tank, a specific slope is formed from the front to the rear, vegetation water is planted on the lower surface and the rainwater runoff is stored therein; And it relates to a non-point pollution reduction facility having a vegetation waterway characterized in that it comprises an outlet structure for the rainfall runoff overflowed from the vegetation waterway to discharge the rainfall runoff water to the existing waterway.

Description

Nonpoint Pollution Reduction Facilities with Vegetation Channels and Reduction Methods for Nonpoint Pollution using the Reduction Facilities {Equipment and method for decrease non­point pollution sources using vegetation waterway}

The present invention relates to a non-point pollution reduction facility having a vegetation channel and a non-point pollution reduction method using the reduction facility. More specifically, the facility and method for reducing the non-point pollution by inflowing only the initial effluent water to be eliminated non-point pollution in the pre-treatment tank, and slowly entering the initial effluent water stored in the pre-treatment tank into the permeate ditch to infiltrate the lower soil layer. It is about.

Water pollution sources are divided into point pollution sources and non-point pollution sources. Point pollution sources are mainly used for monitoring the occurrence area and generation amount such as domestic sewage generated in general households or business areas, industrial wastewater discharged from factories, animal wastewater generated in large- This is a relatively easy subject and is the main object of sewage disposal.

On the other hand, non-point pollution source refers to drainage from agricultural drainage, mine waste water, livestock wastewater from small-scale livestock facilities, living sewage or forest in rural areas without sewerage, and these pollutants are relatively dependent on natural treatment due to less contribution of pollution.

Emphasis is placed on non-point sources, non-specific pollutants, surface pollutants, mobile pollutants, and other pollutants. Unlike point pollutants having specific discharge routes, non-point pollutants are unspecified, such as urban road drains or agricultural drainage. Refers to a location or area that generates nonpoint pollutants through an exhaust path.

Aquaculture facilities, transportation facilities, maintenance or disposal facilities, simplified processing facilities for enriched fisheries products, photo processing facilities, etc., which have been renamed as 'other water pollution sources' in the 'Specified Facility' under the Water Quality Protection Law, , Product yard, land change area, and other facilities.

Non-point pollutants are mainly pollutants that run out along with surface rainfall runoff when they are exposed to rain. These include fertilizers, pesticides, soil sprinkling plants, housing spills, traffic pollutants, dust and garbage in urban areas, Residues, and air pollutants that have fallen on the surface of the earth.

Therefore, rainwater (rainwater runoff) containing all pollutants is actually the main nonpoint source. Since non-point pollutants usually flow out with a lot of rainfall, there is a large difference between daily and seasonal emissions, and it is difficult to forecast and quantify, and it is affected by weather conditions, geology, and topography which are difficult to manure.

The point pollution sources such as domestic sewage are steadily decreasing due to the establishment of basic environmental facilities, but the nonpoint pollution sources are continuously increasing due to the improvement of land use. In particular, the impact of non-viscous salts on water quality is predicted to reach 65 ~ 70% by water sector in 2015, and active management of non-point pollution sources is required.

In 2007, the government revised and amended the 'Law on Water Quality and Aquatic Ecosystem Correction' to select and expand objects to be installed in nonpoint pollution abatement facilities.

As of the end of 1999, as a result of the "Non-point Source Pollution Research Service" (conducted in June 2000) on the upper stream of the Paldang Dam in the Han River, the main water source of the metropolitan area residents, The pollutant loads generated from point sources such as industrial wastewater and livestock wastewater were 804.4%, 130,650t / year, and the pollution load from nonpoint pollution sources was 19,3193t / year, which was 19.6%.

In addition, the non-point source pollution source was estimated to be 44.5% of the total discharge load (BOD standard), and nonpoint source pollution was found to have a significant influence on water pollution. The Geum River, Nakdong River and Youngsan River . Therefore, as the regulations for point sources with regulatory standards are continuously strengthened and environmental facilities are expanded, the impact of non - point pollution sources on water quality will gradually increase.

