KR101488173B1 - Multi-functional Well - Google Patents

Abstract

The present invention relates to a tubular well which can apply various functions to a tubular well. When using a device according to the present invention, various functions can be applied to a tubular well so that a user can properly deal with a dynamic field situation. An existing tubular well purifies soil or underground water respectively and cannot deal with filed situation flexibly. However, the device of the present invention can purify soil and underground at the same time and can apply various functions such as soil vapor extraction (SVE), air-sparging, air-stripping, oxidation, groundwater circulation, etc, thereby dealing with filed situation flexibly.

Description

Multifunctional Well {Multi-functional Well}

The present invention relates to a multifunctional well, and more particularly, to a multifunctional well, and more particularly, to a multi-functional well, And a groundwater circulation. Therefore, the present invention relates to a multifunctional facility capable of more appropriately responding to fluidized soil and groundwater purification sites.

Soil and groundwater contaminated with oil such as oil production and storage facilities, organic solvent storage facilities of industrial complexes, military oil and cleaning agent storage facilities have become a social issue. Soil Vapor Extraction (SVE) ), Air-sparging, air-stripping, oxidation (Oxidation).

In general, soil pollution can not be easily identified and the range of pollutants is unknown. Even if pollution concentration is checked through soil pollution survey, there are many fluid situations such as other pollutants or high concentrations of pollutants during purification activities.

In addition, most of the polluted areas in the soil are contaminated, but the current technology does not have the technology to purify the soil and the groundwater at the same time.

In other words, pollutants exist as gaseous pollutants in the soil pores, pollutants adsorbed on the soil, light pollutants floating on the underground water, and pollutants dissolved in the groundwater. Due to the presence of various pollutants, it is almost impossible to purify the existing ground treatment technology to the restoration target with a single technology. Therefore, a variety of underground processing technologies must be applied. Therefore, since the restoration and piping are installed separately for each treatment technique, it takes a lot of work period, installation cost increases, and compatibility with various processing technologies is not high. There is a problem that needs to be done.

Recently, in-situ combined restoration technology that can simultaneously purify soil and groundwater contaminated with organic materials and heavy metals through the gutter, The Korean Society of Applied Physics 10-0462118 discloses a dual definition method for independently injecting / extracting air into and from an aquifer of a soil, (a) separately preparing an unoccupied infusion / extraction well for injecting and extracting air into the non-inflating zone and an aeration inflow set for injecting air into the aquifer; (b) forming a screen for infusion and extraction of air at the bottom of the non-infiltration zone infusion / extraction definition and at the bottom of the aquifer infusion definition, respectively; (c) inserting an air supply pipe having a long length into the non-sludge tank injection / extraction tank; (d) installing a blocking block for sealing the inner peripheral surface of the non-pouring base injection / extraction definition and the outer peripheral surface of the air supply pipe at the upper and lower positions of the non-pouring base injection / extraction definition; And (e) coupling the lower end of the non-canister infusion / extraction definition and the upper end of the aquifer injection definition to each other so that the air supply pipe is in communication with the aquifer injection well. However, It is possible to simultaneously perform the air injection and extraction operations on the non-paved zone and the aquifer using a single pavilion.

Korean Patent No. 10-1127223 discloses a multipurpose well that can be applied to an integrated process for in-situ treatment of soil and groundwater contaminated with contaminants such as chlorinated organic compounds. The multi-purpose well is installed in a packer A connection pipe for an aquifer layer, a connection pipe for an unsaturated layer, and a low density non-aqueous solution (LNAPL) extraction pipe; And a horizontal tube for injecting the surfactant, the horizontal tube for injecting the surfactant extending in the waterline direction with respect to the tubular casing, wherein the tubule for injecting the surfactant is located in an unsaturated layer of the soil or a sand layer filled in the upper part of the unsaturated layer However, there is a problem in that the multifunctional valence structure can separate the aquifer, the unsaturated layer and the water-insoluble material, but the sand layer must be separately filled in the upper part of the unsaturated layer.

