KR20190085294A - Method and Structure for Making Groundwater Supply Storage - Google Patents

Abstract

The present invention relates to a method of forming a groundwater storage space by using a dam structure and an artificial porous medium storage body, and a structure therefor. An artificial porous medium storage body, which is made of synthetic resin particles having a uniform size to store a large amount of groundwater with high porosity, and a dam structure, which is installed on the lateral side of the downstream of the artificial porous medium storage body to block the flow of the underwater, are used to build a structure for forming a groundwater storage space and form the groundwater storage space through the structure. Therefore, since the structure can be designed and constructed to have a groundwater storage capacity proper for a necessary water resource amount, management for the securement and supply of underwater can be optimized.

Description

TECHNICAL FIELD The present invention relates to a method for constructing a groundwater storage space using an artificial porous medium reservoir and a dam structure,

The present invention relates to a method of forming a space (groundwater storage space) capable of storing groundwater by blocking the flow of groundwater, and a structure for forming such a groundwater storage space. More specifically, (Artificial porous medium) reservoir which is composed of particles of one size and has a high porosity so that a large amount of groundwater can be deposited, and an artificial porous medium reservoir disposed at a downstream side ("downstream side") of the artificial porous reservoir In this paper, we propose a method of designing and constructing a structure that will form a groundwater storage space using a dam structure that blocks the flow of groundwater. To enable the optimization of management for the acquisition and supply of groundwater. It relates to a method groundwater storage space using the dam body and the structure and composition of structure for this purpose. "

The most common method for securing water is to install a dam structure that blocks the flow of river water as disclosed in Korean Patent No. 10-0895273 to confine the river water.

However, in the case of the prior art in which the river water is simply stored and stored using the dam structure, the amount of evapotranspiration of the stored water is very large, which is very disadvantageous in terms of efficient water resources. Particularly, there is a limit to that it is difficult to cope with the frequent drought and the recent increasing demand for small-scale water.

As a solution to this problem, it is considered in order to secure groundwater. The important point in securing groundwater is to secure enough water storage capacity, that is, to secure sufficient groundwater storage space, And to supply water smoothly. In particular, it is very important to design and construct structures and optimize the management of the water supply so that the amount of water required, that is, the groundwater storage capacity to meet the water resource amount, is optimized. However, the presently proposed prior art is limited to simply installing a structure that blocks the flow of groundwater in the ground, which is insufficient to satisfy the above-mentioned important conditions.

Korean Patent Registration No. 10-0895273 (2009. 05. 06. Announcement).

The present invention has been developed in order to overcome the limitations of the prior art as described above, and it is an object of the present invention to provide a groundwater storage space capable of securely and sufficiently supplying groundwater sufficiently to satisfy required water resources, Providing a method for constructing a groundwater storage space that can be efficiently designed and constructed so as to have a groundwater storage capacity suited to the resource amount and to optimize operation and management by eliminating uncertainty and quantitative measurement and control, .

According to an aspect of the present invention, there is provided an artificial porous media reservoir (1) having a porous structure capable of allowing groundwater to flow therein, Wherein the groundwater storage structure is formed by cultivating the artificial porous medium reservoir (1) to form a groundwater storage space capable of reserving and storing the groundwater. / RTI >

According to another aspect of the present invention, there is provided a method of constructing a groundwater storage space capable of storing groundwater by intercepting the flow of groundwater, comprising the steps of: (1) collecting an artificial porous medium reservoir having a porous structure ) Is installed in the ground, and a dam structure (2) for blocking the flow of groundwater is installed on the downstream side surface of the artificial porous medium reservoir (1); And a groundwater storage space capable of storing and storing groundwater by the artificial porous medium reservoir (1) is formed.

In the groundwater storage space construction method and the groundwater storage space construction method using the same according to the present invention, the artificial porous medium reservoir body 1 includes a plurality of artificial porous medium block 10 having a hexahedral shape, The artificial porous media block 10 may be constructed such that spherical particles having a uniform particle size made of synthetic resin are stacked in the longitudinal, And may be fixed in the form of a hexahedron by bonding and bonding.

