KR101995212B1 - Multi-functional well system for remediation of contamianted soil and groundwater - Google Patents

Abstract

The present invention relates to a multifunctional tubular well system for simultaneously remediating contaminated soil and contaminated soil water. More particularly, the system extracts and removes volatile organic compounds in soil rapidly and efficiently from underground by heating the contaminated soil to high temperature at an underground initial position with respect to contaminated soil of an unsaturated zone, saves heating energy by enabling the variable length of a heating heater according to soil contamination depth to be adjusted and setting a non-heating section in which a non-contaminated soil layer is not heated and can simultaneously remediate the contaminated soil and the contaminated soil water of the unsaturated zone by simultaneously applying air-sparging, air-stripping, oxidation and groundwater circulation to the contaminated soil water of the unsaturated zone at the underground initial position. The system of the present invention includes a contaminated soil vapor extracting tubular well and a contaminated soil water extracting tubular well.

Description

Multi-functional well system for simultaneous purification of contaminated soil and contaminated soil water {Multi-functional well system for remediation of contamianted soil and groundwater}

The present invention relates to a multifunctional control system for simultaneously purifying contaminated soil and contaminated soil water, and more particularly, to heat contaminated soil at a high temperature in the ground to a high temperature for contaminated soil in an unsaturated zone, and quickly and efficiently It is possible to extract and remove, and to adjust the length of the variable heating heater according to the depth of soil pollution, and to save the heating energy by setting the non-heating section that does not heat the uncontaminated soil layer. Air-sparging, Air-stripping, Oxidation, Groundwater circulation in the original location, and contaminated soil to purify the contaminated soil and contaminated soil water at the same time. The present invention relates to a multifunctional wellness system for simultaneous purification of contaminated soil water.

In general, techniques for the purification of contaminated soil can be largely divided into biological methods and physicochemical methods.

Physicochemical method is a method of purifying by using the physical and chemical properties of pollutants, such as soil washing, incineration, solidification, stabilization, and solvent extraction, which has a short recovery period but a high cost of treatment and secondary environment There is a disadvantage that can cause contamination.

The biological method is to remove and remove oil by using microorganisms, which are petroleum hydrocarbon decomposition strains. There are methods of soil cultivation, composting, bioventing, plant restoration, etc. It is cheaper than physicochemical methods and does not cause secondary environmental pollution, but it takes longer to restore the contaminated soil.

Soil purification techniques classified into physical and chemical methods and biological methods as described above may be classified into ground treatment (Ex-situ) and ground treatment (In-situ).

Ex-situ method detects the distribution of pollutants in soil and physical / chemical characteristics of the soil, excavates the contaminated soil within the range to be treated, and then cleans up the excavated contaminated soil using an appropriate cleaning solution. As a method of washing in the presence of, also known as excavation treatment, soil washing is generally carried out this belongs.

In-situ method is a technology that directly injects chemicals, oxidants, microorganisms, etc. by inserting a well into the ground and injects it directly into the in situ. It is a method of injecting and circulating washing water in the contaminated soil to be treated after installing a material treatment facility in a contaminated site.

Among the chemical and chemical methods, techniques applicable to the in-situ method include chemical oxidation, soil vapor extraction (SVE), air sparging, and soil flushing. , Bio-slurping, etc., and the techniques applicable to the in-situ method of biological methods include soil farming, bioventing, and bioreactor. have.

Among the above methods, soil vapor extraction (SVE) is to extract the pollutants by increasing the vapor pressure of the voids in the soil, and at room temperature, it is difficult to form the vapor pressure necessary to extract the pollutants, so that the soil is heated. To increase the vapor pressure.

In particular, when the contaminants are low volatility, they must be heated to a higher temperature, thereby causing a problem in that much energy is required for heating. In addition, when the soil is contaminated by a high concentration of oil, the proportion of low volatile oil component increases with time, it is very difficult to purify to a satisfactory low pollution concentration without heating to a high temperature.

