KR101271727B1 - Purifying system for contaminated ground comprising horizontal injection pilot and horizontal extraction pilot and purifying method for contaminated ground thereof - Google Patents

Abstract

PURPOSE: A contaminated ground purifying system and a method for the same are provided to easily extract contaminants from a contaminated space under the ground. CONSTITUTION: A contaminated ground purifying system(10) includes an underground manhole, an injection unit(100), an extraction unit(200), an injection line, and an extraction line. The injection unit includes at least one horizontal injection well(110) and injection pump(120). The extraction unit includes at least one horizontal extraction well and vacuum pump(230). The horizontal injection well is arranged in an empty space of the underground manhole, and is horizontally buried under the ground. The horizontal injection well includes a first horizontal injection well with a first perforated case and a first spraying unit. Pores are formed on one outer circumference of the first perforated case. The first spraying unit is installed in the first perforated case and sprays purified air into a contaminated space under the ground. The horizontal extraction well is arranged in the empty space of the underground manhole and horizontally buried under the ground. The horizontal extraction well includes a first extraction well with a first perforated case and a first extraction unit. Both perforated cases are horizontally buried toward the underground while probing underground water. The injection line and the extraction line are arranged in the empty space of the underground manhole.

Description

Purifying system for contaminated ground comprising horizontal injection pilot and horizontal extraction pilot and Purifying method for contaminated ground

The present invention relates to a contaminated soil purification system including a horizontal injection well and a horizontal extraction well, and a method for purifying contaminated soil. More particularly, the present invention relates to a contaminated soil having a relatively small number of wells for collecting contaminants. The present invention relates to a contaminated soil purification system including horizontal injection wells and horizontal extraction wells which can be easily applied to the contaminated spaces of the underground which cannot be excavated, such as the lower part of a building, and a method for purifying contaminated soil.

As industrialization accelerates and oil consumption surges, oil storage facilities and transportation handling volumes also increase proportionately, causing soil pollution by oil to become a serious environmental problem.

Techniques for restoring soil contaminated by oil are classified into physical, chemical and biological techniques according to the restoration method. It is classified into In-situ and Ex-situ technologies according to the location of restoration.

Among the techniques used in underground treatment, the air between the soil is formed with a pressure gradient lower than atmospheric pressure to make the soil in a vacuum state. Soil Vapor Extraction (SVE) using the principle that pollutants are vaporized and discharged together with air, and biological ventilation method that deepens the activity of microorganisms by forcibly injecting air into the soil to increase soil oxygen concentration. BV (Bio Ventiong).

Soil vapor extraction, however, is relatively easy to install, inexpensive, and suitable for the restoration of contaminated soils, but it cannot clean pollutants of saturated ground or groundwater. There was a disadvantage of being required.

On the other hand, the conventional polluted soil purification system is used for petrochemical plants and gas stations where the polluted areas are likely to occur. Is used to extract contaminants.

However, if the contaminants are extracted from the contaminated space using the vertical well as described above, it is difficult to determine the location due to the size of the equipment in order to perform the vertical well in the facility where the area is relatively small. There was a problem affecting the production work performed within.

In addition, by using vertical wells, not only excavation is impossible in a contaminated space such as a lower part of a building, but when there are many underground interference objects such as underground buried materials in the contaminated space of the ground, it is difficult to avoid and apply the interference objects.

In addition, many vertical wells need to be fitted to the contaminated range, which means that the extraction of waste oil through vertical wells is not only very difficult to install, but can also damage the facility, as it can affect the surroundings within the facility. There was a problem.

In addition, when monitoring the groundwater layer using a conventional vertical well, it is difficult to recover the free phase oil (floating oil in the groundwater layer) because it is impossible to cope with the occurrence of the groundwater error due to the capillary phenomenon and the variation of the seasonal groundwater level. There was.

Republic of Korea Patent Publication No. 10-2004-0073788 (published Aug. 21, 2004) Republic of Korea Patent Publication No. 10-2000-0049289 (Published July 25, 2000) Republic of Korea Patent Publication No. 10-2007-0118380 (published Dec. 17, 2007)

One aspect of the present invention is not only applicable to a wider contaminated space in the ground, but also to extract the contaminant from the underground contaminated space, such as the lower part of the building, even with a minimum number of wells for collecting contaminants. The present invention provides a contaminated soil purification system including a horizontal injection well and a horizontal extraction well, and a method for purifying the contaminated soil.

Another aspect of the present invention is not only to reduce maintenance costs by using a minimum well, but also when there are a lot of underground interference objects such as underground burial, can be applied to avoid the interference objects, horizontal injection that can safely clean contaminated soil The present invention provides a contaminated soil purification system including a fixed and horizontal extraction well and a method for purifying the contaminated soil.

Another aspect of the present invention is a contamination including a horizontal injection well and a horizontal extraction well to enable the recovery of free phase oil by using a vertically excavated manhole and a horizontal injection well and a horizontal extraction well to improve the error related to groundwater monitoring. The present invention provides a soil purification system and a method for cleaning the contaminated soil.

Another aspect of the present invention is to excavate a plurality of underground manholes by connecting a first casing of a small diameter and a second casing of a large diameter to excavate a contaminant extraction capability by injecting a horizontal injection well or a horizontal extraction well into the second casing of a large diameter. The present invention provides a method of purifying contaminated soil including a horizontal injection well and a horizontal extraction well to increase the amount of oil.

The contaminated soil purification system according to an embodiment of the present invention comprises an injection unit which is installed in the ground horizontally at the first depth of the underground manhole and having at least one horizontal injection well for injecting purge air into the contaminated space; And an extraction unit installed in the ground horizontally at a second depth of the underground manhole different from one depth and having at least one horizontal extraction well for extracting contaminants from the contaminated space.

The injection unit may include at least one horizontal injection well installed in the ground horizontally at a first depth of the underground manhole to inject purified air into a contaminated space; and connected to the horizontal injection well as a horizontal injection well. And an infusion pump for supplying purge air to induce the flow of contaminants.

The extraction unit may further include at least one horizontal extraction well installed in the ground horizontally at a second depth of the underground manhole to extract contaminants from the contaminated space; and the horizontal extraction well connected to the horizontal extraction well. Characterized in that having a; vacuum pump for extracting the contaminants in the ground through the outside.