As described above, the conventional techniques also require a large number of devices to clean each pollutant. Therefore, there is a problem that the manufacturing, installation, and operation costs of the device are frequently generated, or even if applied at the same time, In order to solve these problems, it is urgent to develop a system that can apply various functions.

In order to solve the above-mentioned problem, the present invention provides a method of removing soils such as Soil Vapor Extraction (SVE), Air- sparging, air-stripping, oxidation, groundwater circulation, etc., to reduce or eliminate the cost of construction, re-installation, and operation costs. And to provide a multifunctional view that can be used to solve the problem.

In order to solve the above-described problems, the present invention provides a casing having a predetermined diameter and installed vertically; An upper screen unit installed in the upper part of the casing to clean the soil and the groundwater; A lower screen part installed in the lower part of the casing casing so as to purify the groundwater; A partition plate which separates the upper screen unit and the lower screen unit and installed so that the water in the upper screen unit moves horizontally without moving vertically to the lower screen unit to enable groundwater circulation; An air-sparging inflow pipe which is installed on one side of the casing casing and fixed to the upper screen unit by air-sparging to be connected to an external compressor by piping, and; An air-stripping unit installed on one side of the casing casing and fixed to the upper and lower surfaces of the partition plate and connected to upper and lower pipes connected to an outflow valve connected to an external pump to move water in the lower screen unit to the upper screen unit; An outflow pipe for; The upper screen portion is sprayed on the upper screen portion by the air-stripping outflow pipe fixed to the center of the casing casing by the fixing support and air-stripping is performed. An inflow pipe for air-stripping to be installed; An air-sparging inflow valve connected to the inflow pipe for air-sparging, the inflow pipe for air-stripping and the inflow pipe for air-stripping, An air-stripping outlet valve and an air-stripping inlet valve are installed on the upper and lower sides respectively, and a separate outlet valve for Soil Vapor Extraction (SVE) And a multifunctional housing including the housing cover to be installed.

In addition, a multifunctional sight having a spacing of 1 mm between the screens of the upper screen portion and the lower screen portion is a solution to the problem.

In addition, the multifunctional piping in which the air pipe is installed at the end of the inflow pipe for air-sparging is a solution to the problem.

In addition, a multifunctional nozzle having a spray nozzle at the end of the inflow pipe for air-stripping is a solution to the problem.

Alternatively, the inlet valve for air-stripping and the inlet pipe for air-stripping may be connected to an oxidizer tank so that the oxidizer can be charged and oxidized. .

Alternatively, the inlet pipe for air-sparging and the inlet pipe for air-sparging may be connected to the ozone generator to provide a multifunctional pipe which is installed to be oxidizable.

Alternatively, the outlet valve for the SVE (Soil Vapor Extraction) may be connected to a vacuum pump to provide a multifunctional vessel that is installed to enable soil vapor extraction (SVE) by vacuum. .

When the soil and groundwater purification are carried out using the multifunctional hall according to the present invention, it is possible to purify the soil and the groundwater by using only one hall without installing each hall for purification of soil and groundwater, can do.

In addition, when additional pollutants are found or high concentrations of pollutants are found, it is necessary to apply other methods. However, when the multifunctional pipe according to the present invention is used, The equipment can be taken immediately by connecting the device, so that the cost of manufacturing and reinstallation of additional venues can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-
Fig. 2 is a cross-sectional view of the multi-
FIG. 3 is a cross-sectional view of a multi-

