KR102239436B1 - A tube-well device for purification pollutant of underground - Google Patents

Abstract

The present invention relates to a tube-well device for purification of ground pollution, capable of minimizing surface leakage of injected air or chemical liquid and, more specifically, to a tube-well device for purification of ground pollution, comprising: a casing inserted into a tube-well; and a blocking plate which covers a top surface of the tube-well in a state positioned on a ground surface, and through which an upper part of the casing passes.

Description

A tube-well device for purification pollutant of underground}

The present invention relates to a wells device installed to purify underground pollution, and when air or chemicals are injected into the ground to purify pollutants in the ground, air or chemicals are prevented from leaking to the surface through the wells. In the case of extracting gaseous or liquid pollutants, it relates to a welling device for purifying ground pollution in which a blocking plate is mounted on the top surface of a well in order to block the inflow of ground air from the surface to the ground.

Since the 1980s, the problem of soil or groundwater pollution in the ground has been seriously highlighted due to the industrial development caused by economic development and income increase. For example, as the use of oil is rapidly increasing, the installation of oil storage and gas stations is increasing significantly, and accordingly, pollutants (NAPLs: Non Aqueous Phase Liquids) in oil storage tanks of gas stations and industrial facilities that store hazardous chemicals The soil layer and groundwater pollution problems caused by the leakage of oils and hazardous chemicals classified as are seriously emerging.

Until now, various technologies for restoring contaminated soil or groundwater have been developed and applied in the field in advanced countries and domestic countries. It can be divided into -Situ) technology and In-Situ purification technology that directly treats contaminated soil by inserting a well into the ground at the current location.

In this regard, a look at Korean Patent Registration No. 10-1927947, which is a prior art. The prior art relates to a purification method for purifying soil contaminated with oil such as gasoline and diesel in situ, and installing a well, such as an injection well or an extraction well, in the ground where the soil is located, and if the well is an injection well, it is used as a well. Air or chemical solution is injected to purify the soil pollutants by allowing the contaminated soil to flow into the ground, and if the well is an extraction well, air is sucked into the well and contaminants in the ground, such as gas or contaminated water, are passed through the well. It relates to a method of purifying the ground pollution that is extracted.

Looking at the problems associated with the prior art, if the well is an injection well, air injected into the well at a constant pressure or a chemical liquid that treats contaminants flows into the ground where the contaminant is located, but the disturbance formed by drilling the well Air or chemical liquid flows due to pressure applied to the gap formed between the inner surface of the well formed of the stratum and the grouting member, so that the air or chemical liquid to be flowed into the ground eventually leaks to the ground surface.

That is, a certain pressure is applied so that air or a chemical liquid flows into the ground where the pollutant is located, but the pressure is dispersed into the gap between the inner surface of the well and the grouting member, and eventually the injected air or chemical liquid flows into the gap described above. There is a problem of leaking to the ground.

Furthermore, when the well is an extraction well, in the process of inhaling pollutants from the ground by air suction through the well, external air from the ground passes through the ground and flows into the well through the air suction input applied to the well. The air suction input applied to the wells is distributed, and as a result, the pressure required for suction of pollutants in the ground is lowered, resulting in a problem that the efficiency of suction of pollutants is reduced.

Accordingly, there is an urgent need for research on technical characteristics that can increase the efficiency of purifying underground pollutants in wells, which are injection wells or extraction wells.

In order to solve the above-described problems according to the prior art, when a well is used as an injection well, a certain pressure is applied to the well, and the problem of leaking into the surface of the injected air or chemical solution is minimized, and furthermore, when the well is an extraction well, the well Through the air intake input, the purpose of this study is to propose a welling device for purifying underground pollution that can maximize its efficiency in inhaling pollutants from the ground.

In order to solve the above-described problems according to the prior art, a well apparatus for purifying underground pollution according to the present invention includes a casing 100 inserted into the well 10; And a blocking plate 300 that covers an upper surface of the well 10 in a state positioned on the ground surface GL and penetrates the upper part of the casing 100.

Preferably, the blocking plate 300 may be positioned on the top surface 220 of the grouting member 200 filled in the well 10.

Preferably, the area of the blocking plate 300 may be larger than the area of the top surface 220 of the grouting member.