In addition, the horizontal injection well is a first injection well hole case which is introduced at the depth of the first manhole of the underground manhole and is installed horizontally buried in the ground, and is installed inside the first injection well hole case, purifying air into the contaminated space of the underground And a first horizontal injection well having a first injection nozzle for jetting the injection nozzle, wherein the first injection injection device is connected to the injection pump to supply purified air, and a first injection injection supply pipe distal end portion; A pair of first tack packers installed spaced apart from each other, and an opening is formed to be joined to the first pit feed pipe, and when the pair of first tack packers are inflated, an inner circumferential surface of the first pit hole case And a first nozzle installed to be in close contact with the first nozzle, and a first nozzle installed inside the first protrusion to inject high pressure to purge air supplied from the first injection hole supply pipe to the outside. .

In addition, the horizontal extraction well, the first extraction well hole case which is introduced at the depth of the second manhole of the underground manhole and installed in the ground horizontally, and the first extraction well installed in the interior of the first extraction well hole case to extract contaminants And a first horizontal extraction well having an extraction device, wherein the first extraction device comprises: a pair of first extraction well packers and a first extraction well for supplying inflation pressure to the pair of first extraction well packers; A first connecting pipe connecting the supply pipe, the pair of first extraction well packers, and a first guiding contaminant present in the extraction space between the pair of first extraction well packers to the outside through an extraction line. Characterized in that it comprises a guide tube.

In addition, the horizontal extraction well, the second extraction well perforated case which is inserted into the underground deep in the second manhole of the underground manhole deeper than the second A depth of the underground manhole and installed in the ground horizontally, and the second extraction well hole case It is characterized in that it further comprises a second horizontal extraction well having a second extraction device installed to extract the pollutants.

The horizontal injection well may include a second injection well hole case which is inserted at a depth of the first B of the underground manhole that is deeper than the second depth of the underground manhole and is buried horizontally in the ground, and the second injection well hole case. And a second horizontal injecting well installed to have a second jetting device for injecting purge air into the contaminated space in the ground.

The injection unit may further include a steam generator connected to the infusion pump and an auxiliary reservoir connected to the steam generator and storing microorganisms or surfactants.

In addition, the contaminated soil purification system further includes a processing unit for processing the contaminant extracted through the horizontal extraction well, wherein the processing unit, the contaminant recovered through the horizontal extraction well and the contaminated gas and contaminated groundwater And a gas-liquid separation tank for separating oil, a oil-water separator for separating oil from the contaminated groundwater, and an adsorption tank for absorbing residual contaminants from the polluting gas.

When the contaminated soil purification system according to the embodiment of the present invention is viewed from another side, the first horizontal injection well is installed in the ground horizontally at the depth of the first manhole of the underground manhole, and the first horizontal injection well for injecting the purified air into the contaminated space, An injection unit buried in the ground horizontally from a depth of first B and having a second horizontal injection well for injecting purge air into the contaminated space; and located between the first A depth and the first B depth, the second A of the underground manholes. It is installed in the ground horizontally from the depth to the first horizontal extraction well for extracting contaminants from the contaminated space, and located between the depth of the first A and the depth of the first B, the depth of the second man deeper than the second A depth of the underground manhole An extraction unit installed horizontally in the ground and having a second horizontal extraction well for extracting contaminants from the contamination space; and the first and second horizontal extraction wells A processing unit for processing a contaminated material by extraction; by including the features.

In accordance with an embodiment of the present invention, there is provided a method for purifying contaminated soil, the method comprising: forming an underground manhole through vertical excavation, injecting a casing at the same time as the horizontal excavation from the inside of the underground manhole into the ground, and the inside of the casing; Inserting a horizontal injection well or a horizontal extraction well into the casing and drawing the casing; injecting purge air into the contamination space using the horizontal injection well; and removing contaminants from the contamination space using the horizontal extraction well. And extracting the groundwater from the extracted contaminants.

In addition, the step of injecting the casing at the same time as the horizontal excavation to the ground inside the underground manhole, the step of injecting the first A casing at the same time as the horizontal excavation to the ground at the first depth of the underground manhole, and the first of the underground manhole The first depth is characterized by including the step of injecting the first casing at the same time as the horizontal excavation from the deep second depth to the ground.

Also, inserting a horizontal injection well or a horizontal extraction well into the casing and drawing the casing may include inserting a horizontal injection well into the first A casing and drawing out the first A casing; And inserting a horizontal extraction well into the casing and drawing out the first B casing.

In accordance with another aspect of the present invention, there is provided a method for purifying contaminated soil, comprising: forming at least two underground manholes through vertical excavation, and simultaneously drilling horizontally into the ground in another underground manhole adjacent to one underground manhole. Injecting a first casing, connecting a second casing to one end of the first casing, simultaneously drilling the second casing and pulling through the first casing; Inserting a horizontal injection well or a horizontal extraction well into the inside and drawing the second casing; injecting purge air into the contamination space by using the horizontal injection well; and in the contamination space by using the horizontal extraction well. Extracting contaminants.

In addition, the step of injecting the first casing at the same time as the ground in the other underground manhole adjacent to the underground manhole at the same time, the step of horizontal drilling into the ground at the first depth inside the other underground manhole in the underground manhole And simultaneously injecting a first A casing, horizontally digging into a ground at a second depth deeper than a first depth in another underground manhole adjacent to one of the underground manholes, and simultaneously injecting a first B casing; The inserting of the horizontal injection well or the horizontal extraction well into the second casing and drawing the second casing may include inserting a horizontal injection well into the second A casing connected to the first A casing and the second A casing. And drawing a horizontal extraction well into the inside of the second B casing connected to the first B casing and drawing the second B casing. In that it comprises the features.

Therefore, the contaminated soil purification system and the contaminated soil purification method including a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention, even with a minimum number of wells for recovering contaminants, Not only can it be applied, there is an effect that can easily extract pollutants from the underground contaminated space that can not be excavated, such as the bottom of the building.

In addition, the contaminated soil purification system and the contaminated soil purification system comprising a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention can reduce the maintenance cost by using a minimum well, as well as underground interference targets In many cases, the interference object can be avoided and applied, so that the polluted soil can be safely cleaned.