The present invention relates to a casing having a constant diameter and installed vertically; An upper screen unit installed in the upper part of the casing to clean the soil and the groundwater; A lower screen part installed in the lower part of the casing casing so as to purify the groundwater; A partition plate which separates the upper screen unit and the lower screen unit and installed so that the water in the upper screen unit moves horizontally without moving vertically to the lower screen unit to enable groundwater circulation; An air-sparging inflow pipe which is installed on one side of the casing casing and fixed to the upper screen unit by air-sparging to be connected to an external compressor by piping, and; An air-stripping unit installed on one side of the casing casing and fixed to the upper and lower surfaces of the partition plate and connected to upper and lower pipes connected to an outflow valve connected to an external pump to move water in the lower screen unit to the upper screen unit; An outflow pipe for; The upper screen portion is sprayed on the upper screen portion by the air-stripping outflow pipe fixed to the center of the casing casing by the fixing support and air-stripping is performed. An inflow pipe for air-stripping to be installed; An air-sparging inflow valve connected to the inflow pipe for air-sparging, the inflow pipe for air-stripping and the inflow pipe for air-stripping, An air-stripping outlet valve and an air-stripping inlet valve are installed on the upper and lower sides respectively, and a separate outlet valve for Soil Vapor Extraction (SVE) The multifunctional station comprising the canopy lid to be installed is characterized by the technical structure.

Also, the multifunctional viewfinder having a screen spacing of 1 mm between the screens of the upper screen portion and the lower screen portion is characterized by the technical construction.

In addition, the multifunctional housing having the air diffusing pipe at the end of the inflow pipe for air-sparging has a technical feature.

In addition, a multi-functional nozzle having a spray nozzle at the end of the inflow pipe for air-stripping has a feature of the technical construction.

Alternatively, the inlet pipe for air-stripping and the inlet pipe for air-stripping may be connected to the oxidant tank to selectively introduce the oxidant and oxidize the multi-functional pipe. .

Alternatively, the inflow port for air-sparging and the inflow pipe for air-sparging may be selectively connected to the ozone generator to perform oxidation treatment.

Alternatively, the outlet valve for the SVE (Soil Vapor Extraction) may be connected to a vacuum pump to provide a multifunctional vessel that is installed to enable soil vapor extraction (SVE) by vacuum. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the illustrative embodiments set forth herein.

Referring to FIG. 1, the landscape is divided into four parts in total. From the top, we divide into the application part of the screen part and the part which is not applied. The application / non-application of the screen part and the height of the screen part should be different according to the situation of the site. The upper screen portion 11 can perform soil and groundwater purification, and the lower screen portion 13 can perform groundwater purification.

It is possible to purify the groundwater by supplying the water of the lower screen portion 13 to the upper screen portion 11 by using an external pump. A partition plate 12 is provided between the upper screen unit 11 and the lower screen unit 13 to allow groundwater circulation by horizontally moving the upper water so that the water does not move vertically downward.

Reference numeral 1 denotes an inflow / outflow valve for the outflow of SVE, inflow for air-sparging, and air-stripping. Four valves are installed at each of the upper and lower portions, And can apply the respective functions or can perform the combined functions through the simultaneous application. Reference numerals 11 and 13 denote an upper screen portion and a lower screen portion, respectively, and the distance between the screens is 1 mm.

Referring to FIG. 2, reference numeral 2 denotes an inlet pipe fixing support for air-stripping, and an air-stripping function can be operated. Reference numeral 3 denotes an air- (3 ') is a spray nozzle for air-stripping, an outlet (9') for air-stripping by an external pump, and an outlet pipe (9 ') for air- ) Is injected into the inside of the well to enable air-stripping. Reference numeral 4 denotes an inlet pipe fixing support for air-stripping, which allows the air-stripping function to operate.

Reference numeral 5 denotes an inflow pipe for air-sparging, 5 'denotes an air-sparging pipe, and oxygen generated by using an external compressor is supplied through an internal pipe Air-sparging is possible by generating fine bubbles.

Reference numeral 6 denotes an outflow valve for air-stripping. The outflow valve 9 'for air-stripping at the bottom and the water flowing out through the outflow pipe 9 are supplied to an external pump do. Reference numeral 8 denotes an outflow pipe fixing support for air-stripping, and an air-stripping function is operated. Reference numeral 9 denotes an outflow pipe for air-stripping, Can be discharged from the lower part to the upper part through the external pump.

