KR100895273B1 - Method for Blocking Debris and Sediments in River and Reservoir - Google Patents

Abstract

The present invention effectively blocks and manages nonpoint pollutants composed of contaminants, particulate and dissolved contaminants introduced from upstream of the stream, and similar substances ranging from microparticles such as mud to gravel sizes. The present invention relates to a method of blocking stream inflows using a series of porous water flow channels and floating sand flow overflow barriers to effectively manage water purification and excessive inflow similarity using porous water flow passages and floating sand flow overflow jaw.

According to the present invention, upstream of the river, the porous water flow passage made of a porous medium having a gap through which water can pass is installed to collect the contaminants and small sands; In the downstream, an impermeable floating airflow overflow jaw is installed to capture the contaminated floating sand and the surplus floating sand that flows through the porous water flow passage, thereby removing impurities, small sand, contaminated floating sand and surplus floating sand. A stream and reservoir influent blocking method is provided which allows water to flow downstream.

Rivers, dams, influents, suspended sands, overflows, porosity, beams, reservoirs, contaminants

Description

Method for Blocking Debris and Sediments in River and Reservoir for Resource Regeneration and Water Function Improvement

The present invention relates to a method for blocking stream inflow using a porous water flow passage and a suspended sand overflow bump, and more specifically, to a non-point pollutant composed of contaminants, particulate and dissolved contaminants introduced from an upstream of a river, and By effectively blocking and managing a variety of similar materials ranging from the same microparticles to gravel size, a series of porous water flow beams and floating sand overflow barriers can be used to effectively manage water purification and downstream inflows. The present invention relates to a method for blocking stream inflows.

Large and small dams are built to secure water and manage floods. 1 is a schematic view showing a state in which a conventional general dam 10 is installed, in which various pollutants, including analogous materials such as gravel and suspended sand, which are introduced from upstream, are deposited upstream of the dam 10. do. Therefore, in order for the dam 10 to exhibit a desired function, it is necessary to periodically remove similar substances and contaminants, etc. deposited on the upstream side of the dam 10. By the way, since the dam 10 is generally mainly installed downstream of a river and its magnitude | size is large, it requires a considerable cost to remove and manage this accumulated similarity.

In rivers, as in the case of dams, contaminants and similarities are deposited in certain areas in areas where the flow rate is reduced, and the water quality worsens as well as the water flow capacity.

Therefore, to effectively manage rivers, it effectively blocks sediments (including small and floating sands) and contaminants that flow with large flow rates during flooding, and dissolved contaminants that enter the feng shui without the flow of sediment due to reduced flow rates. · Multi-functional river management is needed.

The present invention was developed in response to the above needs, and installed in the mainstream of the river with frequent movement of pollutants and the like, made of porous media with easy water flow and having a porous water flow passage having an acid function, By showing the filter function of the filter media, the water quality purification function of the stream can be exerted, and during flooding, it blocks the flows of small flows such as gravel and contaminants, and restricts the movement of floating sands such as earth and sand containing a large amount of pollutants in the back of the porous channel. It is an object of the present invention to provide a method for preventing a stream from being contaminated as well as preventing a stream from being contaminated by installing a floating sand overflow prevention jaw.

In order to achieve the above object, in the present invention, upstream of the river, by installing a porous water flow passage made of a porous medium having a gap through which water can pass, traps contaminants and small sands; In the downstream, an impermeable floating airflow overflow jaw is installed to capture the contaminated floating sand and the surplus floating sand that flows through the porous water flow passage, thereby removing impurities, small sand, contaminated floating sand and surplus floating sand. A stream influent blocking method is provided which allows water to flow downstream.

In addition, in the present invention, as an embodiment of the above method, there is provided a stream inlet blocking method for arranging the diffuser in the porous channel to the acidic effect to prevent the occlusion of the gap and to promote the biological purification.

In the method of the present invention as described above, the porous water flow passage and the floating yarn overflow prevention jaw may be provided in plurality, and the screen member for collecting the contaminants may be further installed on the upstream side of the porous water flow passage.

In addition, in the present invention, as another embodiment of the method as described above, the inflow of the river, characterized in that the portion formed of the porous media in the porous channel, is formed only in a portion of the water flowing in the porous channel to the river width A material blocking method is provided, and the porous inflow material blocking method is characterized by consisting of a gabion beam.

According to the present invention, by installing a porous water flow passage (1) formed by a porous medium with a gap in the river, the microbial action generated on the surface provided by the porous medium for water flowing through the porous water passage (1) This results in a water purification function.