Looking at the prior arts related to the soil gas extraction method, it is installed to the depth of contamination in the soil 10 in Korea Patent Registration 10-0834236 (May 26, 2008) to supply electricity to the contaminated soil (10) soil ( 10) an air injection electrode 15 for injecting air so as to evaporate contaminants by heating itself and forming an air flow in the soil 10; An air injector (14) for supplying air to the air injection electrode (15); A power supply 12 for supplying electricity to the air injection electrode 15; A soil vapor extraction electrode 16 for recovering contaminants vaporized and moving in the soil 10; The air injection electrode 15 is composed of a steel pipe electrically divided into a plurality of parts in the longitudinal direction by the insulating electrode installation member 35, and each divided portion of the air injection electrode 15 It is provided with separate electrode terminals, so that the electricity supply to the soil 10 through each electrode terminal can be individually controlled; Purifying contaminated soil, characterized in that to clean the soil (10) by collecting and discharging the pollutant vaporized through the heating and air injection of the soil (10) itself by electricity supply through the soil vapor extraction electrode (16) Devices are known.

In addition, the electrode (3) buried to the depth of contamination in the soil (8) contaminated in Korea Patent Registration 10-0803724 (February 05, 2008) to supply power to the soil (8); A power source 1 connected to the electrode 3 for supplying power to the soil 8; And an extraction well 4 for extracting contaminants and water vapor volatilized from the soil 8 heated by the power supply, and heating the soil 8 by using electric power supplied through the electrode 3. By volatilizing contaminants in the soil 8, the contaminants are collected and discharged through the extraction well 4 to purify the soil 8. As a method for purifying the soil, wherein the electrode (3) of the contaminated soil purifier is made of a section steel having a non-closed cross section; The purification method comprises the steps of embedding the electrode (3) in the contaminated soil (8) to the depth of contamination, supplying power to the soil (8) through the electrode (3) and heating it; And collecting and discharging the pollutants volatilized due to the heat generation of the soil 8 by the power supply through the extraction well 4, thereby purifying the contaminated soil 8. Purification method is cape.

In addition, in Korean Patent Registration No. 10-1162498 (June 28, 2012), a method for purifying by setting up a treatment area of oil soil contaminated with oil: a depth and lattice structure that does not reach the groundwater zone of the soil A first step of perforating to form a clay electrode hole (10), inserting the electrode (15) into the electrode hole (10) arranged in the lattice structure, and applying an alternating voltage in a state where water is replenished; The extraction well 30 is formed in the center of the lattice of the electrode 15 arranged in the lattice structure, and the high pressure injection well 20 is formed so as to be arranged in a lattice structure between the electrodes 15, and the high pressure injection well ( 20) is formed while moving from the edge to the center, and injecting the liquid contaminant purifier at high pressure into the high-pressure injection well 20 using the puncture injector 25; And a third step of extracting the volatile gas through the extraction well 30, wherein the first to third steps include a depth of 15 m and a distance of 05 m from the electrode 15. Heat the soil to maintain the temperature of 75 ~ 95 ℃ at, the heating in the first and second stage is the electrical resistance heating and directing, characterized in that to heat the soil at a rate of temperature rise of 22 ~ 34 ℃ per day A method for purifying clay soils by high pressure injection is known.

However, the conventional techniques are techniques for purifying contaminated soils, which are useful for contaminating soils in unsaturated zones, but cannot be purified for contaminated soil water present in unsaturated zones.

On the other hand, soil and groundwater contaminated with oil are becoming social issues, such as oil manufacturing and storage facilities, organic solvent storage facilities in industrial complexes, military oil and detergent storage facilities, and SVE (Soil Vapor Extraction) to deal with them. Extraction, Air-sparging, Air-stripping, Oxidation, etc. are being applied.