In addition, the contaminated soil purification system and the contaminated soil purification method comprising a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention using the vertically excavated manholes and horizontal injection wells and horizontal extraction wells for errors in groundwater layer monitoring The improvement has an effect of enabling the recovery of free phase oil.

In addition, a contaminated soil purification system and a contaminated soil purification method comprising a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention, a plurality of underground manholes are excavated by connecting the first casing of a small diameter and the second casing of a large diameter As a result, by injecting a horizontal injection well or a horizontal extraction well into the large-diameter second casing, the contaminant extraction ability is increased.

1 is a view showing a contaminated soil purification system according to an embodiment of the present invention.
2 is a cross-sectional view showing a horizontal injection well of the contaminated soil purification system according to an embodiment of the present invention.
Figure 3 is a perspective view showing a horizontal injection well of the contaminated soil purification system according to an embodiment of the present invention.
4 is a view showing a modification of the hole case of the horizontal injection well shown in FIGS.
5 is a cross-sectional view showing a horizontal extraction well of the contaminated soil purification system according to an embodiment of the present invention.
Figure 6 is a perspective view showing a horizontal extraction well of the contaminated soil purification system according to an embodiment of the present invention.
7 is a view showing a contaminated soil purification system according to another embodiment of the present invention.
8 and 9 are views for explaining a method for installing a horizontal injection well and a horizontal extraction well in a contaminated soil according to an embodiment of the present invention.
10 and 11 are views for explaining a method for installing a horizontal injection well and a horizontal extraction well in a contaminated soil according to another embodiment of the present invention.

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

1 is a view showing a contaminated soil purification system according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a horizontal injection well of the contaminated soil purification system according to an embodiment of the present invention, Figure 3 is a view of the present invention 4 is a perspective view illustrating a horizontal injection well of a contaminated soil purification system according to an embodiment, and FIG. 4 is a view showing a modification of the hole case of the horizontal injection well shown in FIGS. 2 and 3, and FIG. 5 is an embodiment of the present invention. 6 is a cross-sectional view illustrating a horizontal extraction well of the contaminated soil purification system according to the present invention, and FIG. 6 is a perspective view illustrating a horizontal extraction well of the contaminated soil purification system according to an embodiment of the present invention.

1 to 6, the contaminated soil purification system 10 according to the embodiment of the present invention is installed in the ground 12 horizontally at the first depth D ₁ of the underground manhole 11 to be contaminated. The injection unit 100 having a horizontal injection well 110 for injecting purge air into the space 13 and installed in the ground 12 horizontally at a second depth D ₂ of the underground manhole 11 to be contaminated. An extraction unit 200 having horizontal extraction wells 210 and 220 for extracting contaminants in the space 13, and a processing unit 300 for processing contaminants extracted through the horizontal extraction wells 210 and 220. It is composed.

The injection unit 100 is horizontally embedded in the ground 12 horizontally at the first depth D ₁ of the underground manhole 11 to inject a purge air into the contaminated space 13, and It is connected to the horizontal injection well 110 is provided with an injection pump 120 for supplying the purified air to the horizontal injection well 110 to induce the flow of contaminants.

Horizontal injection well 110 is buried horizontally in the underground manhole 11, this horizontal injection well 110 is inserted into the first depth (D ₁ ) in the underground manhole 11 to the ground 12 horizontally Can be installed landfill.

The horizontal injection well 110 is introduced into the underground manhole 11 and installed inside the first pouring well hole 111 and installed horizontally in the ground 12, and installed inside the first pouring well hole 111. And a first injection device 112 for injecting purge air into the contaminated space 13 in the ground 12.

The first injection well hole case 111 is drawn from the underground manhole 11 and installed in the ground 12 horizontally, the first injection well hole case 111 has a plurality of through holes (111A) is injected first It is formed to communicate the inside and the outside of the positive hole case 111. Here, the through hole 111A formed in the first injection hole hole case 111 may be applied in various manners such as a slit shape or a circular perforation cut in equal intervals.

On the other hand, when the through-hole 111A is formed in the entire outer circumferential surface of the first pouring hole hole case 111 according to an embodiment of the present invention, when the purification air is injected, the opposite of the contamination space 13 as well as the pollution space 13 side Purified air is also injected to the side, and the pressure may be unnecessarily dispersed.

Therefore, the through hole 111A formed in the first pouring hole hole case 111 according to the embodiment of the present invention has a hole 111A throughout the entire outer circumferential surface of the first pouring hole hole case 111. It is formed so as to be deflected to a specific site without forming a), and the purified air is concentrated by injecting the first pouring well hole case 111 into the ground 12 such that the deflected through hole 111A faces the contaminated space 13 side. To be supplied to the contaminated space 13 side.

The first injection device 112 is inserted into the first injection hole hole case 111.

The first injection device 112 is connected to the infusion pump 120, as long as the first injection well supply pipe (112A) for supplying the purge air and the first injection well supply pipe (112A) is spaced apart from each other at the distal end state An opening is formed to be joined to the pair of first tack packer 112B and the first pit feed pipe 112A, and when the pair of first tack packer 112B is expanded, the first pit hole case 111 is expanded. The first nozzle (112C) protruding in close contact with the inner circumferential surface of the first nozzle and the first nozzle (112C) installed inside the first projection (112C) for high-pressure injection of the purified air supplied from the first injection hole supply pipe (112A) to the outside ( 112D).

A pair of first injection well packers 112B are spaced apart from the tip of the first injection well supply pipe 112A of the first injection device 112.

The first injection well supply pipe 112A between the pair of first injection well packers 112B has a rectangular shape in which one surface thereof is joined to the first injection well supply pipe 112A and the other surface protrudes to have an opening. One protrusion 112C is provided.

The first nozzle 112D is formed inside the first protrusion 112C to inject the purge air toward the open side of the first protrusion 112C, so that the injection direction of the purge air can be adjusted.

