KR101789255B1 - Vertical drains for selective extraction of pollutant and system for improving and purifying polluted soil using the same - Google Patents

Abstract

The present invention relates to a vertical drainage which is typed in a contaminated soil and comprises a porous core and a filter which surrounds the core and has a hydrophobic coating layer applied on the outer periphery thereof.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vertical drainage material capable of selectively extracting contaminants and a contaminated soil improvement and purification system using the same.

The present invention relates to a vertical drainage material capable of selectively extracting pollutants in a complex contaminated soil, and particularly to an improved drainage efficiency of organic pollutants and an improved contaminated soil, and a contaminated soil improvement and purification system using the same.

In recent years, the importance of the soil environment, which is affected by development projects due to heightened soil and groundwater pollution due to waste and toxic chemicals generated by population growth and industrial development, is emerging.

In particular, toxic chemicals in industrial complexes and urban residential areas, oil contaminated soil spilled in coastal areas, leachate and acid mine drainage from abandoned abandoned mines, heavy metal soil contamination at shooting ranges, and secondary pollution due to foot and mouth disease The problem of contamination of soil and groundwater has been highlighted.

Soil remediation technology, soil steam extraction method, pumped water treatment method, and bio venting method are widely used as field restoration techniques for contaminated areas.

The dual soil cleaning method (system) is to be used for the soil and saturated soil mainly because it is required to induce the flow of water (washing liquid) in the soil. It contains high concentration of heavy metals and harmful substances densely populated in city area, It is difficult to extract water (cleaning liquid) and pollutants from the landfill with low permeability.

To solve such a problem, Korean Patent Registration No. 10-1195401 and the like disclose a system and a method for purifying soil using a plurality of vertical drainage materials.

In the case of soil contaminated with organic pollutants and heavy pollutants, the vertical effluent presented in the above technologies may be subjected to mechanical treatment to reduce the purification efficiency itself or to separate treatment of the complex There is a problem that it is impossible to expect the purification of contaminated soil efficiently.

Korean Patent Registration No. 10-1195401

An object of the present invention is to provide a vertical drainage material which can be used even in a low permeability ground and can be efficiently purified through selective extraction of pollution sources in a complex contaminated soil, and a contaminated soil improvement and purification system using the same.

To achieve the above object, the present invention provides a vertical drainage material capable of selectively extracting heavy metals, which is typed in a contaminated ground and includes a porous core and a filter wrapped around the core and coated with a hydrophobic coating layer on the outer periphery thereof .

As one example, the hydrophobic coating layer is formed by application of a hydrophobic surfactant.

In addition, the hydrophobic coating layer is characterized in that 1 to 3 parts by weight of olefin sulfate is added to 100 parts by weight of the hydrophobic surfactant.

As an example, the core may be constructed such that a plurality of induction holes are formed therein, and the support is embedded in the support in which a space is formed.

Meanwhile, the contaminated soil improvement and purification system using the vertical drainage material capable of selectively extracting heavy metals according to the present invention includes: the vertical drainage material having a plurality of types in the contaminated ground; An injection pump connected to a part of the vertical drainage material through a first line and injecting the injection liquid into the vertical drainage material; A vacuum blower connected to a part of the vertical drainage material by a second line to suck contaminants from the vertical drainage material; And an electrolytic water generator connected to the second line by a valve to inject the electrolytic water into the second line.

The present invention has the advantage of improving the treatment efficiency of a complex pollutant source through selective extraction of pollutants in the soil as well as soil improvement in a complex contaminated soil.

1 is a schematic view showing a vertical drainage material of the present invention;
2 is a cutaway view showing one embodiment of the vertical drainage material of the present invention.
3 is an operational state diagram illustrating a system of the present invention;

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, terms and words used in the present specification and claims are to be construed in accordance with the principles of the present invention, on the basis that the inventor can properly define the concept of a term in order to best explain his invention It should be construed as meaning and concept consistent with the technical idea of.

A vertical drainage material 100 (hereinafter, referred to as "vertical drainage material") capable of selectively extracting heavy metals according to the present invention is typed within a contaminated ground and includes a porous core 110 and a hydrophobic coating layer 121 surrounding the core 100, And a coated filter (120).

The vertical drainage member 100 may include a fixed and a removable filter 120 that surrounds the core 110 and the core 110. The fixed type core 110 and the filter 110 120) is attached to the main body 100. In the separated type, the two parts are separated.

The core 110 should have sufficient strength to resist the earth pressure because the vertical drainage 100 of the present invention must also exhibit the function of ground improvement. In addition, the core 110 should have a sufficient water permeability to guide the infusion liquid, contaminants, and the like, which flow in and out, smoothly upward and downward, and it is proper to have a porous material.

It is appropriate that the filter 120 uses a nonwoven fabric or the like having a structure capable of blocking soil particles that can flow into the core 110 from the ground and allowing the injected solution and contaminants to pass through the filter 120 .