In general, soil pollution cannot be easily identified and the range of pollutants. Even if the pollutant concentration is confirmed through soil pollution investigation, many fluid situations such as other pollutants or high concentrations of pollutants appear during the purification activities.

In addition, the soil contaminated areas are mostly contaminated areas such as groundwater, but there is no current technology to purify the soil and groundwater at the same time, there is a limit that can not be flexibly respond to the site situation.

That is, each pollutant medium exists as a pollutant present in the gas phase in the soil voids, a pollutant adsorbed to the soil, a fluidized pollutant floating on the groundwater due to its lighter weight, and a pollutant dissolved in the groundwater. Because of such a variety of pollutants, existing underground treatment techniques are almost impossible to purify to the restoration target with a single technique. Therefore, various underground treatment technologies should be applied, and accordingly, restoration periods and piping are installed separately for each treatment technology, which requires a lot of work period, increases installation cost, and does not have high compatibility with various treatment technologies. I have a problem that needs to be done.

In recent years, in-situ complex restoration technology capable of simultaneously purifying soil and groundwater contaminated with organic substances and heavy metals through the wells, and infusing air into underground saturation zones and aquifers and A double tablet manufacturing method and a construction method for simultaneously performing an extraction function have been developed. In Korean Patent No. 10-0462118, in the double tablet manufacturing method for injecting / extracting air into the unsaturated zone and the aquifer of the soil independently, (a) separately preparing an unsaturated zone injection / extraction well for injecting and extracting air into the unsaturated zone and an aquifer injection well for injecting air into the aquifer; (b) forming a screen for injecting and extracting air under the unsaturated zone injection / extraction well and below the aquifer injection well; (c) inserting an air supply pipe having a length longer than that of the non-saturation zone injection / extraction information into the non-saturation zone injection / extraction well; (d) installing a blocking block for sealing the inner circumferential surface of the saturation zone injection / extraction well and the outer circumferential surface of the air supply pipe at upper and lower positions of the non-saturation zone injection / extraction well; And (e) coupling a lower end of the non-saturated zone injection / extraction well and an upper end of the aquifer injection well such that the air supply pipe communicates with the aquifer injection well, but the double well has been developed. Is able to perform air injection and extraction to the unsaturated zone and aquifer at the same time using a single double tablet, but the structure of the double tablet has a complicated structure, which makes it impossible for practical use.

In addition, Korean Patent No. 10-1127223 is a multi-purpose well applicable to an integrated process for treating soil and groundwater contaminated with contaminants such as chlorinated organic compounds in situ, each of which is independently installed and fixed to a packer. A well casing including an aquifer connection tube, an unsaturated layer connection tube, and a low density water-insoluble substance (LNAPL) extraction tube fixed therein; And a horizontal pipe for injecting surfactant extending in a vertical direction with respect to the well casing, wherein the horizontal pipe for injecting surfactant is located in an unsaturated layer of soil or a sand layer filled on the unsaturated layer. Although a multi-functional well structure has been developed, however, the multi-functional well structure is capable of extracting the aquifer, the unsaturated layer and the non-aqueous material, but there is a structural problem in that the sand layer is separately filled on top of the unsaturated layer.

As described above, the prior art also has to apply a large number of devices to purify each pollutant, respectively, there is a problem that a lot of manufacturing and installation, operating costs, etc., or even if applied at the same time as a structural problem Due to this, there was a problem that could not be applied in practice, so it is urgent to develop a control system that can apply various functions to solve these problems.

[Patent Document 001] Korea Patent Registration 10-0834236 [Patent Document 002] Korea Patent Registration 10-0803724 [Patent Document 003] Korea Patent Registration 10-1162498 [Patent Document 004] Korea Registered Patent 10-0462118 [Patent Document 005] Korea Patent Registration 10-1127223

The present invention is to solve the above problems, by heating the contaminated soil at a high temperature in the ground to the contaminated soil in the unsaturated zone to extract and remove volatile organic substances in the soil quickly and efficiently, and variable according to the soil pollution depth The heating heater can be adjusted in length, and the non-contaminated soil layer is set to a non-heating section that does not heat, saving heating energy, and air-sparging and air- Providing a multifunctional well-being system for simultaneously purifying contaminated soil and contaminated soil water by applying stripping, oxidation, and groundwater circulation to simultaneously purify contaminated soil and contaminated soil water. The task to be solved.