That is, the rectangular first protrusion 112C according to the embodiment of the present invention is formed in a shape coinciding with the inner circumferential surface of the first pouring hole hole 111, and the first packing is formed outside the opening of the first protrusion 112C. When 112E is installed to expand the first pouring packer 112B, the opening of the front surface of the first protrusion 112C on which the first packing 112E is installed is in close contact with the inner circumferential surface of the first pouring hole hole 111. When the first injection well packer 112B contracts, the first protrusion 112C can be freely separated from the inner circumferential surface of the first injection hole hole 111, so that the airtightness of the first protrusion 112C when the purge air is injected. It allows you to maintain state.

An injection pump 120 for supplying purified air to the first injection well supply pipe 112A is connected to the first injection well supply pipe 112A of the first injection device 112.

The infusion pump 120 is configured to inject purge air into the first injection well supply pipe 112A, and the infusion pump 120 may use a well-known infusion pump 120 for injecting purge air.

Therefore, when purifying air is injected into the first injection well supply pipe 112A connected to the injection pump 120 based on the operation of the injection pump 120, the purification air passes through the first injection well packer 112B and the first nozzle 112D. It is injected into the contaminated space 13 of the underground (12) through.

When the purified air is injected into the contaminated space 13 of the ground 12, the flow of contaminants in the contaminated space 13 is induced, and the horizontal extraction well (described later) through the flow of the contaminants in the ground 12 ( By the action of 210,220 to be extracted and processed to the outside.

In particular, this horizontal injection well 110 is to supply the purified air to the contaminated soil so that the permeability can be increased over a large area of the contaminated soil. When the permeability of the contaminated soil is increased, the contaminants may be moved beyond a considerable distance, thereby reducing the number of horizontal injection wells 110.

On the other hand, the purified air injected from the horizontal injection well 110 according to an embodiment of the present invention may be defined as containing a high temperature air or steam, and microorganisms or surfactant as described below.

In addition, the injection unit 100 according to the embodiment of the present invention may further include a steam generator 130 connected to the injection pump 120.

The steam generator 130 may be connected to the infusion pump 120 to generate hot air for treating low-concentration quasi-volatile contaminants and hot steam for treating high-concentration quasi-volatile contaminants.

In addition, the injection unit 100 according to an embodiment of the present invention may further include an auxiliary reservoir 140 in which microorganisms or surfactants are stored to be connected to the steam generator 130.

The auxiliary reservoir 140 may be stored separately from the microorganism and the surfactant, the auxiliary reservoir 140 may be stored separately from the microorganism and the surfactant, the auxiliary reservoir 140 is in the horizontal injection well 110 The selectively connectable structure allows the stored microorganism or surfactant to be introduced into the contaminated space 13 through the horizontal injection well 110, if necessary.

In particular, when the surfactant of the auxiliary storage tank 140 is pre-injected into the contaminated space, the purified air is injected under the condition that the surface tension is lowered, so that the saturation rate and the penetration region of the purified air are expanded to remove contaminants in the groundwater layer and the saturated soil layer. Volatilization efficiency can be improved. At this time, when the hot steam generated by the steam generator 130 is injected into the contaminated space, the quasi-volatile material having low vapor pressure may be effectively volatilized and removed.

When the microorganism of the auxiliary storage tank 140 is injected into the contaminated space 13, the activity of the microorganism is more than doubled, so that the outside air and high temperature steam is injected into the soil to deepen the activity of the microorganisms, Increasing vapor pressure can also volatilize high concentrations of semi-volatile contaminants.

When the flow of contaminants in the contaminant space 13 is induced through the purge air of the horizontal injection well 110, the contaminants are extracted and processed by the extraction unit 200.

The extraction unit 200 is installed horizontally in the underground 12 horizontally at the second depth (D ₂ ) of the underground manhole 11 to extract the contaminants in the contaminated space (13, 220), It is connected to the horizontal extraction well (210,220) is provided with a vacuum pump 230 for extracting the contaminants in the contaminated space 13 through the horizontal extraction well (210,220).

The horizontal extraction wells 210 and 220 are arranged horizontally at the lower portion of the horizontal injection well 110 to correspond to the horizontal injection well 110 to extract contaminants from the first horizontal extraction well 210 and the first horizontal extraction well ( A lower horizontal extraction well 220 may be disposed horizontally to correspond to the horizontal injection well 110 to extract contaminants.

The first horizontal extraction well 210 has a first extraction well hole case 211 and a first extraction well hole case 211 which is installed in the ground horizontally at a second depth (D _2A ) of the underground manhole 11 It is installed in the interior is configured to include a first extraction device 212 for extracting contaminants.

The first extraction well hole case 211 is buried in the horizontal direction in the ground 12 at the depth 2A depth (D _2A ) of the ground deeper than the first depth (D ₁ ) in which the horizontal injection well 110 is buried, In the first extraction well hole case 211, a plurality of through holes 211A are formed to communicate with the inside and the outside of the first extraction well hole case 211. The through hole 111A formed in the first extraction well hole case 211 may be applied in various ways such as a slit shape or a circular perforation cut in equal intervals.

The first extraction device 212 includes a pair of first extraction well packers 212A, a first extraction well supply pipe 212B for supplying inflation pressure to a pair of first extraction well packers 212A, The first connection pipe 212C connecting the pair of first extraction well packers 212A and the contaminants present in the extraction space between the pair of first extraction well packers 212A through the extraction line 240. It is configured to include a first guide tube (212D) for guiding to the outside.

Here, the pair of first extraction well packer (212A) is in contact with the inner surface of the first extraction well hole case 211 while expanding outward receiving fluid through the first extraction well supply pipe (212B), the first extraction The space between the first extraction well packer 212A is isolated in the hole case 211 to form an extraction space.

The first extraction well supply pipe 212B communicates with the upper first extraction well supply pipe 212B and the upper first extraction well supply pipe 212B for supplying the expansion fluid to the upper first extraction well packer 212A, and the lower first extraction well supply pipe 212B communicates with the upper first extraction well supply pipe 212B. A first extraction well supply pipe 212B for supplying the expansion fluid to the first extraction well packer 212A.

Therefore, when the expansion fluid is supplied to the upper first extraction well packer 212A through the upper first extraction well supply pipe 212B, the expansion fluid also flows in the lower first extraction well supply pipe 212B in communication therewith. The expansion fluid is supplied to the first extraction well packer 212A. That is, by supplying the expansion fluid to the upper first extraction well supply pipe 212B to expand the upper and lower first extraction well packer 212A at the same time to be in close contact with the inner surface of the first extraction well hole case 211.