Preferably, the blocking plate 300 is formed with a casing through hole 320 through which the upper portion of the casing 100 passes,

In a state in which the casing packer 340 is mounted in the casing through hole 320, the outer surface of the upper portion of the casing 100 may be in close contact with the casing packer 340.

Preferably, the casing through hole 320 is formed in the center of the blocking plate 300, the casing packer 340 includes an air tube 342 into which air is injected, and the blocking plate The area of 300 is two or more times wider than the area of the top surface 220 of the grouting member, and the center of the top surface 220 of the grouting member and the center of the blocking plate 300 are located on the same vertical line. And, the material of the blocking plate 300 is a steel plate, and anchor bolts 360 are mounted along the circumference of the blocking plate 300, and it is introduced into the ground (G) while passing through the blocking plate 300. It can be mounted as much as possible.

If the well is an injection well due to the above-described problem solving means, even if air or chemical liquid flows into the gap between the inner surface of the well and the grouting member, the flow of air or chemical liquid is blocked by the blocking plate located on the ground surface and goes back to the ground. As it flows, it is possible to minimize the leakage of the injected air or chemical liquid to the surface.

Furthermore, when the well is an extraction well, even if air suction input is applied to the well, the air on the ground is blocked by the blocking plate and does not flow to the ground.As a result, dispersion of the air suction input is minimized to improve the efficiency of the air suction input to inhale pollutants from the ground. Can be increased.

1 is a view schematically showing a well-known device for purifying underground pollution according to the present invention.
2 is a view schematically showing a blocking plate in the welling apparatus for purifying underground pollution according to the present invention.
3 and 4 are diagrams for explaining the effect of the welling apparatus for purifying underground pollution according to the present invention.

Hereinafter, preferred embodiments of the method according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

This will be described with reference to FIGS. 1 to 4.

This will be described with reference to FIG. 1. The water well apparatus for purifying underground pollution according to the present invention includes a casing 100, a grouting member 200, and a blocking plate 300 inserted into the well 10.

In the wells for purifying underground pollution according to the present invention, the wells 10 are in the state of being drilled from the ground to the ground (G), and these wells 10 will be drilled toward the place where the pollutants of the ground (G) are located on the ground. I can.

The casing 100 is inserted into the well 10. A plurality of holes 110 are formed in the lower part of the casing 100, so that air or chemical liquid introduced through the well 10 is injected into the underground (G), or gas or contaminated water located in the underground (G) Of course, the same contaminants may be introduced into the well 10 through the hole 110 and extracted to the ground.

In a state in which the casing 100 is inserted into the well 10, the casing 100 occupies the inner side of the well 10 and the grouting member 200 may be filled in the remaining portion.

The portion where the hole 110 is located in the casing 100 is a portion that exerts a screen function, and the grouting member 200 corresponding thereto may be sand or gravel (R). The upper portion of the hole 110 in the casing 100 is a portion that does not require a screen function, and the grouting member 200 corresponding thereto may be filled with cement (S) or bentonite (B).

Air or chemical liquid introduced through the casing 100 flows through a portion filled with sand or gravel (R) and is injected into the ground, or contaminants such as gas or contaminated water in the ground flow through these portions. It may be introduced into the hole 110 of the casing 100 and extracted to the ground.

The grouting member 200 close to the ground surface GL may be a cement capable of maintaining and supporting the shape of the well 10 in the vicinity of the ground surface GL. It goes without saying that it can be filled in a wider range than the grouting member 100.

It will be described with reference to FIGS. 1 and 2. The blocking plate 300 covers the top surface of the well 10 while being positioned on the ground surface GL. Further, the upper portion of the casing 100 may be exposed to the ground while passing through the blocking plate 300 so that the upper portion of the casing 100 is exposed to the ground.

The blocking plate 300 may cover the top surface of the well 10. The top surface of the well 10 may be filled with the grouting member 200 in a certain area as described above. As described above, the grouting member 200 filled in the top surface of the well 10 may be cement (S).

Accordingly, the blocking plate 300 may be positioned on the top surface 220 of the grouting member 200 filled in the well 10. It is to block the leakage of air or chemical liquid injected into the gap between the upper surface 220 of the grouting member and the ground surface to the ground surface GL, and further blocks the inflow of air into the ground from a certain range of the ground surface GL. It is to do. It will be described later.

