KR100473394B1 - Apparatus for extracting organic compounds for soil and groundwater remediation - Google Patents

Abstract

The present invention relates to an organic compound extraction apparatus for the restoration of soil and groundwater, the tube-type extraction well is formed with a transmission screen for the fluid inflow in a certain section of the underground buried; An extraction tube accommodated in the hollow of the extraction well; Suction means communicating with an upper end of the extraction tube to provide a suction force; A naples container coupled to the extraction tube in a state in which a suction port at the bottom of the extraction tube is accommodated therein and having a saw blade-shaped ware formed along an upper edge thereof so that the naples flow into the inner receiving space; And a floating member installed in the naple container and providing a buoyancy force so that the naple container floats on the surface of the ground water introduced into the extraction well. The naple container floats on the ground water surface even when the groundwater level is changed. An extraction apparatus is disclosed, characterized in that the extraction tube is stretchable to maintain.

Description

Apparatus for extracting organic compounds for soil and groundwater remediation}

The present invention relates to an organic compound extraction apparatus for the restoration of soil and ground water, in particular vapor-phase organic compounds in the soil and liquid organic compounds flowing on the groundwater surface LNAPL (Light Nonaqueous Phase Liquid; And an extractor for extracting naples).

Commonly used purification techniques for on-site restoration of contaminated soil and groundwater include the SVE technique, which extracts volatile organic compounds (VOC) in the soil under vacuum pressure, oxygen and nutrients in the soil. BV technique to remove organic compounds by activating the biodegradation activity of microorganisms by injecting fluoride, and AS (Air Sparging) technique to transfer VOC dissolved in ground water to gaseous phase by removing air by injecting air into groundwater and then removing it by vacuum extraction. I can lift it.

These techniques can remove low concentrations of VOCs or biodegradable organic compounds dissolved in unsaturated areas or groundwater in the soil. In particular, extraction techniques are only available for gaseous organic compounds.

As a technique for simultaneously extracting an unsaturated layer in the soil and an organic compound distributed in high concentration on the groundwater surface, which has recently been attracting attention, the vapor and groundwater layer in the soil S are partially enlarged and shown in FIG. A screen 1a having a plurality of inlets is formed in the extraction pipe 1 to allow the groundwater of (W) to flow therein, and the water separator 4 is provided in the inner hollow of the vapor extraction pipe 2. Steam and groundwater are separately extracted by performing a process of extracting steam using a blower (5) and a process of extracting and treating groundwater through an underground water extraction pipe (3) additionally installed in the hollow of the extraction pipe (1). A dual phase extraction (DPE) process may be mentioned.

The DPE process is easy to control each operation because the groundwater extraction process and the soil steam extraction process are independent of each other, but the equipment is complicated and expensive to install, and operation is unstable due to frequent failure of submerged submersible pump submerged in groundwater. There is a problem, because the excessive amount of groundwater is discharged is not easy to reprocess it.

As another extraction technique, as shown in FIG. 2, the suction pipe 6 is installed in the hollow of the extraction pipe 1 on which the screen 1a is formed, and the water separator 4 is provided in a single unit. TPE (Two Phase Extraction) process is known to separate the soil vapor and ground water using the pumping unit 5 of the same method and then separate the water through the discharge pump (7).

However, in the case of the TPE process, only the naples floating on the surface of the groundwater cannot be selectively extracted, so the amount of groundwater discharged is large, resulting in a costly facility for separating the organic compounds in the gas phase and the liquid phase from each other. In particular, when the groundwater level rises sharply, excessive inflow of naples and groundwater reduces the performance of soil steam extraction and the reprocessing cost of the extracted groundwater, and when the groundwater level drops rapidly, the suction pipe (6). Since the amount of naples and groundwater flowing into the water is significantly reduced, a high vacuum pressure is required for pumping. Accordingly, a small pumping means such as a blower may not be used as the pumping part 5.

The present invention has been made to solve the above problems, an object of the present invention is to provide an extraction device that can be separated by the extraction of groundwater and the naples floating on the groundwater surface irrespective of the water level fluctuations.

It is another object of the present invention to provide an extraction apparatus for simultaneously extracting vapor phase organic compounds in naples and soil through a single suction means and a single extraction tube.

In order to achieve the above object, an organic compound extraction apparatus for restoring soil and groundwater according to the present invention includes a tube-type extraction well in which a permeation screen for fluid inflow is formed in a predetermined section of a part buried underground; An extraction tube accommodated in the hollow of the extraction well; Suction means communicating with an upper end of the extraction tube to provide a suction force; A naples container coupled to the extraction tube in a state in which a suction port at the bottom of the extraction tube is accommodated therein and having a saw blade-shaped ware formed along an upper edge thereof so that the naples flow into the inner receiving space; And a floating member installed in the naple container and providing a buoyancy force so that the naple container floats on the surface of the ground water introduced into the extraction well. The naple container floats on the ground water surface even when the groundwater level is changed. The extraction tube is characterized in that it has elasticity to maintain.