Meanwhile, a first inflow hole 212E is formed in the first connection pipe 212C for introducing contaminants present in the extraction space isolated by the first extraction well packer 212A.

In addition, the first connection pipe 212C connecting between the first extraction well packer 212A may have a plurality of segments assembled to each other to maintain a gap between the first extraction well packer 212A.

Therefore, by adjusting the number of segments of the first connection pipe 212C connecting between the first extraction well packer 212A, contaminants within a desired section in the first extraction well hole case 211 can be extracted.

A second horizontal extraction well 220 may be buried in the lower portion of the first horizontal extraction well 210 to extract contaminants from the contamination space 13.

The second horizontal extraction well 220 has a second extraction well hole case 221 and a second extraction well hole case 221 which is installed in the ground horizontally at the second B depth (D _2B ) of the underground manhole 11 It is configured to include a second extraction device 222 is installed inside the) to extract the contaminants.

The second extraction well hole case 221 is horizontal to the ground 12 at the second B depth D _2B of the ground 12 deeper than the second A depth D _2A in which the first extraction well hole case 211 is buried. In this second extraction well hole case 221, a plurality of through holes 221A are formed to communicate with the inside and outside of the second extraction well hole case 221.

The second extraction device 222 includes a pair of second extraction well packers 222A, a second extraction well supply pipe 222B for supplying inflation pressure to the pair of second extraction well packers 222A, The second connection pipe 222C connecting the pair of second extraction well packers 222A and the contaminants present in the extraction space between the pair of second extraction well packers 222A through the extraction line 240. It is configured to include a second guide tube 222D to guide to the outside.

Here, the pair of second extraction well packer (222A) is in close contact with the inner surface of the second extraction well hole case 221 while receiving the fluid through the second extraction well supply pipe (222B) and expands to the outside, the second extraction The space between the second extraction well packer 222A is isolated in the hole case 221 to form an extraction space.

The second extraction well supply pipe 222B communicates with the upper second extraction well supply pipe 222B and the upper second extraction well supply pipe 222B for supplying the expansion fluid to the upper second extraction well packer 222A. It consists of a lower 2nd extraction well supply pipe 222B which supplies an expansion fluid to a 2 extraction well packer 222A.

Therefore, when the expansion fluid is supplied to the upper second extraction well packer 222A through the upper second extraction well supply pipe 222B, the expansion fluid also flows in the lower second extraction well supply pipe 222B in communication therewith. The expansion fluid is supplied to the second extraction well packer 222A. That is, by supplying the expansion fluid to the upper second extraction well supply pipe 222B to expand the upper and lower second extraction well packer 222A at the same time to be in close contact with the inner surface of the second extraction well hole case.

Meanwhile, a second inflow hole 222E is formed in the second connection pipe 222C for introducing contaminants existing in the extraction space isolated by the second extraction well packer 222A.

And, the second connecting pipe 222C connecting between the second extraction well packer 222A is a plurality of segments are mutually coupled to each other, to maintain the interval between the second extraction well packer (222A).

Therefore, by adjusting the number of segments of the first connection pipe (212C) connecting between the second extraction well packer (222A), it is possible to extract the contaminants in the desired section in the second extraction well hole case.

The vacuum pump 230 is connected to the first and second horizontal extraction wells 210 and 220 to correspond to a configuration for extracting contaminants in the ground 12 through the first and second horizontal extraction wells 210 and 220 to the outside. The vacuum pump 230 may use a known configuration.

The vacuum pump 230 is connected to the first guide pipe 212D of the first horizontal extraction well 210 and the second guide pipe 222D of the second horizontal extraction well 220 to extract contaminants to the outside. To help.

Based on the operation of the vacuum pump 230, the interior of the first and second horizontal extraction wells 210 and 220 connected to the vacuum pump 230 is in a vacuum state, and contaminants from the ground 12 are discharged from the first and second horizontal extraction wells ( 210, 220 are introduced into the inside, and the introduced pollutants are extracted to the outside while moving along the extraction line 240.

On the other hand, the contaminated soil purification system 10 according to the embodiment of the present invention is configured such that the locking valves 160 and 250 are further configured on the injection line 150 and the extraction line 240, so that the selected injection line 150 and the extraction line 240 are selected. ) So that the horizontal injection well 110 and the horizontal extraction well 210 and 220 can be selectively connected to the injection pump 120 and the vacuum pump 230, respectively.

The lock valves 160 and 250 may be manually operated to be opened and closed to the selected injection line 150 and the extraction line 240, or may be electrically connected to a control valve (not shown) to each of the lock valves 160 and 250. Of course, the injection line 150 and the extraction line 240 can be automatically opened and closed through the).

The contaminants recovered through the first and second horizontal extraction wells 210 and 220 may be processed through the processing unit 300.

The processing unit 300 includes a gas-liquid separation tank 310 for separating contaminants recovered through the first and second horizontal extraction wells 210 and 220 into contaminated gas and contaminated groundwater, and an oil / water separator for separating oil from contaminated groundwater. 320, and an adsorption tank 330 to adsorb residual contaminants in the contaminated gas.

Gas-liquid separation tank 310 may be configured in the form of a water tank installed in communication with the connection pipe of the horizontal extraction well (210,220). A contaminant gas having a small specific gravity among contaminants is collected at the upper side of the gas-liquid separation tank 310, and contaminated groundwater having a large specific gravity among contaminants is collected at the lower side of the gas-liquid separation tank 310.

The oil-water separator 320 and the adsorption tank 330 are respectively connected to the gas-liquid separation tank 310. In particular, the upper side of the gas-liquid separation tank 310 communicates with the adsorption tank 330 so that the contaminated gas collected on the upper portion of the water tank is moved. Is connected to, the lower side of the gas-liquid separation tank 310, the oil and water separator 320 is connected in communication so that the contaminated ground water collected in the lower tank.

The adsorption tank 330 connected to the upper side of the gas-liquid separation tank 310 adsorbs and purifies residual contaminants from the contaminated gas separated in the gas-liquid separation tank 310, and discharges the purified gas to the outside.