In addition, by collecting a variety of contaminants and pebbles, coarse sand, such as sand flowing in from the upstream by the porous channel, the river purification effect is exhibited.

In particular, by installing the diffuser in the porous water flow passage, it is possible to exhibit the effect of preventing the occlusion of the gap due to the acid action, the water purification function by the microorganism action.

In addition, in the present invention, by installing an impermeable floating yarn overflow barrier downstream of the porous channel, trapping the floating sand containing contaminants as well as the excess floating sand to block the flow, to prevent similar loss It is possible to prevent the floating air containing contaminants from flowing downstream to contaminate the stream or reservoir.

Hereinafter, with reference to the drawings showing an embodiment of the present invention will be described a specific configuration of the present invention.

2 is a side view showing a structure in which a beam is installed to explain the method according to the present invention.

In Figure 2, the member number 1 is a porous water flow passage (1) installed on the uppermost side, the member number 2 is a floating sand overflow prevention jaw (2) installed downstream thereof, the member number 10 is the main dam (10) installed on the downstream side )to be.

As shown in the figure, in the present invention, a plurality of porous water passages 1 and floating sand overflow prevention jaw 2 are installed upstream of the dam 10. Referring to the configuration and function of the porous water flow passage (1) and the floating yarn overflow prevention jaw (2), first, the porous water flow passage (1) installed on the upstream side by using a porous medium having a predetermined gap for smooth water flow Is formed. 3 shows a perspective view showing an example of the porous water passage 1, as shown in the figure, the porous water passage 1 may be formed using, for example, a gabion. However, in the present invention, the porous water passage 1 is not limited to the configuration using the gabion shown in the drawings, and may be composed of a variety of materials as long as the configuration has a function of smooth water collection and sorbate and contaminants.

In this way, since the porous water flow passage 1 is formed by a porous medium having a gap, since the amount of water flowing from the upstream in the non-flooding period is small, the water does not overflow the porous water passage 1, and the porous water flow passage 1 Flows downstream through the gap. In this process, the porous water passage 1 improves the self-cleaning ability by the action of microorganisms generated on the surface provided by the porous media, thereby exerting a water purification function.

On the other hand, during the flood season, the small flow sand 11, such as gravel and coarse sand, which flows from the upstream with various contaminants, is filtered by the porous water flow passage 1, and the small flow sand 11, such as gravel and coarse sand, is formed in the porous water flow. Collected in the lower portion of the upstream side of the beam (1), the contaminants (12) having a relatively low specific gravity, such as garbage, wood chips, etc. are collected in the upper portion of the upstream side of the porous water passage (1). In this way, the contaminants 12 and the small-flow sand 11 collected in the porous water flow passage 1 can be easily removed periodically, and by doing so, the function of the porous water flow passage 1 can be restored. The removed contaminants 12 and some small sands 11 can be recycled as resources.

On the other hand, since the gap is formed in the porous water flow passage (1), the time and area of contact with the microorganisms increases as water passes through the gap of the porous water flow passage (1), thereby causing a biological purification. As the upstream water passes through the porous channel 1, the gap of the primary porous channel 1 may be blocked, in order to prevent this, and to further increase the biological purification, in FIG. As shown, the diffuser 13 may be installed inside the porous water passage 1, and air may be injected through the diffuser 13 whenever necessary to cause the diffuser. In other words, by injecting air into the porous water flow passage 1 to cause acid action, it is possible to prevent the gap from being blocked and to further activate some biological purification.

In addition, the screen member 14 may be provided on the upstream front surface of the porous water passage 1 so as to efficiently collect the contaminants 12. The screen member 14 may be formed in the form of a grid.

On the other hand, in the porous channel (1), the gap formed between the porous media is mainly exhibited a large effect when the non-flooding period, so in forming the porous channel (1), the portion consisting of the porous media for the width of the river It may be formed only on a part of the porous water flow passage 1 (a portion where water flows). As such, an embodiment of the porous water passage 1 in which a portion formed of a porous medium is formed only at a portion of the center is shown in a schematic perspective view in FIG. 4. The portion of the porous media does not necessarily need to be centered, but is sufficient if it is formed in a location where water flows mainly. Portions other than those made of porous media may be made of watertight materials such as concrete.

On the other hand, Figure 5 is another embodiment of the porous water flow beam (1) is shown in a schematic perspective view, the porous water flow beam (1) may be made using a megalithic (巨石) as shown in FIG.