As a countermeasure for reducing pollution, conventionally, in order to reduce pollution, the road surface drainage in an urban area is provided with a storage tank to allow the pollutants generated due to the initial rainfall to be settled and discharged, · Agricultural drainage, which contains a large amount of agricultural chemicals, was installed in a reservoir, a wetland purification facility, and aquatic plants to prevent direct influx into the river.

However, such a countermeasure would be to treat only the initial rainfall, which is the actual nonpoint source pollutant discharged with all the pollutants, by continuously treating the rainwater after a certain period of time when the concentration of the pollutant decreases, There is a problem that the maintenance cost rises.

Therefore, a nonpoint pollution abatement facility with proper efficiency and economical efficiency was required for the initial runoff containing the majority of nonpoint pollutants.

The present invention was derived in order to solve the above problems, focusing on the fact that most of the non-point pollutants included in the initial rainwater, and the non-point pollutants contained in the rainwater is reduced over time, separating the initial rainwater In order to reduce the water pollution by providing a natural non-point pollution reduction facility using the initial excellent non-point pollution treatment apparatus according to the present invention.

In addition, another object of the present invention is to provide a non-point pollution reduction facility having a vegetation waterway according to the present invention to purify and discharge the pollutant of rainwater flowing into the river or the sea as much as possible.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

An object of the present invention, in the non-point pollution reduction facility, the pre-treatment tank for the rainfall runoff flows into the existing water channel to settle the contaminants contained in the rainfall runoff to the bottom; Rainwater outflow overflowed from the pretreatment tank, a specific slope is formed from the front to the rear, vegetation water is planted on the lower surface and the rainwater runoff is stored therein; And it can be achieved as a non-point pollution reduction facility having a vegetation waterway, characterized in that it comprises an outlet structure in which the rainfall runoff overflowed from the vegetation waterway flows into the existing waterway.

A check dam having a specific height is provided between the vegetation waterway and the outlet structure, and an inlet groove for inducing rainfall runoff into the outlet structure is formed at an upper side of the check dam.

The vegetation waterway is composed of a plurality of connected in the flow direction of the rainfall runoff, there is a check dam having a specific height between the vegetation waterway and the inlet groove for inducing rainfall runoff to another vegetation waterway on the upper side of the check dam It may be characterized in that it is formed.

The volume of rainfall runoff that can be stored in a plurality of vegetation canals may be characterized by the same as the volume of initial runoff that is the object of removal of pollutants from the rainfall runoff and the total water treatment capacity.

The volume of the pretreatment tank may be 7 to 13% of the total water treatment capacity, and the width of the lower surface of the vegetation channel may be 0.6 to 2.4 m.

Vegetation water can be characterized in that the inclination is formed from both sides inward.

The slope from the front to the rear of the vegetation channel may be characterized by being greater than 0% and less than 4%.

As another category, an object of the present invention is a non-point pollution reduction method using a non-point pollution reduction facility having a vegetation channel mentioned above, the step of storing the rainfall runoff flowing into the pre-treatment tank; The sediment contained in the rainfall runoff stored in the pretreatment tank is settled downward; Rainfall runoff from the pretreatment tank is connected to the rear of the pretreatment tank and a specific slope is formed from the front to the rear, and the vegetation water is introduced into the vegetation water planted on the lower surface; Rainwater runoff flowed into the vegetation water is filtered, the freshwater, sedimentation, infiltration and evaporation into the bottom soil; Rainfall runoff overflowed from the vegetation canal through the outlet structure connected to the back of the vegetation canal to the existing waterway; non-point pollution using a non-point pollution reduction facility having a vegetation can be achieved as a non-point pollution reduction method Can be.

The vegetation waterway is composed of a plurality of connected in the flow direction of the rainfall runoff, and the step of storing the rainfall runoff is stored in the vegetation waterway connected to the pretreatment tank is stored in another vegetation waterway connected to the rear of the vegetation waterway It may be characterized in that it further comprises a step.