In order to solve the above problems, the heater header and the U-shaped heater connected to the heater header in order to extract the volatile organic substances in the soil by heating the contaminated soil at a high temperature in the ground to the contaminated soil of the unsaturated zone. A heating heater comprising a casing embedded inside the U-shaped heater and embedded in a contaminated soil layer, a flange formed at a lower end of the heater header and a flange formed at the upper end of the casing between the heater header lower end and the upper end of the casing, respectively. A contaminated soil vapor extraction control coupled to the upper flange and the lower flange and including a header formed with an air inlet, a water vapor, and a volatile organic gas extraction port; The well is formed in contact with the longitudinal direction of the lower portion of the middle of the soil soil extraction wells, the wells are installed vertically with a predetermined diameter in order to purify the polluted soil water in the unsaturated zone in the ground, and the upper inside the wells An upper screen part installed to purify contaminated soil water, a lower screen part installed to purify contaminated soil water in the lower part of the well casing, and a partition plate installed to separate the upper screen part and the lower screen part. And, for air-sparging (air diffusion) that is fixed by a fixed support on one side of the pipe casing and connected to the compressor outside and installed to allow air-sparging (air diffusion) for air aeration in the upper screen portion An inlet pipe and a fixed support on one side of the pipe casing, An outflow pipe for air-stripping (air degassing) installed to move the water of the lower screen portion to the upper screen portion connected to the outlet valve connected to the external pump on the surface and the upper screen portion by a fixed support in the center of the pipe casing Air-stripping (air degassing) is fixed and installed to enable air-stripping (air degassing) by spraying the water moved to the upper screen portion by the outlet pipe for air-stripping (air degassing) Air-sparging connected to the inflow pipe, the inflow pipe for air-sparging, the outflow pipe for air-stripping, and the inflow pipe for air-stripping, respectively. The inlet valve for air, the outflow valve for air-stripping and the inlet valve for air-stripping are installed on the upper and lower sides, respectively, and include the well lid connected to the well and the bolt / nut. Extracts contaminated soil wells; and the contaminated soil and contaminated soil simultaneous purification wells multifunction system including a means to solve the problem.

The heater header comprises a heater header casing; A cover for opening and closing the heater header casing from an upper portion; A U-shaped heater coupling unit for coupling both upper ends of the U-shaped heater to the inside of the heater header casing with bolts and nuts; A thermometer fixed to the inside of the heater header casing and extending vertically downward in parallel with the U-shaped heater; The heater header casing, one side of the power cable of the U-shaped heater and a cable hole for penetrating the thermometer cable; comprising a configured to solve the problem.

The U-shaped heater is to solve the problem that the heater extension connection is formed so that the variable length adjustment is possible.

The heater extension connection portion is formed by screwing the upper and lower heater rods in order to extend the heater according to the soil pollution depth as a solution to the problem.

The heater extension connecting portion is formed by connecting a wire coated with a flexible heat-resistant material between the heater rods located in the non-heating section in order to set a non-heating section that does not heat the soil layer that is not contaminated.

The distance between each screen of the upper screen portion and the lower screen portion is 1mm to solve the problem.

An air diffuser is installed at the end of the inlet pipe for air-sparging.

The spray nozzle is installed at the end of the inlet pipe for air-stripping.

When purifying contaminated soil and contaminated soil water using a multi-functional well system for simultaneously purifying contaminated soil and contaminated soil water according to the present invention, purification is performed using only one well without the need to install each well for soil and soil water purification. It can be an excellent effect to reduce the production cost and installation cost of the well.