Preferably, the extraction tube has elasticity by being made of a flexible polymer material which is spirally wound in a predetermined number of turns.

The present invention is characterized in that the steam inlet is further formed on one side of the extraction tube so that the vapor phase organic compound in the soil flows into the extraction tube.

A water separator is interposed between the extraction tube and the suction unit to separate water from the extracted fluid.

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

First, Figure 3 is a side cross-sectional view schematically showing the configuration of an organic compound extraction apparatus according to an embodiment of the present invention. Referring to the drawings, the present invention is the extraction well 10 is inserted into the soil, the extraction pipe 11 accommodated in the extraction well 10, the naple container 13 is installed on the lower end of the extraction pipe (11) And suction means 15 which communicates with the top of the extraction tube 11 and provides suction power.

Extraction well 10 is a tube in the form of a tube, the bottom of which is open, so that a certain section of the buried part underground so that fluid such as soil steam or groundwater can be easily introduced into the hollow inside the extraction well 10 A transmission screen 10a having a plurality of inlets is formed.

The extraction pipe 11 accommodated in the inner hollow of the extraction well 10 supports the naples container 13 installed at the lower end thereof with elasticity, and sucks the naples contained in the naples container 13 to the ground. Corresponds to the discharge pipe.

At this time, as the suction means 15 for providing the suction force to the extraction pipe 11, various means such as a blower and a vacuum pump can be employed.

On the other hand, in order to stretch and support the naple container 13, the extraction tube 11 is preferably made of a polymer material that is easy to roll (rolling), for example, a spiral structure of one or two turns (Turn) number By having the expansion and contraction is made according to the height of the naples container (13). Here, the present invention is not limited to such a structure, and may be variously modified in the material and structure of the extraction pipe 11 so as to be stretched according to the vertical position change of the naple container 13 and to support the naple container 13. Of course.

The naples container 13 floating on the surface of the groundwater introduced into the extraction well 10 is, for example, a container having a shape such as a 'cup', and preferably has a saw blade-shaped weir 13a at an upper edge thereof. Is formed and only the naples flowing on the groundwater surface are introduced into the container through the weir 13a.

The naples container 13 is fixedly installed at the lower end of the extraction tube 11, the suction port of the lower end of the extraction tube 11 is located in the center of the inner receiving space to suck the received naples.

As described above, the naples container 13 is supported by the extraction tube 11 having elasticity so that the naples container 13 is positioned on the groundwater surface regardless of the water level fluctuation of the groundwater. At this time, as the naples are introduced into the naples container 13, the floating member 12 for providing buoyancy is attached to prevent the naples container 13 from sinking downward. In this case, at least one spherical buret may be preferably used as the floating member 12.

The naples accommodated in the naples container 13 are sucked toward the suction means 15 via the extraction pipe 11. At this time, it is preferable to separate the water contained in the extracted naples via the water separator 14 between the extraction tube 11 and the suction means 15.

On the other hand, according to another embodiment of the present invention is provided with an extraction device for forming a vapor inlet on one side of the extraction tube 11 to extract the vapor phase organic compound in the soil with the naples.

Figure 4 shows a preferred embodiment for this. Referring to the drawings, the extraction pipe 11 is configured to include an upper extraction pipe (11b), lower extraction pipe (11c) and the connecting pipe (11a).

Here, the upper extraction pipe (11b) is fixed to the top of the extraction well 10, the lower extraction pipe (11b) is inserted into the lower portion of the upper extraction pipe (11b). At this time, between the upper extraction pipe (11b) and the lower extraction pipe (11c) lower extraction pipe (11c) than the inner diameter of the upper extraction pipe (11b) to form an empty space, that is, the steam inlet (H) for the flow path of steam It is configured so that the outer diameter of is small. In addition, the connection pipe (11a) is further provided to fix the lower extraction pipe (11c) to the upper extraction pipe (11b). In the drawing, the arrow shows a state in which the vapor phase organic compound flows into the steam inlet (H).

Preferably, the present invention further includes an exhaust gas treatment unit 16 at the rear end of the suction unit 15 to remove the harmful substances such as VOCs from the extracted soil vapor.

Through such a configuration, when the soil vapor introduced into the extraction well 10 passes quickly through the steam inlet H, the suction pipe is generated due to the pressure drop inside the extraction pipe 11 so that the extraction pipe 11 ) At the lower part, the suction force of naples is increased and the vapor phase organic compounds in the soil can be extracted.

FIG. 5 is a view schematically showing the extraction speed distribution of the material according to the extraction pressure, in which the extraction device is constructed as described above, and in particular, in the embodiment using a small-sized blower having an output of 2 kW as the suction means 15. According to the present invention, the naples are selected and sucked from the surface of the groundwater, and at the same time, the organic compounds are extracted in the vapor phase. Therefore, even if a small vacuum blower is used, substances such as kerosene, water and diesel are extracted with high efficiency. Can be.