A check dam having a specific height is provided between the vegetation channels, and the rainfall runoff may be introduced into another vegetation channel by an inflow groove formed at an upper side of the check dam.

Therefore, according to the embodiment of the present invention as described, since only the initial rainwater is separated and purified by the flow distribution structure, it is possible to reduce or eliminate the size of the final purification facility provided before sending rainwater to rivers, seas, and the like. .

In addition, since the non-point pollution reduction facility having the vegetation waterway according to the present invention separates and purifies only the initial excellent water and discharges other rainwater as it is, unnecessary purification treatment is not performed, thereby increasing the replacement cycle of various consumables required for purification. Improved initial purification efficiency and reduced maintenance costs.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All fall within the scope of the appended claims.

1 is a perspective view of a non-point pollution reduction facility having two vegetation channels according to an embodiment of the present invention;
2 is a plan view of a non-point pollution reduction facility having three vegetation channels according to an embodiment of the present invention;
Figure 3 is a side cross-sectional view of a non-point pollution reduction facility having three vegetation channels according to an embodiment of the present invention,
Figure 4a is a cross-sectional view of a non-point pollution reduction facility having a vegetation channel in the view point in accordance with an embodiment of the present invention,
Figure 4a is a cross-sectional view of a non-point pollution reduction facility having a vegetation channel in the end portion according to an embodiment of the present invention,
5 is a perspective view of a check dam according to an embodiment of the present invention;
Figure 6 is a perspective view of the outlet structure according to an embodiment of the present invention,
7 is a flowchart illustrating a non-point pollution reduction method using a non-point pollution reduction facility having a vegetation waterway according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, it includes not only a case where it is directly connected but also a case where the other part is indirectly connected with another part in between. In addition, the inclusion of an element does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Hereinafter will be described the configuration and function of the non-point pollution reduction facility 10 having a vegetation waterway according to an embodiment of the present invention. First, Figure 1 shows a perspective view of a non-point pollution reduction facility 10 having two vegetation channels in accordance with an embodiment of the present invention. 2 shows a plan view of a non-point pollution reducing facility 10 having three vegetation channels according to an embodiment of the present invention, and FIG. 3 has three vegetation channels according to an embodiment of the present invention. Side cross-sectional view of the non-point pollution reduction facility 10 is shown.

1, 2 and 3, the non-point pollution reduction facility 10 having a vegetation channel according to an embodiment of the present invention is a pre-treatment tank 100, at least one vegetation channel (first vegetation water) It can be seen that the furnace 200-1, the second vegetation waterway 200-2, the third vegetation waterway 200-3), and the outlet structure 400, 400.

 Pretreatment tank 100 according to an embodiment of the present invention, as shown in Figures 1, 2 and 3, is installed at the rear end of the existing (20). Therefore, the rainfall runoff introduced into the existing waterway 20 is stored in the pretreatment tank 100. The volume of the pretreatment tank 100 corresponds to about 7 to 13% (preferably 10%) of the total water treatment capacity (WQv) for removing contaminants.

Rainfall runoff introduced into the pretreatment tank 100 is stored in the pretreatment tank 100 so that some of the pollutants are settled downward. Therefore, suspended solids such as earth and sand injection and garbage contained in rainfall runoff are primarily removed to increase the efficiency of nonpoint pollution reduction.

4A illustrates a cross-sectional view of a non-point pollution reduction facility 10 having a vegetation waterway at a viewpoint in accordance with an embodiment of the present invention. And, Figure 4a shows a cross-sectional view of the non-point pollution reduction facility 10 having a vegetation waterway at the end portion according to an embodiment of the present invention.

Vegetation water according to an embodiment of the present invention are connected to each other along the flow direction of rainfall runoff. In addition, a check dam 300 having a specific height is installed between the vegetation channel and another vegetation channel, and an inflow groove 310 is formed at an upper side of the check dam 300. 5 illustrates a perspective view of a check dam 300 according to an embodiment of the present invention.

