KR100397764B1 - Restitutive apparatus for polluted soil driving by vehicles - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle-driven contaminated soil restoring apparatus, wherein a predetermined pressure gradient is selectively formed on a plurality of well members installed in the ground of a contaminated area where soil contamination occurs, thereby preventing a gas-liquid contaminant present in the soil. Extraction means provided with a first pumping member for providing a predetermined pumping force so as to be extracted; Air injecting means provided with a second pumping member for providing a predetermined pumping force to suck air in the atmosphere and selectively inject the air into the wells so as to biodegrade contaminants in the ground; And a vehicle in which both the extraction means and the air injection means are selectively installed, and a vehicle having power transmission means for driving the first and second pumping members, respectively, via power output from a predetermined power source. The present invention provides a vehicle-driven contaminated soil restoration apparatus having a structure that can be easily moved and uses a power source of a vehicle without using a generator even if a separate power source is not provided.

Description

Vehicle driven polluted soil recovery device

The present invention relates to a vehicle-driven polluted soil restoration apparatus, and more particularly, a vehicle-driven polluted soil having a structure capable of restoring soil contaminated with oil using a power source of the vehicle even under adverse conditions such as terrain. It relates to a recovery device.

In recent years, as the industrialization accelerates, the consumption of oil increases rapidly, and the soil pollution caused by oil becomes a serious environmental problem in proportion to the increase of the oil storage facility and the traffic handling volume.

As such, the technology for restoring soil contaminated by oil is classified into physical, chemical, and biological technologies according to the restoration method, and in-situ and ex-situ technologies are used according to the location of restoration. Are classified. And, depending on the contaminated media (media) can be classified into soil and groundwater.

The underground treatment method forms the air between the soil with a pressure gradient lower than atmospheric pressure to make the soil in a vacuum state, and when the air is extracted to the outside, the volatile and semi-volatile pollutants existing between the pores of the soil are vaporized and Soil Vapor Extraction (SVE) using the principle that is discharged along with the air, and Bio Venting (BV) that increases the activity of microorganisms by forcibly injecting air into the soil to increase the oxygen concentration of the soil. .

However, the soil pollution restoring apparatus using the soil vapor extraction method (SVE) and the air injection method (BV) is a method for extracting the pollutants of the soil with a pumping force or injecting air into the soil by applying a predetermined power, for example. Pumping members and post-treatment equipment for the purification of contaminants extracted from the soil are provided. For example, when oil pollution occurs in bad terrain such as a rugged mountain area, heavy facilities Not only is it difficult to transport to the area, there is a problem that must be reassembled after dismantling each facility when moving to another place. In addition, when soil pollution occurs in an area where power cannot be separately supplied, there is a problem that restoration of contaminated soil is impossible or that power should be supplied with a large generator.

The present invention has been created to improve the above problems, is easy to move, vehicle-driven type having a structure capable of restoring the soil contaminated with oil by using the power source of the vehicle even under adverse conditions without a separate power source The purpose is to provide a contaminated soil remediation device.

1 is a device configuration showing a vehicle-driven polluted soil restoration apparatus according to a first embodiment of the present invention.

2 is a cross-sectional view showing the extraction means shown in FIG.

3 is a cross-sectional view showing the power transmission means shown in FIG.

Figure 4 is a device configuration showing a vehicle driven polluted soil restoration apparatus according to a second embodiment of the present invention.

Figure 5 is a device configuration showing a vehicle driven polluted soil restoration apparatus according to a third embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10 ... Well member 20 ... Extraction means

40 ... vehicle 50 ... power source

60 ... power transmission 70 ... air injection

In order to achieve the above object, the present invention, by selectively forming a predetermined pressure gradient in a plurality of well members installed in the ground of the contaminated area where soil contamination has occurred to extract the gas-liquid contaminants present in the soil. Extracting means provided with a first pumping member to provide a predetermined pumping force so that it can be provided; Air injecting means provided with a second pumping member for providing a predetermined pumping force to suck air in the atmosphere and selectively inject the air into the wells so as to biodegrade contaminants in the ground; And a vehicle in which both the extraction means and the air injection means are selectively installed, and a vehicle having power transmission means for driving the first and second pumping members, respectively, via power output from a predetermined power source. do.

The power transmission means includes: a drive pulley installed on the output side of the power source; A driven pulley installed at an input side of the first and second pumping members; And an electric belt connected to the drive pulley and the driven pulley in an endless track.

The extraction means includes: at least one vacuum vessel having a predetermined closed space for storing the contaminant extracted from the well member; And an adsorption member connected to the vacuum container through a predetermined flow path so as to suck the contaminated vapor from the contaminants in the vacuum container to adsorb the organic material present in the contaminated vapor and discharge the pure steam from which the organic material is removed to the outside. It is preferable to have a.

The suction member includes: at least one suction tank having a predetermined accommodation space; A suction port provided in the suction tank to selectively communicate the sealed space of the vacuum container with the receiving space of the suction tank; Activated carbon provided in the suction tank to adsorb organic substances present in the contaminated vapor sucked into the accommodation space of the suction tank; And a discharge port provided in the suction tank to discharge the pure steam from which the organic material has been removed while passing through the activated carbon to a predetermined outside.