Referring to FIG. 3, reference numeral 14 denotes a tubular lid which is fixed by connecting a tube, a bolt, and a nut. Reference numeral 15 denotes an inflow valve for air-sparging, which can connect an external compressor. Reference numeral 16 denotes an outlet valve for soil vapor extraction (SVE), which can connect a vacuum pump for removing volatile contaminants from the soil and ground water connected to the outside. Reference numeral 17 denotes an outflow valve for air-stripping, which can be used to discharge the water at the bottom of the tank through the pump connected to the outside. Reference numeral 18 denotes an inflow valve for air-stripping, which is used to supply water outflowed from the lowermost part through a pump connected to the outside to the interior of the well.

In addition, when an oxidizing agent is required for oxidation, it is possible to connect the oxidizing agent tank to an external oxidizing agent tank by using an air piping 3 for air-stripping, (O ₃ ) can be injected by connecting it to an external ozone generator by using the ozone generator (5).

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the drawings disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

1: Inlet / outlet valve for outflow for SVE, inflow for air-sparging, air-stripping
2: Inflow pipe fixing support for air-stripping
3: Inlet piping for air-stripping 3 ': Spray nozzle
4: Inflow pipe fixing support for air-sparging
5: Inflow pipe for air-sparging 5 '
6: Outlet valve for air-stripping
8: Outlet piping support for air-stripping
9: Outlet piping for air-stripping 9 ': Outlet
11: upper screen 12: partition plate
13: Lower screen 14: Palace lid
15: Inflow valve for air-sparging
16: Outlet valve for SVE
17: Outlet valve for air-stripping
18: Inflow valve for air-stripping

Claims (7)

A housing casing vertically installed with a predetermined diameter; An upper screen part (11) installed on the upper part of the tubular casing so as to purify the soil and the ground water; A lower screen portion (13) installed in the lower part of the casing casing so as to purify the groundwater; A partition plate (12) separating the upper screen unit and the lower screen unit and installed to allow water in the upper screen unit to move horizontally without being vertically moved to the lower screen unit, thereby allowing groundwater circulation; Air-sparging, which is installed on one side of the casing casing by a fixing support and connected to an external compressor and installed on the upper screen unit 11 to allow air-sparging for air aeration, (5); And an outlet valve (6) connected to an upper portion of the partition plate (12) by an upper pump and connected to an upper pump and connected to an upper pipe and a lower pipe to connect the lower screen portion (13) 11; an air-stripping outflow pipe (9) installed to move the air- The upper screen part is sprayed on the upper screen part by the air-stripping outflow pipe (9) fixed to the center of the casing casing by a fixing support and air-stripping (9) An air-stripping inflow pipe 3 installed to enable air-stripping; The air diffusing pipe 5 is connected to the inflow pipe 3 for air-stripping and the air-stripping inflow pipe 3 for air-sparging, (SVE) from the inflow valve 15 for air-sparging, the outflow valve 17 for air-stripping and the inflow valve 18 for air-stripping, And an outlet valve (16) for the extractions are installed on the upper and lower surfaces, respectively, and a tubular lid (14) connected to the tubular housing by bolts and nuts,
The air diffusing inlet pipe 5 is provided at its end with an air diffusing pipe 5 'and the air-sparging inlet valve 15 and the air- The pipe 5 is connected to the ozone generator so as to be oxidized,
A spray nozzle 3 'is installed at the end of the air-stripping inflow pipe 3 and an inflow valve 18 for air-stripping and an inflow port for air- The piping 3 is connected to the oxidant tank, and is installed so that the oxidant can be charged and oxidized,
Characterized in that the outlet valve (16) for the soil vapor extraction (SVE) is connected to a vacuum pump so as to be able to extract soil vapor by vacuum. delete delete delete delete delete delete

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