Therefore, the rainfall runoff overflowed from the pretreatment tank 100 is introduced into the first vegetation waterway 200-1, and the initial outflow water of the gourd water is stored in the first vegetation waterway 200-1. As shown in FIG. 3, the vegetation channel has a specific slope from the front to the rear. In addition, the slope of the vegetation channel (the height of the vegetation channel divided by the length of the vegetation channel) is limited to 4% or less to reduce the runoff rate of rainfall runoff. In addition, vegetation water is planted on the lower surface of the vegetation waterway.

Therefore, rainfall runoff stored in the vegetation canal is filtered by vegetation, infiltration into the lower soil, sedimentation, fresh water and evaporation. In addition, as shown in Figure 1, the vegetation can be seen that a constant inclination is formed from the outside to the inside.

And, if the rainfall runoff is continuously introduced into the existing channel 20, the rainfall runoff overflowed from the first vegetation channel 200-1 is the second vegetation connected to the rear of the first vegetation channel 200-1 It is introduced by the inlet groove 310 formed in the upper side of the check dam 300 to the waterway (200-2). Rainfall effluent flowing from the first vegetation channel 200-1 into the second vegetation channel 200-2 is stored in the second vegetation channel 200-2 and is also filtered by the vegetation and lower soil. Infiltration, sedimentation, fresh water and evaporation will occur.

Similarly, when the rainfall runoff is continuously introduced into the existing waterway 20, the rainfall runoff overflowed from the second vegetation channel 200-2 is connected to the third vegetation channel 200-2. It is introduced by the inlet groove 310 formed in the upper side of the check dam 300 to the waterway (200-3). Rainfall runoff that overflowed from the second vegetation channel 200-2 and flows into the third vegetation channel 200-3 is stored in the third vegetation channel 200-3 and is filtered by the vegetation, Infiltration, sedimentation, fresh water and evaporation will occur.

In addition, when the continuous runoff flows into the existing sorghum, the rainfall runoff overflowed from the third vegetation channel 200-3 flows into the outlet structure 400 through the inlet groove 310 of the check dam 300. Then, it is discharged back to the existing waterway 20 through the outlet structure 400. 6 illustrates a perspective view of an outlet structure 400 according to an embodiment of the present invention. As shown in FIG. 6, a check dam 300 is provided between the third vegetation channel 200-3 and the outlet structure 400, and an inflow groove 310 is disposed at an upper side of the check dam 300. The rainwater outflow water overflowed from the third vegetation channel 200-3 through the inflow groove 310 is introduced into the outlet structure 400.

Thus, the capacity of rainfall runoff stored in the first vegetation channel 200-1, the second vegetation channel 200-2, and the third vegetation channel 200-3 is treated as a whole water quality treatment subject to nonpoint pollution treatment. It becomes equal to the capacity of the initial effluent corresponding to the capacity WQv.

Hereinafter, a non-point pollution reduction method using a non-point pollution reduction facility 10 having a vegetation waterway according to an embodiment of the present invention will be described. First, FIG. 7 is a flowchart illustrating a non-point pollution reduction method using a non-point pollution reduction facility 10 having a vegetation waterway according to an embodiment of the present invention.

First, the rainfall runoff flowing into the existing waterway 20 is introduced into the pretreatment tank 100 to be stored (S10). Then, the contaminants contained in the rainfall runoff stored in the pretreatment tank 100 are settled downward (S20). As mentioned above, suspended solids such as earth and sand injection and garbage included in rainfall runoff are primarily removed to increase the efficiency of nonpoint pollution reduction.

Then, the rainfall runoff overflowed from the pretreatment tank 100 is connected to the rear of the pretreatment tank 100 and a specific slope is formed from the front to the rear, and the vegetation water flows into the first vegetation waterway 200-1 in which the vegetation water is planted on the lower surface. Will be (S30).