1 is a cross-sectional view of the overall configuration of the multi-function well determination system of the present invention
2 is a cross-sectional view of the heating heater of the present invention.
3 is a cross-sectional view of the casing is inserted U-shaped heater of the present invention
Figure 4 is a cross-sectional view of the combined heating heater and the casing of the present invention
5 is a cross-sectional view in which the heater extension connecting portion of the present invention is coated wire
6 is an external view of the contaminated soil water extraction well of the present invention
7 is a contaminated soil water extraction well inside view of the present invention
8 is a top view of contaminated soil water extraction well of the present invention

The present invention, a heating heater comprising a heater header and a U-shaped heater connected to the lower portion of the heater header to extract the volatile organic substances in the soil by heating the contaminated soil to a high temperature in the ground in relation to the contaminated soil in the unsaturated zone And a casing embedded in the U-shaped heater and embedded in the contaminated soil layer, a flange formed at the lower end of the heater header and a flange formed at the upper end of the casing between the heater header lower end and the upper end of the casing, respectively, as an upper flange and a lower flange. A contaminated soil vapor extraction control coupled to and coupled and including a header having an air inlet, a water vapor, and a volatile organic material gas outlet; The well is formed in contact with the longitudinal direction of the lower portion of the middle of the soil soil extraction well, the wells are installed vertically with a predetermined diameter in order to purify the polluted soil water in the unsaturated zone in the underground position, and the inside of the wells An upper screen part installed to purify contaminated soil water, a lower screen part installed to purify contaminated soil water in the lower part of the well casing, and a partition plate installed to separate the upper screen part and the lower screen part. And, for air-sparging (air diffusion) that is fixed by a fixed support on one side of the pipe casing and connected to the compressor outside and installed to allow air-sparging (air diffusion) for air aeration in the upper screen portion An inlet pipe and a fixed support on one side of the pipe casing, An outflow pipe for air-stripping (air degassing) installed to move the water of the lower screen portion to the upper screen portion connected to the outlet valve connected to the external pump on the surface and the upper screen portion by a fixed support in the center of the pipe casing Air-stripping (air degassing) is fixed and installed to enable air-stripping (air degassing) by spraying the water moved to the upper screen portion by the outlet pipe for air-stripping (air degassing) Air-sparging connected to the inflow pipe, the inflow pipe for air-sparging, the outflow pipe for air-stripping, and the inflow pipe for air-stripping, respectively. The inlet valve for air, the outflow valve for air-stripping and the inlet valve for air-stripping are installed on the upper and lower sides, respectively, and include the well lid connected to the well and the bolt / nut. Extracts contaminated soil wells; and the contaminated soil and contaminated soil simultaneous purification wells multifunction system including the features of the technology configuration.

The heater header comprises a heater header casing; A cover for opening and closing the heater header casing from an upper portion; A U-shaped heater coupling unit for coupling both upper ends of the U-shaped heater to the inside of the heater header casing with bolts and nuts; A thermometer fixed to the inside of the heater header casing and extending vertically downward in parallel with the U-shaped heater; Characterized in that the technical configuration comprises a; a cable hole for penetrating the power cable and the thermometer cable of the U-shaped heater on one side of the heater header casing.

The U-shaped heater is a feature of the technical configuration that the heater extension connection is formed to enable a variable length adjustment.

The heater extension connector is characterized in that the upper and lower heater rods are formed by screwing in order to extend the heater according to the soil pollution depth.

The heater extension connector is characterized in that the wire is coated with a flexible heat-resistant material is formed between the heater rods located in the non-heating section in order to set a non-heating section that does not heat the soil layer uncontaminated.

The screen of each of the upper screen portion and the lower screen portion is characterized in that the technical configuration of 1mm.

The air-sparging (air diffusion) end of the inlet pipe is characterized in that the diffuser is installed in the technical configuration.