The oil-water separator 320 connected to the lower side of the gas-liquid separation tank 310 separates the oil from the contaminated groundwater separated from the gas-liquid separation tank 310, in particular, the oil suspended on the upper surface of the contaminated groundwater using a specific gravity difference. It is a structure that separates.

Oil-water separator 320 may be connected to the reservoir 340 for storing the discharge water. The reservoir 340 is a tank for storing groundwater, and the groundwater from which oil is removed through the oil / water separator 320 may be moved and stored.

The contaminated soil purification system 10 including the horizontal injection well 110 and the horizontal extraction wells 210 and 220 according to an embodiment of the present invention may have a minimum number of wells for recovering contaminants in the contaminated space 13. The horizontal injection well 110 and the horizontal extraction wells 210 and 220 can be applied to the large contaminated space 13 of the ground 12 relatively, as well as to the contaminated space 13 of the underground 12 which cannot be excavated, such as the lower part of the building. ) To make it easier to extract contaminants.

In addition, contaminated soil purification system 10 including a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention by using a minimum horizontal injection well 110 and horizontal extraction well (210,220) for maintenance of the well In addition to reducing costs, if there are a lot of underground (12) interfering objects such as underground burial, the interference objects can be avoided and applied so that the polluted soil can be safely cleaned.

In addition, in the contaminated soil purification system 10 including a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention, the groundwater level error due to a capillary phenomenon using a vertically excavated manhole, a horizontal injection well and a horizontal extraction well is used. Improve occurrences and cope with seasonal groundwater levels. Therefore, the recovery of free phase oil is easily achieved through real-time monitoring of the groundwater layer. At this time, the groundwater layer can be measured in real time by measuring the amount of purified air injected through the horizontal injection well.

Another embodiment of the present invention will be described with reference to Fig. The same reference numerals are assigned to the same components as those of the above-described embodiment, and a description thereof will be omitted. 7 is a view showing a contaminated soil purification system according to another embodiment of the present invention.

As shown in FIG. 7, the contaminated soil purification system 10 ′ according to another embodiment of the present invention is horizontally installed in the underground manhole 11 to horizontally inject clean air into the contaminated space 13. An extraction unit 200 having a well 110 and 170, a horizontal extraction well 200 installed in the underground manhole 11 and having horizontal extraction wells 210 and 220 for extracting contaminants from the contaminated space 13; It is configured to include a processing unit 300 for processing the contaminants extracted through the horizontal extraction well (210, 220).

The injection unit 100 is installed in the ground horizontally in the ground at the first depth (D _1A ) of the underground manhole 11, the first horizontal injection well 110 and the underground manhole 11 for injecting purge air into the contaminated space A second horizontal injection well 170 and a first and second horizontal injection wells, which are installed in the ground 12 horizontally at the first B depth D _1B ) It is connected to (110, 170) is provided with an injection pump 120 for injecting the purification air into the contaminated space 13 to induce the flow of contaminants.

The extraction unit 200 is embedded in the ground 12 horizontally at the second A depth D _2A of the underground manhole 11 located between the first A depth D _1A and the first B depth D _1B . The second horizontal depth of the underground manhole 11 located between the first horizontal extraction well 210 and the second A depth D _2A and the first B depth D _1B to extract the contaminants from the contaminated space 13. It is installed in the ground (12) horizontally in the (D _2B ) is connected to the second horizontal extraction well 220 for extracting contaminants from the contaminated space 13, and the first and second horizontal extraction well (210,220) A vacuum pump 230 is provided for extracting contaminants in the ground 12 to the outside through the first and second horizontal extraction wells 210 and 220.

The processing unit 300 includes a gas-liquid separation tank 310 for separating contaminants recovered through the first and second horizontal extraction wells 210 and 220 into contaminated gas and contaminated groundwater, and an oil / water separator for separating oil from contaminated groundwater. 320, and an adsorption tank 330 that adsorbs residual contaminants in the contaminated gas.

Accordingly, in the contaminated soil purification system 10 including the horizontal injection wells 110 and 170 and the horizontal extraction wells 210 and 220 according to another embodiment of the present invention, horizontal injection wells 110 and 170 are disposed on the top and bottom layers, respectively, Horizontal extraction wells 210 and 220 are disposed between injection wells 110 and 170 to efficiently extract contaminants in a relatively large contaminated space 13 in the ground 12.

Next, a method of purifying contaminated soil including a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention will be described with reference to FIGS. 8 and 9. 8 and 9 are views for explaining a contaminated soil purification method comprising a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention.

As shown in Fig. 8 and 9, the method for purifying contaminated soil including a horizontal injection well and a horizontal extraction well according to an embodiment of the present invention, first, a single underground manhole ( In order to form 11), the target ground is excavated vertically and excavated to the target depth. (S100)

When the single underground manhole 11 is completed, the excavation is carried out horizontally at the first internal depth D ₁ of the single underground manhole 11, at which time the first A casing 400A simultaneously with the horizontal excavation to maintain the empty wall. Intruding) Then, the first B casing 400B is introduced at the same time as the horizontal excavation at the inner 2A depth D _2A of the single underground manhole 11. Further, the first C casing 400C is introduced at the same time as the horizontal excavation at the inner second B depth D2 _B of the single underground manhole 11. (S200)

Single underground manhole (11) Casing (400A ~ 400C) when the horizontal excavation and casing (400A ~ 400C) penetration of the first depth (D ₁ ), 2A depth (D _2A ), 2B depth (D _2B ) is completed ) Insert the horizontal injection well 110 or horizontal extraction well (210,220) into the interior.

Specifically, the horizontal injection well 110 is inserted into the first A casing 400A penetrated at the first underground manhole 11 first depth D ₁ , and the first A casing 400A is drawn out. Then, the first horizontal extraction well 210 is inserted into the first B casing 400B penetrated at the second underground manhole 11, the second A depth D _2A , and the first B casing 400B is drawn out. In addition, a second horizontal extraction well 220 is inserted into the first C casing 400C penetrated at the second underground manhole 11, the second B depth D _2B , and the first C casing 400C is drawn out. (S300)

Therefore, in the method for installing the horizontal injection well 110 and the horizontal extraction well (210, 220) in the contaminated soil according to an embodiment of the present invention, the horizontal injection well 110 sequentially from the top of a single underground manhole (11) The first horizontal extraction well 210 and the second horizontal extraction well 220 are buried and installed.