Further, in order to block the leakage of the above-described air or chemical liquid to the ground surface GL or to block the air from the ground from flowing into the ground through the ground surface GL, the area of the blocking plate 300 is the upper end of the grouting member. It may be larger than the area of the surface 220.

Preferably, the center of the upper surface 220 of the grouting member and the center of the blocking plate 300 may be located on the same vertical line, and the area of the blocking plate 300 in this state is the upper surface of the grouting member ( Of course, it may be more than twice the area of 220). It is to effectively block the leakage of air or chemical liquids to the surface or the inflow of ground air into the ground.

As shown in FIG. 2, the shape of the blocking plate 300 may be circular or rectangular in cross section, but is not limited thereto, and any shape that exhibits an effect capable of increasing the above-described blocking effect is of course possible.

A casing through hole 320 through which the upper portion of the casing 100 passes may be formed in the blocking plate 300. Air or a chemical solution may be injected into the ground through the casing 100, and contaminants introduced into the casing 100 through the casing 100 may be extracted to the ground.

Accordingly, the casing 100 must be exposed to the ground through the blocking plate 300 positioned on the top surface of the well 10 or the top surface 220 of the grouting member. Accordingly, a casing through hole 320 may be formed in the blocking plate 300 so that the upper portion of the casing 100 may be penetrated. Preferably, such a casing through hole 320 may be formed in the center of the blocking plate 300.

The casing packer 340 may be mounted in the casing through hole 320. This casing packer 340 is to minimize the formation of a gap between the casing through hole 320 and the upper outer surface of the casing 100 as the upper portion of the casing 100 penetrates through the casing through hole 320.

Therefore, in a state in which the upper portion of the casing 100 is penetrated through the casing through hole 320, the outer surface of the upper portion of the casing 100 is in close contact with the casing packer 340, so that the casing packer 340 and the casing 100 It is sealed between the outer surfaces of the upper part. As a result, in a state in which the upper portion of the casing 100 is passed through the casing through hole 320, the space between the casing through hole 320 and the outer surface of the upper portion of the casing 100 is sealed.

This is to increase the above-described blocking effect, and to facilitate installation and operation of the casing 100 for injecting air or chemicals or extracting contaminants as the blocking plate 300 is positioned.

The material of the blocking plate 300 may be a steel plate having a constant weight. By the effect of pressing the ground surface with a constant weight while maintaining a constant strength, in the ground surface GL near the entrance of the tube well 10 in the state in which the casing 100 is inserted, the ground surface GL in the state where the tube well 10 is formed. The stability of the ground surface GL can be increased so that the shape of) can be maintained as it is.

The casing packer 340 has a size corresponding to the size of the inner side of the casing through hole 320, and an air tube 342 in which air is injected and inflated, a tube supporting the air tube 342 while surrounding the air tube 342 It may include an air injection unit 346 in communication with the cover 344 and the air tube 342.

In a state in which air is not injected into the air tube 342, the upper outer surface of the casing 100 penetrates into the casing packer 340 and the upper outer surface of the casing 100 penetrates. Air may be injected into the air tube 342 so that the space between the and the casing packer 340 may be sealed. As the air tube 342 expands, the inner surface of the air tube 342 is in close contact with the outer surface of the upper portion of the casing 100 to exert the above-described sealing effect.

For the stability of the installation and operation of the casing 100, the blocking plate 300 needs to be fixed in close contact with the ground surface GL. Accordingly, the anchor bolt 360 may be mounted along the circumference of the blocking plate 300. These anchor bolts 360 may be mounted to be introduced into the ground G through the ground surface GL while penetrating the blocking plate 300.

With reference to Figures 3 and 4 will be described the effect of the welling device for purifying underground pollution according to the present invention.

3 is a case where the well 10 corresponds to the injection well. That is, in the case of the pipe well 10 in which air or a chemical solution is injected into the ground through the casing 100 in order to purify contaminants in the underground (G).

Air or a chemical solution is injected into the ground (G) through the casing 100 from the ground at a constant pressure. It is preferable that the injected air or chemical liquid flows into the ground (G) where the contaminant is located, but between the inner surface of the uneven well 10 and the grouting member 200 generated during the process of drilling the well 10 Air or a chemical solution penetrates into the gap of and eventually leaks to the ground surface GL.