In the end of the inlet pipe for air-stripping (air degassing) is characterized in that the spray nozzle is installed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

First, the multifunctional control system for simultaneously purifying contaminated soil and contaminated soil water according to the present invention, by heating the contaminated soil at a high temperature in the ground to the contaminated soil in the unsaturated zone to the volatile organic material in the soil Contaminated soil vapor extraction control for extraction (100); It is formed in contact with the lower longitudinal direction of the middle portion of the contaminated soil vapor extraction well, and comprises a contaminated soil water extraction well (200) for purifying the soil in the unsaturated zone in situ.

The contaminated soil vapor extraction determination is described with reference to [FIG. 2] to [FIG. 5], a heater for extracting volatile organic substances in the soil by heating the contaminated soil to a high temperature in the ground in the soil in relation to the contaminated soil of the unsaturated zone A heating heater 10 including a header 101 and a U-shaped heater 102 connected to a lower portion of the heater header; A casing 20 accommodating the U-shaped heater 102 and embedded in a contaminated soil layer; The flange 106 formed at the lower end of the heater header 101 and the flange 206 formed at the upper end of the casing 20 between the lower end of the heater header 101 and the upper end of the casing 20 and the upper and lower flanges respectively ( And a header 30 coupled to and coupled with the air inlet 302 and the water vapor and the volatile organic gas extraction port 303.

The heater header 101 includes a heater header casing 107; A cover 103 for opening and closing the heater header casing 107 from the top; A U-shaped heater coupler 105 for coupling both upper ends of the U-shaped heater 102 to the inside of the heater header casing 107 with bolts and nuts; A thermometer (108) having an end fixed inside the heater header casing (107) and extending vertically downward in parallel with the U-shaped heater (102); And a cable hole 104 for penetrating the power cable and the thermometer cable of the U-shaped heater 101 at one side of the heater header casing.

The U-shaped heater 102 is formed with a heater extension connecting portion 109 to enable a variable length adjustment.

In this case, the heater extension connection unit 109 may be formed by screwing the upper and lower heater rods for the extension of the heater according to the soil contamination depth.

The heater extension connector 109 is a flexible heat-resistant material that is not heated between the heater rods located in the non-heating section in order to set the non-heating section that is not heated, as shown in FIG. 5. The coated wire 110 may be connected to each other.

In this case, the wire 110 coated with the flexible heat resistant material may be connected by a connection bracket 111 formed at upper and lower ends of the heater rod.

3 and 4, the extracted water vapor and the volatile organic gas are introduced into the U-shaped heater 102 inside the casing to further heat the casing 20. ) May be formed.

The air inlet 302 and the water vapor and the volatile organic gas outlet 303 may be provided with an air inlet valve 304 and a gas outlet valve 305, respectively.

On the other hand, the contaminated soil water extraction wells are formed in contact with the longitudinal direction of the lower portion of the middle portion of the soil soil vapor extraction wells, referring to [Fig. In order to purify the well, a well having a predetermined diameter and vertically installed in the well, the upper screen portion 11 is installed so as to purify the contaminated soil water in the upper part of the well, and the contaminated soil water purification in the lower part of the well The lower screen unit 13 is installed to enable the separation, the partition plate 12 is installed to separate the upper screen unit and the lower screen unit, and fixed by a fixed support on one side of the inside of the tubular casing, the external compressor and piping An inlet pipe 5 for air-sparging (air diffusion) that is connected to be installed to enable air-sparging (air diffusion) for aeration of the upper screen; Air-stripping (air degassing), which is fixed by a fixed support on one side of the pipe casing and is connected to an outlet valve connected to an external pump on the upper and lower surfaces of the partition plate, and is installed to move the water of the lower screen part to the upper screen part. Water flowing into the upper screen by the water outlet pipe 9 and a fixed support in the center of the pipe casing, and moved to the upper screen by the air outlet pipe for air-stripping. Inlet pipe for air-stripping (3) installed to enable stripping (air degassing), inlet pipe for air-sparging (air diffusion) (5), outlet pipe for air-stripping (air degassing) (9) and inlet valves for air-sparging (15) and outlet valves for air-stripping (17) connected in correspondence with the inlet pipes (3) for air-stripping. For air and air-stripping Bracket 18 is mounted to each upper and lower surface is configured to include the wells cap 14 is installed through to wells with bolts / nuts.