In addition, in the groundwater storage space structure and the method for preparing the groundwater storage space using the same according to the present invention, when spherical particles 12 are vertically stacked to form an artificial porous medium block, Can be located on the same vertical line. Particularly, in the groundwater storage space structure according to the present invention and the method for preparing the groundwater storage space using the same, the particle size of spherical particles constituting the artificial porous block 10 is 4.75 mm, and the artificial porous media block 10 ) May have a porosity of 47.65%.

According to the present invention, the artificial porous medium reservoir made of the artificial porous medium block is used to form the reservoir and the reservoir space of groundwater, and the artificial porous medium block is formed by a combination of spherical particles. The porosity of the porous medium block is changed and the particle size of the spherical particles can be variously determined as needed. Therefore, according to the present invention, by properly selecting the particle size of the spherical particles, the groundwater storage structure So that it is possible to carry out very easily the optimization of the management of the water supply.

In the present invention, since the spherical particles are made of synthetic resin and are firmly bound to each other to form a modular shape to form an artificial porous medium block, they show a strong resistance against the loss of particles due to erosion and the like, It is possible to consistently and constantly demonstrate the ability of cultivating and storing the groundwater, which has been maintained, and to maintain the excellent porous structure consistently, and various parameters and ability values for the storage capacity are continuously maintained. Therefore, according to the present invention, it is possible to perform quantitative measurement and control by eliminating uncertainty in reserving water resources by reserving groundwater, thereby optimizing operation and management of a groundwater storage space construction structure .

Furthermore, in the present invention, the artificial porous media block previously prepared in advance is transported to the site, and a plurality of artificial porous media reservoirs are rapidly transported to the ground Buried, and constructed, thereby reducing the construction cost and shortening the construction time.

1 is a schematic perspective view of an embodiment of a groundwater storage space structure according to the present invention.
FIG. 2 is a photograph of an actual artifact of an artificial porous medium block which can be used to construct an artificial porous medium reservoir according to the present invention.
3 is a schematic view for illustrating a laminated structure of an artificial porous media block.
4 is a schematic side view showing a laminated structure of an artificial porous media block.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

FIG. 1 is a schematic perspective view of an embodiment of a groundwater storage space structure 100 according to the present invention. As shown in the figure, the groundwater storage space structure 100 according to the present invention includes an artificial porous medium reservoir 1 for reserving and storing groundwater, an artificial porous medium reservoir 1 for reserving groundwater, And a dam structure (2) installed on the downstream side to block the flow of groundwater.

First, the dam structure 2 is used to block the flow of the stored ground water, and a dam having an impermeable structure installed to store water in a river or the like can be used as the dam structure 2 of the present invention. In the present invention, the dam structure 2 may be exposed at the downstream side as illustrated in FIG. 1, but may be constructed in a state where the entire dam is buried in the ground like a ground dam.

The artificial porous medium reservoir 1 is for holding and storing groundwater, and is constructed in contact with the upstream side surface, that is, the upstream side surface of the dam structure 2. In the present invention, the artificial porous media reservoir 1 is formed of synthetic resin and is embedded in an aquifer through which groundwater flows so as to have a porous form so as to have a high porosity. FIG. 2 is a photograph of an actual artifact of an artificial porous medium block 10 which can be used for constructing an artificial porous medium reservoir 1 according to the present invention, and FIG. 3 is a photograph showing the structure of the artificial porous medium block 10 FIG. 4 is a schematic side view showing a laminated structure of the artificial porous media block. FIG.