As the material of the filter 120, it is preferable to adjust the particle size of the nonwoven fabric according to the particle size distribution of the soil to prevent the blocking phenomenon. Here, the clogging phenomenon refers to a phenomenon in which the soil particles are separated from the soil matrix and then moved by the flow of the fluid in the gap of the nonwoven fabric, thereby filling the gap of the nonwoven fabric. It is appropriate to prevent the inflow of the injection material, pollutant, etc.

In addition, if lateral pressure such as water pressure is generated due to the clogging phenomenon, the durability of the vertical drainage material 100 is lowered. In order to prevent this, it is proper to control the particle size of the nonwoven fabric according to the ground conditions.

Particularly, in the present invention, the filter 120 is characterized in that a hydrophobic coating layer 121 is applied to the outer periphery thereof. The reason for using the filter 120 coated with the hydrophobic coating layer 121 is as follows. As shown in FIG. 1, in the case of a complex contaminated soil, heavy metals and organic pollutants exist as a pollution source. The vertical drainage material 100 ), When the complex source is inhaled in the ground, it is hydrophobic in the case of a solution containing heavy metals and organic pollutants, which are present in a cost zone or a dissolved form in water or the like, and organic pollutants, so that they pass through the hydrophobic coating layer 121 And is discharged through the core 110. In the case of a solution containing a heavy metal, the hydrophilic coating layer 121 is controlled or the permeation rate is delayed.

That is, the organic contaminant P1 in the complex pollutant source P passes through the filter 120 coated with the hydrophobic coating layer 121 and is discharged to the outside, and the permeation of the heavy metal P2 is controlled by the hydrophobic coating layer, And to increase the efficiency of pollutant discharge. As a result, it is possible to enhance the purification efficiency of the contaminated soil through selective extraction.

For example, the hydrophobic coating layer 121 may be formed by applying a hydrophobic surfactant. Examples of the hydrophobic surfactant include a polyoxyethylene stearyl ether derivative (POLYOXYETHYLENE STEARYL ETHER DERIVATIVES), a sorbitan fatty acid ester derivative (SORBITAN FATTY ACID ESTER DERIVATIVES) and a polyoxyethylene oleylamine derivative (POLYOXYETHYLENE OLEYLAMINE DERIVATIVES). It is preferable that the hydrophobic surfactant has an HLB value of 3 to 9.

Here, the HLB value is a value indicating the characteristics of the surfactant, and is a value given to the balance between the hydrophilic group and the lipophilic group in the molecules of the surfactant. This value indicates the polarity of the molecules in any range of 0.1 to 40. The larger the hydrophilicity, the larger the HLB value. On the contrary, the larger the lipophilic property, the smaller the HLB value.

Particularly, in this embodiment, the hydrophobic coating layer 121 shows an example in which 1 to 3 parts by weight of olefin sulfate is added to 100 parts by weight of the hydrophobic surfactant. The reason that olefin sulfonate is further added is that the hydrophobic surfactant The air is traversed by the olefinic sulphonate, which increases the surface tension of the air, thereby suppressing the spreading.

The reason why the air is introduced into the hydrophobic coating layer 121 and the air is preserved without puffing is that the chemical solution such as the oxidizing agent and the electrolytic water described below generate heat when the organic contaminants are decomposed in the filter 120, Is blocked through the hydrophobic coating layer 121 to increase the decomposition efficiency of the organic contaminants. In particular, by blocking heat in the hydrophobic coating layer 121, the decomposition efficiency of the organic contaminants is increased, thereby preventing the filter 120 from being blocked.

In addition, the present invention further provides the structure of the support 130 as shown in FIG. 2 in an embodiment for doubling the effect of ground improvement (reinforcement) in the ground and preventing the closure of the filter 120. The support 130 has a plurality of induction holes 131 formed therein and a space is formed therein to house the core 110 and the support 130 is embedded in the filter 120.

The supporting body 130 reinforces the strength of the core 110. The structure of the induction hole 131 allows the filter 120 and the core 110 to communicate with each other, The filter 120 forms a clearance with the core 110 in the induction hole 131. Due to the clearance, the vertical drainage material 110 of the present invention can prevent the injection of the injection material, The filter 120 is repeatedly expanded and contracted in the transverse direction at the portion of the induction hole 131.

By this action, contaminants including heavy metals that have been deposited on the filter 120 are removed from the filter 120, thereby preventing the filter 120 from being blocked.

3, the present invention also provides a system for improving and cleaning contaminated soil using the vertical drainage material (hereinafter referred to as " system of the present invention ").

3, the system of the present invention comprises a plurality of types of vertical drainage materials 100 in the contaminated ground; An injection pump 200 connected to a part of the vertical drainage material 100 by a first line 11 to inject the injection liquid into the vertical drainage material 100; A vacuum blower 300 connected to a part of the vertical drainage material 100 by a second line 12 to suck contaminants from the vertical drainage material 100; And an electrolytic water generator 600 connected to the second line 12 by a valve to inject the electrolytic water into the second line 12.