Referring to FIG. 6, the contaminated soil water extraction well is divided into four parts. The screen is divided into the screen application part and the non-application part, respectively. Screen part application / non-application and screen part height should be different according to the situation of the site. The upper screen part 11 may purify the soil and soil water, and the lower screen part 13 may purify the soil water.

Soil water purification is possible by supplying water from the lower screen portion 13 to the upper screen portion 11 using an external pump. A partition plate 12 is installed and partitioned between the upper screen portion 11 and the lower screen portion 13.

6 to 8, the air-sparging inlet valve 15, the air-stripping inlet valve 18, and the air-stripping outlet valve 17 are operated as necessary to provide respective functions. You can do this or perform a combination of functions.

Preferably, the interval between the screens of the upper screen part 11 and the lower screen part 13 is 1 mm.

Referring to FIG. 7, the air-stripping inlet pipe fixing support 2 allows the air-stripping function to operate, the air-stripping inlet pipe 3, and the air-stripping spray nozzle 3 ′. ) Sprays the water supplied from the outlet 9 'and the outlet pipe 9 for air-stripping by the external pump to the inside of the well to enable air-stripping. The inlet pipe fixing support (4) for air-stripping allows the air-stripping function to work.

Inlet pipe 5 for air-sparging, air-sparging diffuser (5 ') is capable of air-sparging by supplying oxygen generated by using a compressor from the outside through the internal pipe to generate microbubbles.

The air-stripping outlet valve 17 is supplied with an external pump for the water discharged through the outlet 9 'and the outlet pipe 9 for air-stripping (air degassing) at the bottom. Air-stripping outflow pipe fixing support (8) allows the air-stripping function to operate, the air-sripping outflow pipe (9) is capable of outflowing the water from the bottom to the top through an external pump.

6 to 8, the well cover 14 is fixed by connecting the well and bolts and nuts. Air-sparging inlet valve 15 may be connected to the compressor installed on the outside. An air-stripping outlet valve 17 can be used to outflow water from the bottom of the well to the outside via an externally connected pump. An air-stripping inlet valve 18 is used to supply the water discharged from the bottom through the pump connected to the inside of the well.

In addition, when an oxidant is required for oxidation, it can be injected by connecting to an external oxidant tank by using an air-stripping inlet pipe (3), and using an inlet pipe (5) for air-sparging to an external ozone generator. In addition, ozone (O ₃ ) can be injected.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Accordingly, the drawings disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these drawings. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

2: Air-stripping inlet pipe fixing support 3: Air-stripping inlet pipe
3 'spray nozzle 4: inlet pipe fixing support for air-sparging
5: Inlet pipe for air-sparging 5 ': diffuser
6: Outlet valve for air-stripping
8: Outlet pipe fixing support for air-stripping
9: Outlet pipe for air-stripping 9 ': Outlet 10: Heating heater
11: top screen 12: divider 13: bottom screen
14: well lid 15: inlet valve for air-sparging
17: Outlet valve for air-stripping 18: Inlet valve for air-stripping
101: heater header 102: U-shaped heater 103: cover
104: cable hole 105: U-shaped heater coupling portion
106: flange 107: heater header casing 108: thermometer
109: heater extension connection 110: wire 111: connection bracket
20: casing 201: slit through hole 30: header
302: air inlet 303: water vapor and volatile organic gas extraction port

Claims (8)