Then, the purified air is injected into the contaminated space 13 using the horizontal injection well 110 to induce the flow of contaminants in the contaminated space 13. (S400)

After a predetermined time, the pollutant is extracted from the contaminated space 13 using the first and second horizontal extraction wells 210 and 220. At this time, by selectively injecting hot steam and hot air from the steam generator 130, it is possible to efficiently purify the low and high concentration of semi-volatile oil pollution soil of the unsaturated soil layer. (S500)

Then, the groundwater is separated from the extracted contaminants using the processing unit 300. (S600)

Therefore, the contaminated soil purification method including the horizontal injection well 110 and the horizontal extraction wells 210 and 220 according to an embodiment of the present invention includes the horizontal injection well 110 and the horizontal extraction wells 210 and 220 to recover contaminants. In addition to the minimum number of wells 110, 210, and 220, such as not only can be applied to a relatively large contaminated space 13 in the ground, but also to extract contaminants from the underground contaminated space 13, such as the bottom of the building is not excavable easily It can be effective.

Next, a method for installing horizontal injection wells and horizontal extraction wells in a contaminated soil according to another embodiment of the present invention will be described with reference to FIGS. 10 and 11. 9 is a view for explaining a method for installing a horizontal injection well and a horizontal extraction well in a contaminated soil according to another embodiment of the present invention.

10 and 11, a method for installing horizontal injection wells and horizontal extraction wells in contaminated soil according to another embodiment of the present invention includes forming at least two underground manholes through vertical excavation (S100). ') And the step of injecting the first casing at the same time as the underground excavation in the other underground manholes adjacent to one underground manhole (S200') and connecting the second casing to one end of the first casing ( S300 '), simultaneously carrying out the excavation of the second casing and the towing through the first casing (S400'), inserting a horizontal injection well or a horizontal extraction well into the second casing, and drawing the second casing. In step S500 ', injecting purified air into the contaminated space using a horizontal injection well (S600'), and extracting contaminants from the contaminated space using a horizontal extraction well (S700 '). It is composed.

Specifically, a method for installing horizontal injection wells and horizontal extraction wells in contaminated soil according to another embodiment of the present invention is not a single underground manhole 11 but a plurality of underground manholes 11, that is, at least two underground manholes ( 11).

Therefore, the method for installing the horizontal injection well 110 and the horizontal extraction well (210, 220) in the contaminated soil according to another embodiment of the present invention to the two underground manhole (11) small diameter first casing (500) Connecting through excavation, and when the connection is completed, the second casing 600 of the large diameter is connected to one end of the first casing 500 of the small diameter.

At this time, in connecting the second casing 600 to the first casing 500, the penetration is completed, of course, it can be connected to either of both ends of the first casing (500). Here, the connection of the first casing 500 and the second casing 600 may be made in various ways, such as connection through a wire or a coupler freely rotatable at both ends.

When the connection between the first casing 500 and the second casing 600 is completed, the underground manhole 11 on the side of the second casing 600 performs excavation and excavation of the second casing 600, and at the same time, the first casing 600. In the (500) side ground manhole 11, the second casing 600 is towed through the drawing of the first casing 500.

Therefore, the first casing 500 is made by the first casing 500 in the state in which the excavation hole is primarily formed, so that the penetration of the second casing 600 is possible because of the low-power drilling equipment underground Penetration of the second casing 600 is easily made even in the limited space in the manhole 11.

When the penetration of the second casing 600 is completed and both underground manholes 11 are connected to the second casing 600, the horizontal injection well 110 or the horizontal extraction well 210, 220 is inserted into the second casing 600. After insertion, the second casing 600 may be drawn and removed to complete the installation of the horizontal injection well 110 or the horizontal extraction wells 210 and 220.

Therefore, it is possible to install a large diameter horizontal injection well 110 or horizontal extraction wells 210 and 220 through the above-described process, and a plurality of underground manholes 11 have horizontal injection wells 110 or horizontal extraction wells 210 and 220. This can increase the ability to extract contaminants.

Therefore, in the contaminated soil purification method including the horizontal injection well 110 and the horizontal extraction well 210 and 220 according to another embodiment of the present invention, a plurality of underground manholes 11 may have a small diameter of the first casing 500 and a large diameter. By connecting and excavating the second casing 600, the horizontal injection well 110 or the horizontal extraction well 210 and 220 may be introduced into the large diameter second casing 600 to increase the pollutant extraction capability.

As described above, the contaminated soil purification system and the contaminated soil purification method according to the embodiment of the present invention can be applied to a relatively large contaminated space in the ground even with a minimum number of wells for recovering contaminants. It can be seen that the basic technical idea is to easily extract contaminants from the underground contaminated space where excavation is impossible such as the lower part of the building. Therefore, many modifications may be made by those skilled in the art without departing from the scope and spirit of the present invention.

10 ... pollution soil purification system 11 ... underground manhole
12 ... 13 underground ... pollution space
100 ... injection unit 110 ... horizontal injection well
111 1st injection hole hole 112 1st injection device
120 ... Injection pump 130 ... Steam generator
140 ... Supplement storage tank 200 ... Extraction unit
210 1st Horizontal Extraction Well 211 1st Extraction Well Perforated Case
212 First Extractor 220 Second Horizontal Extraction Well
221 ... 2nd extraction well hole case 222 ... 2nd extraction device
230 ... vacuum pump 300 ... processing unit
310 ... Gas Separator 320 ... Oil Water Separator
330 ... adsorption tank

Claims (15)