During the flood period, the water flowing from the upstream increases, so that the water flows over the porous water flow passage (1). At this time, surplus floating sand, such as sand of smaller size, flows downstream with the excess water. In order to additionally collect such surplus floating sand, in the present invention, a floating sand overflow prevention jaw 2 may be further installed as an additional secondary beam downstream of the porous water passage 1. Therefore, the surplus floating yarn 21 that has flown through the porous water flow passage 1 is blocked by the floating yarn overflow prevention jaw 2, and thus is collected at the lower side of the upstream side of the floating yarn overflow prevention jaw 2. In addition to the surplus floating yarns 21, such as mud powder, floating yarns containing contaminants flow through the porous water column 1, and in the present invention, in addition to the additional floating floating yarns by the floating yarn overflow prevention jaw 2 as described above. Since the floating sand containing the pollutant is collected, the water flowing through the floating sand overflow prevention jaw 2 and the dam and the reservoir 10 is further purified. The surplus floating sand collected upstream of the floating yarn overflow prevention jaw 2 is periodically removed, and the removed floating sand can be used as a resource.

On the other hand, upstream of the floating yarn overflow prevention jaw (2), it is also possible to form a concave collecting portion in which the lower bed is formed concave so that a large amount of surplus floating sand and pollutant-containing floating sand can be collected. Unlike the porous water flow passage 1, the floating sand overflow prevention jaw 2 should be made of an impermeable structure and a watertight structure, and may be formed of a general concrete dam.

6 shows another embodiment of the floating yarn overflow prevention jaw 2 in a schematic perspective view. The floating yarn overflow prevention jaw 2 shown in FIG. 6 has a beam cross-section in which the height of the central portion is lower than that of both sides. Have. According to this cross-sectional configuration, when water flows through the beam, the flow velocity in the lower central portion is faster than the flow velocity in both sides, so that the two portions downstream of the floating yarn overflow prevention jaw 2 Larger amounts of earth and sand are deposited than the central part, and wetlands are formed, and thus an eco-friendly ecological environment is easily created.

As such, the cross section of the beam having a lower height than the height of the central portion may be applied to not only the floating sand overflow prevention jaw 2 but also the porous water flow passage 1 described above.

1 is a schematic view showing a conventional dam and reservoir installation state of the related art.

2 is a schematic view showing a state in which the porous water flow passage and the floating sand blocking beam are installed upstream of the dam and the reservoir according to the present invention.

3 is a schematic perspective view showing an example of the porous water flow beam in the present invention.

4 is a schematic perspective view showing still another example of the porous water flow beam in the present invention.

Figure 5 is a schematic perspective view showing another embodiment of the porous water passages in the present invention.

Figure 6 is a schematic perspective view showing another embodiment of the floating sand blocking beam in the present invention.

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

1: porous water flow beam

2: floating company overflow prevention jaw

Claims (7)

delete Upstream of the river, a porous water flow passage (1) made of a porous medium having a gap through which water can flow is installed to collect the contaminants and small sands; In the downstream, by installing an impermeable floating sand overflow prevention jaw (2) to collect the contaminated floating sand and surplus floating sand flowing through the porous water flow passage (1), To allow water to flow downstream with contaminants, small sands, contaminated floats and excess floats removed; The overflow prevention jaw (2) is made so that the central portion has a lower height than both sides so that the flow velocity of the central portion is faster, The porous water flow passage (1), a stream and reservoir inflow material blocking method, characterized in that the diffuser is arranged so that the acid action to prevent the occlusion of the gap and to promote the biological purification. The method of claim 2, The porous water flow passage (1) and the floating yarn overflow prevention jaw (2) is a stream and reservoir inflow material blocking method, characterized in that a plurality is installed. The method of claim 2, The upstream side of the porous water flow passage (1), the screen member (14) for trapping the contaminants (12) is further characterized in that the river and reservoir inflow material blocking method. The method of claim 2, Part of the porous water flow passage (1) consisting of a porous medium, the river and reservoir inflow material blocking method, characterized in that formed in only a portion of the water flows through the porous water flow passage (1) with respect to the width of the river. The method of claim 2, The porous water flow passage (1) is a stream and reservoir inlet blocking method, characterized in that consisting of gabion beams. The method of claim 2, The porous water flow passage (1) is a river and reservoir inflow material blocking method, characterized in that consisting of water permeable megalithic beams.

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