A heating heater comprising a heater header and a U-shaped heater connected to a lower portion of the heater header to extract volatile organic substances in the soil by heating the contaminated soil to a high temperature in the ground at a location where the soil is unsaturated, and the U It is coupled to the upper flange and the lower flange and the casing which is internally accommodating a magnetic heater, and the flange formed on the lower end of the heater header and the flange formed on the upper end of the casing between the heater header lower end and the upper end of the casing, respectively, A contaminated soil vapor extraction control configured to include an air inlet, a header having water vapor, and a volatile organic material gas outlet;
The well is formed in contact with the longitudinal direction of the lower portion of the middle portion of the soil contaminated soil extraction well, and installed vertically with a predetermined diameter in order to purify the contaminated soil water in the unsaturated zone in the underground position, and the upper part of the inside of the well An upper screen part installed to purify contaminated soil water, a lower screen part installed to purify contaminated soil water in the lower part of the well casing, and a partition plate installed to separate the upper screen part and the lower screen part. And, for air-sparging (air diffusion) that is fixed by a fixed support on one side of the pipe casing and connected to the compressor outside and installed to allow air-sparging (air diffusion) for air aeration in the upper screen portion An inlet pipe and a fixing support on one side of the pipe casing, Up and down pipes connected to the outlet valve connected to the external pump on the surface by the outlet pipe for air-stripping (air degassing) is installed to move the water of the lower screen portion to the upper screen portion, and by a fixed support in the center of the pipe casing Air-stripping (air degassing) is fixed and installed to enable air-stripping (air degassing) by spraying the water moved to the upper screen portion by the outlet pipe for air-stripping (air degassing) Air-sparging connected to the inflow pipe, the inflow pipe for air-sparging, the outflow pipe for air-stripping, and the inflow pipe for air-stripping, respectively. The inlet valve for air, the outflow valve for air-stripping and the inlet valve for air-stripping are installed on the upper and lower sides, respectively, and include the well lid connected to the well and the bolt / nut. It can contaminate soil extraction wells;
Consists of including
The heater header comprises a heater header casing; A cover for opening and closing the heater header casing from an upper portion; A U-shaped heater coupling unit for coupling both upper ends of the U-shaped heater to the inside of the heater header casing with bolts and nuts; A thermometer fixed inside the heater header casing and extending vertically downward in parallel with the U-shaped heater; A multi-functional well-being system for simultaneously purifying contaminated soil and contaminated soil water, comprising: a cable hole for penetrating the power cable and a thermometer cable of the U-shaped heater at one side of the heater header casing.
delete The method of claim 1,
The U-shaped heater is a multifunctional control system for simultaneous purification of contaminated soil and contaminated soil water, characterized in that the heater extension connection is formed to enable variable length adjustment
The method of claim 3,
The heater extension connection unit is a multi-functional well-being system for the simultaneous purification of contaminated soil and contaminated soil water, characterized in that the upper and lower heater rods are screwed to extend the heater according to the soil pollution depth.
The method of claim 3,
The heater extension connection part is a soil contaminated and polluted, characterized in that the wire is coated with a flexible heat-resistant material is formed between the heater rods located in the non-heating section in order to establish a non-heating section that does not heat the uncontaminated soil layer Multifunctional wellness system for simultaneous purification of soil water
The method of claim 1,
Multi-function well management system for the simultaneous purification of contaminated soil and contaminated soil water, characterized in that the interval of each screen of the upper screen portion and the lower screen portion is 1mm
The method of claim 1,
Multi-functional well-being system for the simultaneous purification of contaminated soil and contaminated soil water, characterized in that the diffuser is installed at the end of the inlet pipe for air-sparging (air diffusion)
The method of claim 1,
Multi-functional well-being system for simultaneously purifying polluted soil and contaminated soil water, characterized in that the spray nozzle is installed at the end of the inlet pipe for air-stripping (air degassing)

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