Next, the second vegetation channel connected to the rear of the first vegetation channel 200-1 through the inflow groove 310 of the check dam 300, the rainfall runoff overflowed from the first vegetation channel 200-1 ( 200-2) to be stored and stored. Similarly, the third vegetation channel 200 connected to the rear of the second vegetation channel 200-2 through the inflow groove 310 of the check dam 300 has overflowed from the second vegetation channel 200-2. -3) is flowed into and stored (S40).

Rainwater runoff flowed into and stored in the first vegetation channel 200-1, the second vegetation channel 200-2, and the third vegetation channel 200-3 is filtered by the vegetation water, fresh water, sedimentation, and the lower part. Will penetrate into the soil and evaporate (S50). As mentioned above, the amount of rainfall effluent water flowing into and stored in the first vegetation channel 200-1, the second vegetation channel 200-2, and the third vegetation channel 200-3 is treated as non-point pollution. It corresponds to the capacity of the initial effluent corresponding to the total water treatment capacity (WQv).

The rainfall runoff overflowed from the third vegetation channel 200-3 flows into the outlet structure 400 connected to the rear of the third vegetation channel 200-3 and passes through the outlet structure 400. It is discharged to 20 (S60).

10: Non-point pollution reduction facility with vegetation channel
20: existing waterway
100: pretreatment tank
200-1: first vegetation
200-2: second vegetation
200-3: Third Vegetation
300: check dam
310: inlet groove
400: outlet structure

Claims (10)

In nonpoint pollution abatement facilities,
Pre-treatment tank for rainfall runoff flows into the existing channel to settle the contaminants contained in the rainfall runoff to the bottom;
Rainwater outflow overflowed from the pre-treatment tank, a specific inclination is formed from the front to the rear, vegetation water is planted on the lower surface and the rainfall outflow water is stored therein; And
It includes an outlet structure for the rainfall runoff overflowed from the vegetation canal to discharge the rainfall runoff to the existing waterway,
The vegetation channel is configured to be connected in plurality in the flow direction of the rainfall runoff, a check dam having a specific height is provided between the vegetation channel and the upper side of the check dam to guide the rainfall runoff to another vegetation channel Inlet grooves are formed to
The volume of rainfall effluent that can be stored in the vegetation canal is provided with a plurality of volumes equal to the volume of the initial effluent which is the object of pollutant removal from the rainfall effluent and is the total water treatment capacity.
The volume of the pretreatment tank is 7 to 13% of the total water treatment capacity, the width of the lower surface of the vegetation waterway is 0.6 ~ 2.4m,
The vegetation channel is inclined from both sides inward,
Non-point pollution reduction facility having a vegetation channel characterized in that the inclination from the front to the rear of the vegetation channel is more than 0% ~ 4% or less.
delete delete delete delete delete delete In the non-point pollution reduction method using a non-point pollution reduction facility having the vegetation waterway of claim 1,
Rainfall runoff flow into the pre-treatment tank is stored;
Settling down the contaminants contained in the rainfall runoff stored in the pretreatment tank;
Rainfall runoff from the pretreatment tank is connected to the rear of the pretreatment tank and a specific slope is formed from the front to the rear, and the vegetation water is introduced into the vegetation water planted on the lower surface;
The rainfall runoff flows into the vegetation water and is stored in the filtration, fresh water, sedimentation, infiltration and evaporation by the vegetation water; And
And draining the rainfall outflow water overflowing from the vegetation channel to the existing channel through an outlet structure connected to the rear of the vegetation channel.
The vegetation waterway is composed of a plurality of connected in the flow direction of the rainfall runoff,
The rainfall runoff is stored in the vegetation channel,
Rainfall runoff stored in the vegetation channel connected to the pre-treatment tank overflowed and stored in another vegetation channel connected to the rear of the vegetation channel,
A check dam having a specific height is provided between the vegetation channels and the non-point pollution with the vegetation channel is characterized in that the rainfall outflow water is introduced into the another vegetation channel by the inlet groove formed on the upper side of the check dam. Non-point pollution reduction method using facility. delete delete

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