The injection pump 200 is connected to the vertical drainage material 100 and injects the injection material C into the vertical drainage material 100. The injection pump 200 may be of a known construction .

The injection material is injected into the vertical drainage material 100 connected to the injection pump 200 due to the operation of the injection pump 200 so that the injection material flows on the core 110 through the filter 120, So that the injection material flows into the ground 10. In this way, the complex pollutant source P is liquefied or vaporized by the introduction of the injection material into the ground 10 to induce the flow of pollutants. The flow of pollutants in the ground 10 is controlled by the vacuum blower 300, So that they can be discharged to the outside for processing.

The vacuum blower 300 is connected to the vertical drainage material 100 and discharges contaminants in the ground 10 to the outside through the vertical drainage material 100. As described above, The vertical drainage material 100 filters the heavy metal P2 by the action of the hydrophobic coating layer 121 in the filter 120 and causes the organic contaminant P1 to flow out.

In the case of the vacuum blower 300, a known configuration may also be used. The inside of the vertical drainage member 100 connected to the vacuum blower 300 is vacuumed due to the operation of the vacuum blower 300 so that the heavy metal P1 flows into the vertical drainage member 100 from the soil, The contaminant P1 flows upward through the core 110 while flowing upward. That is, the vertical drainage member 100 allows the organic contaminants P1 to flow on all sides of the filter 120 and to flow out through the core 110 while moving.

In particular, the system of the present invention includes an electrolytic water generator 600 connected to the second line 12 by a valve to inject electrolytic water into the second line 12. The reason for this is that the vacuum blower The heavy metal and only the organic contaminants remaining in the filter 120 are concentrated in the process of filtering the heavy metal through the vertical drainage member 100 and selectively extracting only the organic pollutants, In this case, the operation of the vacuum blower 300 is stopped and the electrolytic water generator 600 is operated to inject the electrolytic water (i) into the second line 12.

The electrolytic water thus injected is transferred from the vertical drainage 100 to the filter 120 through the core 110. The electrolytic water transferred to the filter 120 dissolves heavy metals and residual organic contaminants deposited on the filter 120, So that the filter 120 is prevented from being deposited by removing heavy metals and organic contaminants.

The reason for using electrolytic water for this action is to prevent secondary contamination by overuse of oxidant. The electrolytic water generating apparatus 600 uses electrolytic water as the acidic water and the alkaline water generated from the electrodes by using a known electrolytic apparatus.

When the heavy metal immersed in the vertical drainage member 100 connected to the second line 12 and the remaining organic contaminants are removed by the operation of the electrolytic water generating apparatus 600, the vacuum blower 300 is operated and the heavy metal And the remaining organic contaminants are extracted. The heavy metal and the remaining organic contaminants thus extracted are mixed with the organic pollutants in the vertical drainage material 100 as well as heavy metals from the complex pollutant source P, So that the extraction efficiency of the heavy metal can be increased by the operation of the electrolytic water generator 600. [

When the injection pump 200 and the vacuum blower 300 are connected to the plurality of vertical drainage materials 100, the vertical drainage material 100 is inspected by examining the distribution and concentration of contaminants in the ground 10 in advance, An injection pump 200 is connected to the vertical drainage material 100 corresponding to the drainage material 100-2 and a vacuum blower 300 is connected to the vertical drainage material 100 corresponding to the extraction drainage material 100-1 will be.

In addition, it is appropriate to prevent the occurrence of vacuum loss due to the operation of the subsequent vacuum brush 300 by placing the membrane 500 on the ground surface when the vertical drainage material 100 is in the type.

100: vertical drainage material 110: core
120: filter 200: injection pump
300: vacuum blower 600: electrolytic water generating device

Claims (5)

And a filter coated with a hydrophobic coating layer on the outer periphery of the porous core to surround the core so as to enable selective extraction of organic pollutants in a complex pollution source by a hydrophobic coating layer,
Wherein the cores are configured such that a plurality of induction holes are formed in a support having a space formed therein and the support is embedded in the filter, wherein the filter and the core in the induction hole are mutually spaced, Characterized in that the filter is configured so as to repeatedly expand and contract in the transverse direction in the induction hole portion during the injection operation and the suction operation of the contaminant so that the contaminants deposited on the filter are desorbed,
Wherein the hydrophobic coating layer comprises 1 to 3 parts by weight of olefin sulfate in order to terminate heat by the hydrophobic coating layer with respect to 100 parts by weight of the hydrophobic surfactant.
delete delete delete The vertical drainage unit according to claim 1, wherein the vertical drainage unit is of a plurality of types in the contaminated ground.
An injection pump connected to a part of the vertical drainage material by an injection line to inject the injection liquid into the vertical drainage material;
A vacuum blower connected to a part of the vertical drainage material by a suction line and sucking contaminants from the vertical drainage material;
An electrolytic water generator connected to the suction line by a valve to inject electrolytic water into the suction line;
Wherein the pollutant is removed from the surface of the soil.

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