In the present invention, the artificial porous media reservoir 1 has a structure in which a plurality of artificial porous media blocks 10, each of which is a hexahedron, as shown in the drawing, are arranged in a direction from the upstream side ("upstream side" And horizontally. The artificial porous media block 10 has a high porosity due to a porous structure in which particles of uniform size made of synthetic resin are integrated. Specifically, spherical particles 12 having the same size, that is, uniform particle diameters are stacked vertically, horizontally, and vertically using synthetic resin, and are bonded and bonded together to form a hexahedron, ). In particular, as shown in Figs. 3 and 4, in the present invention, when the spherical particles 12 are vertically stacked, the centers of the spherical particles 12 of the upper and lower layers are located on the same vertical line. Accordingly, the artificial porous media block 10 formed by laminating the spherical particles in this manner has a very high porosity while having a porous structure in which voids exist between the spherical particles 12, and the voids are filled with water and stored . That is, in the present invention, since the spherical particles 12 of the upper and lower layers are laminated in the form of being positioned on the same vertical line and integrally joined together, the artificial porous medium block 10 is formed, Which is very high porosity. Therefore, the artificial porous media block 10 exhibits excellent groundwater storage and rejuvenation ability.

The porosity of the artificial porous medium block 10 changes depending on the particle size of the spherical particles 12 constituting the artificial porous medium block 10. Since the particle diameter of the spherical particles 12 can be variously determined as required, It is possible to easily construct the groundwater storage space forming structure 100 having the groundwater storage capacity matching with the required amount of water resources by appropriately selecting the particle size of the particles. That is, according to the present invention, it is possible to design and construct the groundwater storage space forming structure 100 so as to have the groundwater storage capacity suited to the amount of water resources, and to optimize the management of the water supply. .

As described above, the particle size of the spherical particles 12 constituting the artificial porous medium block 10 can be determined according to the need, but the spherical particles 12 having a particle size of 4.75 mm are laminated and bonded as described above, When the porous medium block 10 is formed, a high porosity of about 47.65% is exhibited, and the most suitable groundwater storage and recharge ability is exhibited.

Particularly, in the artificial porous media block 10 according to the present invention, since the spherical particles are made of synthetic resin and are firmly bound together by bonding, they are modularized. Therefore, It is possible to consistently and consistently exhibit the ability to raise and store the groundwater originally designed. In other words, despite continuous use and time lapse, the artificial porous media block 10 will consistently maintain a superior porous structure, and consequently, the storage capacity of the artificial porous media block 10, such as hydraulic conductivity and porosity, Various parameters, ability values, etc. are maintained constantly. Therefore, according to the present invention, it is possible to perform quantitative measurement and control by removing uncertainty in reserving water resources by storing groundwater, thereby optimizing operation and management of the groundwater storage space creation structure 100 The advantage of being able to exert.

As described above, in the present invention, the artificial porous medium block 10 previously prepared in advance is transported to the site, and the artificial porous medium retaining body 1 is sandwiched between the excavating portions of the ground in a vertical direction and a horizontal direction, As shown in FIG. Therefore, the artificial porous media reservoir 1 can be constructed quickly through a simple operation, thereby reducing the construction cost and shortening the construction period.

1: Artificial porous medium reservoir
2: dam structure
100: Groundwater storage space structure

Claims (5)

An artificial porous medium reservoir having a porous structure capable of allowing groundwater to flow,
And a dam structure disposed on a downstream side surface of the artificial porous media reservoir to block the flow of groundwater,
Wherein a groundwater storage space capable of storing and storing groundwater is formed by the artificial porous medium reservoir.
The method according to claim 1,
Wherein the artificial porous medium storage structure is constructed by arranging a plurality of artificial porous media blocks each having a hexahedron in a vertical direction and a horizontal direction on the upstream side of the dam structure.
3. The method of claim 2,
Wherein the artificial porous medium block is formed of a synthetic resin and has a plurality of spherical particles having a uniform particle size stacked in longitudinal, transverse and vertical directions and fixed to each other in the form of a hexahedron.
The method of claim 3,
Wherein the center of the spherical particles in the upper and lower layers is located on the same vertical line when the spherical particles are vertically stacked to form the artificial porous medium block.
A method for creating a groundwater storage space capable of storing groundwater by shutting off the flow of groundwater,
By providing a dam structure for burying an artificial porous medium retaining body having a porous structure capable of staying underground water in the ground and for blocking the flow of groundwater to the downstream side of the artificial porous medium retaining body;
Wherein the artificial porous medium reservoir forms a groundwater storage space capable of reserving and storing the groundwater.

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