Then, the operation according to the features of the present invention including the above components will be described collectively.

According to the present invention, by forming the wear (13a) along the upper edge of the naple container 13, only the naples are selected and introduced into the naple container 13, the extraction pipe (in the inner space of the naple container 13) 11) the suction port is located at the lower end is discharged to the ground through the extraction pipe 11 during the driving of the suction means (15).

In particular, the naples container 13 is attached to the floating member 12 to maintain a floating state on the surface of the ground water, the extraction pipe 11 for sucking the naples while supporting the naples container 13 is preferred In addition, since it is made of a flexible polymer material including a spirally rolled portion and is stretched according to the movement of the naples container 13, the naples container 13 is constantly floating on the groundwater surface regardless of the groundwater level fluctuation. Done.

On the other hand, in the present invention, the fluid inlet (H) is further formed in the extraction pipe 11, the extraction of the soil vapor is performed with the removal of the naples. That is, the configuration of the extraction pipe 11 including the upper extraction pipe (11b) and the lower extraction pipe (11c) is inserted into the upper extraction pipe (11b) to form a fluid inlet (H) that is a flow passage of the fluid Through, the soil steam introduced into the extraction well 10 is sucked into the extraction pipe 11 through the fluid inlet (H), at this time the suction force is added due to the pressure drop inside the extraction pipe 11 is high Efficient extraction of naples and vapor phase organic compounds is achieved.

In the above, preferred embodiments of the present invention have been described with reference to the accompanying drawings. Herein, the terms or words used in the present specification and claims should not be interpreted as being limited to the ordinary or dictionary meanings, and the inventors properly define the concept of terms in order to explain their own invention in the best way. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that it can. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

The organic compound extracting apparatus according to the present invention has an effect that can remove and select the naples from the ground water because the nap container formed with the wear.

In addition, since only the naple can be sucked in this way, it is possible to use a suction means or a small water separator having a small vacuum pressure, such as a blower, thereby reducing the installation cost.

In addition, because the flexible and flexible extraction pipe to support the naples container regardless of the water level fluctuations of the groundwater to extract the naples, there is an advantage that can be solved economically and effectively solve the pollution problem in the region of fluctuating groundwater.

The following drawings attached to this specification are illustrative of preferred embodiments of the present invention, and together with the detailed description of the invention to serve to further understand the technical spirit of the present invention, the present invention is a matter described in such drawings It should not be construed as limited to

1 is a diagram showing the configuration of a DPE system according to the prior art.

2 shows a configuration of a TPE system according to the prior art.

3 is a view showing the configuration of an organic compound extraction apparatus according to an embodiment of the present invention.

4 is a view showing the configuration of an organic compound extraction apparatus according to another embodiment of the present invention.

FIG. 5 is a graph showing an example of distribution of organic compound extraction speeds according to extraction pressure when a 2kw blower is used as the suction means in FIG. 4; FIG.

<Description of main reference numerals in the drawings>

10 ... Extraction well 10a ... Transmission screen 11 ... Extraction tube

12 ... Floating member 13 ... Nipple container 13a ... Wear

14 ... Moisture separator 15 ... Suction means

Claims (5)

An extraction well 10 having a tube shape in which a transmission screen 10a for fluid inflow is formed in a predetermined section of a portion buried underground; An extraction tube 11 accommodated in the hollow of the extraction well 10; Suction means 15 in communication with an upper end of the extraction tube 11 to provide a suction force; Coupled to the extraction tube 11 in the state in which the suction port of the lower end of the extraction tube 11 is accommodated therein, saw blade shaped ware (13a) is formed along the upper edge so that the naples flow into the inner receiving space A naples container 13; And And a floating member 12 installed in the naple container 13 to provide buoyancy so that the naple container 13 floats on the surface of groundwater introduced into the extraction well 10. Extraction apparatus, characterized in that the extraction pipe (11) has a stretch so that the naple container (13) is floating on the groundwater surface even in the water level fluctuations of the groundwater. The method of claim 1, The extraction tube (11) is characterized in that the extraction device is made of a flexible polymer material which is rolled in a spiral of a predetermined number of turns to have elasticity. The method of claim 1, Extraction apparatus, characterized in that the steam inlet (H) is further formed on one side of the extraction tube (11) so that the vapor phase organic compound in the soil flows into the extraction tube (11). The method of claim 3, wherein The extraction pipe 11, An upper extraction pipe 11b fixed to the upper extraction well 10; A lower extraction tube (11c) inserted into the lower portion of the upper extraction tube (11b) in a state where an empty space is formed between the outer diameter and the inner diameter of the upper extraction tube (11b); And And a connecting pipe 11a for fixing the lower extraction pipe 11c with respect to the upper extraction pipe 11b. Extraction apparatus, characterized in that the empty space corresponds to the steam inlet (H). The method according to claim 1 or 3, And a water separator (14) interposed between the extraction tube (11) and the suction means (15) for separating water from the extracted fluid.