That is, even if the grouting member 200 is filled in the well 10, between the grouting member 200 and the inner surface of the well 10, the inner surface of the well 10 during the process of drilling the well 10 Due to this uneven state, a fine gap is bound to occur. Pressure applied through the casing 100 is dispersed through such a gap, so that the injected air or a chemical solution may unnecessarily leak to the ground surface GL.

In the absence of the blocking plate 300, there is a problem that the injected air or chemical liquid leaks to the ground surface GL as it is (Fig. 3(a)). However, when the blocking plate 300 having a certain weight and area is located, even if air or a chemical liquid flows to the ground surface GL, the blocking plate 300 is blocked and the effect of flowing back to the ground G is exerted ( 3(B)).

4 is a case where the well 10 corresponds to the extraction well. That is, it is the well (10) in the state of being drilled to the location of the pollutants in the ground. The contaminants in the ground are sucked by the air suction input of the casing 100 to flow into the hole 110 of the well 100, and then the contaminants introduced into the casing 100 by a pump or other means are transferred to the ground. Extract.

The pollutants in the ground flow from the ground to the inside of the casing 100 due to the air suction input applied to the casing 100, and the object sucked by the air suction input needs to be limited to the pollutants located in the ground.

However, in the absence of a blocking plate, as the air suction input is applied to the casing 100, the air suction input is distributed and reaches the ground surface GL. ) And flows into the casing 100. Accordingly, the efficiency of inhaling pollutants from the ground (G) is significantly lowered, while energy consumption for generating air intake is increased (FIG. 4(a)).

However, when the blocking plate 300 having a certain weight and area is positioned, even if an air suction input is applied to the casing 100, the air suction input by the blocking plate 300 does not reach above the ground surface GL, so that the air on the ground By blocking the inflow into the ground, it can be applied to inhale pollutants from the ground without dispersing the air intake input applied to the casing 100 in the end (FIG. 4(b)). As shown in (b) of FIG. 4, the air intake input applied to the casing 100 is not distributed to at least the coverage area of the virtual blocking plate 300, so that the air from the ground does not flow into the ground. In addition, it can effectively extract pollutants from the ground and increase the energy efficiency used for air intake.

In the above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but these are only exemplary, and those skilled in the art can use various modifications and equivalents from the embodiments of the present invention. It will be appreciated that examples are possible. Therefore, the scope of protection of the present invention should be determined by the claims.

100: casing
110: hall
200: grouting member 220: upper surface of the grouting member
300: blocking plate
320: casing through hole 340: casing packer
342: air tube 344: tube cover 346: air injection part
360: anchor bolt

Claims (5)

Casing 100 inserted into the well 10; And
It covers the top surface of the well 10 in a state positioned on the ground surface GL, and includes a blocking plate 300 through which the upper part of the casing 100 passes,
The blocking plate 300 is formed with a casing through hole 320 through which the upper portion of the casing 100 passes,
A casing packer 340 is mounted in the casing through hole 320,
The casing packer 340 includes an air tube 342 in which air is injected and inflated; A tube cover 344 that surrounds the air tube 342 and supports the air tube 342; And an air injection part 346 in communication with the air tube 342,
In a state in which air is not injected into the air tube 342, the upper portion of the casing 100 penetrates into the tube cover 344, and the upper portion of the casing 100 penetrates the air tube ( As air is injected into 342 and the air tube 342 is inflated, the inner surface of the air tube 342 is in close contact with the outer surface of the upper portion of the casing 100,
The blocking plate 300 is located on the top surface 220 of the grouting member 200 filled in the well 10,
The area of the blocking plate 300 is larger than the area of the top surface 220 of the grouting member,
The area of the upper surface 220 of the grouting member is larger than the area of the grouting member 100 filled in the well 10 at the location of the hole 110 formed under the casing 100,
The casing through hole 320 is formed in the center of the blocking plate 300,
The center of the upper surface 220 of the grouting member and the center of the blocking plate 300 are located on the same vertical line for the underground pollution purification equipment.
delete delete delete The method of claim 1,
The area of the blocking plate 300 is two or more times wider than the area of the top surface 220 of the grouting member,
The material of the blocking plate 300 is a steel plate,
An anchor bolt 360 is mounted along the periphery of the blocking plate 300, and the welling device for purifying ground pollution is mounted so as to be introduced into the ground G while passing through the blocking plate 300.

Images