Underground manholes defined as spaces that are vertically excavated and empty;
At least one horizontal injection well installed in the ground horizontally at a first depth of the empty space of the underground manhole to inject hot air or steam into the contaminated space and purge air containing microorganisms or surfactants; An injection unit connected to a horizontal injection well and having an injection pump for supplying the purge air to the horizontal injection well to induce the flow of contaminants;
At least one horizontal extraction well installed in the ground horizontally at a second depth of the empty space of the underground manhole to extract contaminants from the contaminated space, and connected to the horizontal extraction well to contaminate the ground through the horizontal extraction well An extraction unit having a vacuum pump for extracting material to the outside; and
An infusion line for selectively connecting the horizontal infusion well with the infusion pump;
An extraction line for selectively connecting the horizontal extraction well with the vacuum pump;
The horizontal injection tablet,
It is inserted in the first A depth of the empty space of the underground manhole is installed in the ground horizontally, but the first injection hole hole case having a through hole formed in only one outer peripheral surface and is installed inside the first injection hole hole case A first horizontal injection well having a first injection value for injecting the purge air into an underground contaminated space,
The horizontal extraction well,
A first extraction well hole case installed at a depth of 2A of the empty space of the underground manhole and installed in the ground horizontally, and having a through hole formed over an entire outer circumferential surface thereof, and installed inside the first extraction well hole case And a first horizontal extraction well having a first extraction device for extracting contaminants,
The first injection well hole case and the first extraction well hole case is installed in the horizontal direction toward the ground while probing the ground water in the empty space of the manhole underground,
And the injection line and extraction line are disposed in an empty space of the underground manhole along a vertical direction without being buried in the ground. delete delete The method of claim 1,
The first injection value,
A first injection well supply pipe connected to the infusion pump and supplying the purification air;
A pair of first injection well packers installed in a state spaced apart from each other at the distal end of the first injection well supply pipe,
An opening formed to be joined to the first injection well supply pipe, the first protrusion protruding to be in close contact with an inner circumferential surface of the first injection well hole case when the pair of first injection well packers are expanded;
And a first nozzle installed in the first protrusion and configured to inject the purge air to the outside from the first injection hole supply pipe. The method of claim 1,
The first extraction device,
A pair of first extraction packers,
A first extraction well supply pipe for supplying an expansion pressure to the pair of first extraction well packers;
A first connector pipe connecting the pair of first extraction well packers;
And a first guide tube for guiding contaminants present in the extraction space between the pair of first extraction well packers to the outside through an extraction line. The method of claim 5,
The horizontal extraction well,
A second extraction well hole case which is inserted at a depth of 2B deeper than a depth of 2A of the empty space of the underground manhole and is buried horizontally in the ground, and has a through hole formed in the outer circumferential surface of the entire region;
And a second horizontal extraction well installed in the second extraction well hole case and having a second extraction device for extracting contaminants. The method according to claim 6,
The horizontal injection tablet,
A second pit hole hole case which is inserted at a depth of first B than a depth of second B of an empty space of the underground manhole and is buried horizontally in the ground but has a through hole formed only at an outer circumferential surface of the one area;
And a second horizontal injection well installed in the second injection well hole case, the second horizontal injection well having a second injection nozzle for injecting the purge air into the contaminated space in the ground. The method of claim 1,
The injection unit,
A steam generator connected to the infusion pump,
Contaminated soil purification system further comprises an auxiliary storage tank connected to the steam generator, the microorganism or the surfactant is stored. The method of claim 1,
The contaminated soil purification system,
Further comprising a processing unit for treating the contaminants extracted through the horizontal extraction wells,
The processing unit includes:
A gas-liquid separation tank for separating contaminants recovered through the horizontal extraction well into contaminated gas and contaminated groundwater;
An oil water separator for separating oil from the contaminated groundwater,
And a adsorption tank for adsorbing residual contaminants in the contaminated gas. delete Forming an underground manhole defined by a hollow space through vertical excavation;
Injecting a casing at the same time as the horizontal excavation from the empty space inside the underground manhole to the ground;
Inserting a horizontal injection well or a horizontal extraction well into the casing and drawing the casing;
An injection line connected to the horizontal injection well is disposed in an empty space inside the underground manhole along a vertical direction;
An extraction line connected to the horizontal extraction well is disposed in an empty space inside the underground manhole along a vertical direction;
Injecting hot air or steam into the contaminated space by using the horizontal injection well and the injection line, and purifying air including microorganisms or surfactants;
Extracting contaminants from the contaminated space using the horizontal extraction wells and the extraction line;
And separating the groundwater from the extracted pollutants. The method of claim 11,
Injecting the casing at the same time as the horizontal excavation to the ground in the empty space inside the underground manhole,
Injecting a first A casing at the same time as the horizontal excavation from the first vacant space within the underground manhole into the ground;
And drilling a first B casing simultaneously with horizontal excavation from the deep second depth to the ground with a first depth of the empty space inside the underground manhole. The method of claim 12,
Inserting a horizontal injection well or a horizontal extraction well into the casing and drawing the casing,
Inserting a horizontal injection well into the first A casing and drawing the first A casing;
And inserting a horizontal extraction well into the first B casing and drawing the first B casing. Forming at least two underground manholes which are defined as empty spaces through vertical excavation,
Injecting the first casing simultaneously with horizontal excavation into the ground inside another underground manhole adjacent from one underground manhole,
Connecting a second casing to one end of the first casing;
Simultaneously carrying out excavation of the second casing and towing through the first casing;
Inserting a horizontal injection well or a horizontal extraction well into the second casing and drawing out the second casing;
An injection line connected to the horizontal injection well is disposed in an empty space inside the underground manhole along a vertical direction;
An extraction line connected to the horizontal extraction well is disposed in an empty space inside the underground manhole along a vertical direction;
Injecting hot air or steam into the contaminated space by using the horizontal injection well and the injection line, and purifying air including microorganisms or surfactants;
And extracting contaminants from the contaminated space using the horizontal extraction wells and the extraction line. 15. The method of claim 14,
Injecting the first casing at the same time as the horizontal excavation to the ground in the other underground manhole adjacent to the one underground manhole,
Injecting a first A casing at the same time as the horizontal excavation from the first depth inside the other underground manhole to the underground from one of the underground manholes;
Injecting a first B casing simultaneously with horizontal excavation into the ground at a second depth deeper than a first depth inside another underground manhole adjacent to the one underground manhole,
Inserting a horizontal injection well or a horizontal extraction well into the second casing and drawing the second casing,
Inserting a horizontal injection well into the second A casing connected to the first A casing and drawing the second A casing;
And inserting a horizontal extraction well into the second B casing connected to the first B casing and drawing the second B casing.

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