Preferably, the air injection means includes: an air tank connected to a predetermined flow path with the air so as to selectively in communication with the air to inject air sucked from the air into the well member.

Therefore, the present invention does not need to dismantle each facility when transporting the various facilities to the contaminated area, and is easy to transport, and even if a separate power source is not provided, a power source of the vehicle can be used without using a generator or the like. There is the characteristic in that it is convenient.

Hereinafter, a vehicle-driven polluted soil restoration apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, any one of extraction means for extracting contaminants from contaminated soil and air injection means for biodegrading contaminants by injecting air into the contaminated soil is mounted on the vehicle, or both the extraction means and the air injection means are provided in the vehicle. It can be mounted, and has a structure for operating the extraction means and the air injection means by using the power of the vehicle.

1 is a vehicle-driven contaminated soil restoring apparatus according to a first embodiment of the present invention, in which an extraction means 20 is mounted on a vehicle 40.

As shown in FIG. 1, the vehicle-driven polluted soil restoring apparatus according to the first embodiment selectively forms a predetermined pressure gradient in a plurality of well members 10 inserted into the ground of a polluted area to form a gas-liquid phase. Extraction means 20 with a first pumping member 21 and the extraction means 20 is installed to extract the pollutants of the first pumping member 21 receives the power output from a predetermined power source (50) Is provided with a vehicle (40) having a power transmission means (60) for operating.

As shown in FIG. 2, the extraction means 20 includes a vacuum container 22 for receiving contaminants extracted from the well member 10 by the first pumping member 21, and a vacuum container 22. Adsorption member 28 is provided for sucking contaminated vapor out of the received contaminants to remove organic substances present in the contaminated vapor.

The first pumping member 21 is installed on the flow path 27 between the vacuum vessel 22 and the suction member 28 to provide a predetermined pumping force.

The vacuum container 22 includes a suction line 23 respectively connected to the well member 10 to suck contaminated vapor and contaminated water extracted from the well member 10, and a well member to allow contaminated vapor and contaminated water to flow therein. Inlet hole 24 selectively communicating with the internal space of 10), and outlet hole 25 selectively communicating with adsorption member 28 to supply volatile contaminant vapor on the gas among contaminants to adsorption member 28 side. And a discharge hole 26 for discharging the contaminated water in the liquid phase to the outside.

The adsorption member 28 includes at least one suction tank 31 connected to the vacuum vessel 22 and the flow path 27, and activated carbon 34 for adsorbing organic substances of contaminated vapor sucked into the suction tank 31. Equipped.

The suction tank 31 has a suction port 32 to which the flow path 27 is connected, and a discharge port 33 for discharging pure steam from which organic substances have been removed through the activated carbon 34 to the outside.

The vehicle 40 is a freight transport vehicle having a predetermined loading capacity, and is provided with a power source 50 for providing a driving force, and the extraction means 20 is mounted.

The power source 50 is a conventional automobile engine, the crank shaft 51 is provided on the output side.

As shown in FIG. 3, the power transmission means 60 includes a drive pulley 61 installed on the crankshaft 51 of the power source 50 and a driven pulley installed on an input side of the first pumping member 21. And a transmission belt 63 connected to the drive pulley 61 and the driven pulley 62 in an endless track so as to transmit power of the power source 50 to the first pumping member 21.

1 to 3, the vehicle-driven contaminated soil restoration apparatus according to the first embodiment of the present invention is to extract the gas-liquid contaminants from the contaminated soil in the ground using the extraction means 20 In this case, first, the vehicle 40 is started to rotate the crankshaft 51 of the power source 50.

Next, the input side driven pulley 62 of the first pumping member 21 is rotated by an electric belt 63 connected to the drive pulley 62 as the crank shaft 51 is rotated. Therefore, the first pumping member 21 is operated by receiving power from the power source 50.

Subsequently, the internal space of the well member 10 is maintained in a vacuum state by the pumping force of the first pumping member 21, and a predetermined pressure gradient is formed so that the contaminated vapor and contaminated water remaining in the soil are well member 10. Suction into the inner space side. That is, when the air in the soil is sucked into the inner space of the well member 10, the contaminants are sucked together with the air sucked along the most breathable area.

Next, the gas-liquid contaminants introduced into the inner space of the well member 10 may be transferred to a vacuum vessel (via a suction line 23 connected to each well member 10 by a pumping force of the first pumping member 21). 22) is sucked into the sealed space.

Subsequently, contaminant vapor among the contaminants contained in the vacuum container 22 is sucked into the accommodation space of the suction tank 31 along the flow path 27 by the pumping force of the first pumping member 21.

Next, the contaminated vapor sucked into the suction tank 31 passes through the activated carbon 34, and the organic material is adsorbed through the activated carbon 44. The pure steam from which the organic material is removed is discharged to the outside through the outlet 33 of the suction tank 31.

4 is a vehicle-driven contaminated soil restoration apparatus according to a second embodiment of the present invention, in which an air injection means 70 is mounted in the vehicle 40.

As shown in FIG. 4, the vehicle-driven polluted soil restoring apparatus according to the second embodiment is installed in the vehicle 40, and the air in the atmosphere is supplied to the well member 10 installed in the soil contaminated. It is provided with an air injection means 70 having a second pumping member 71 to inject. Since the configuration of the power transmission means 60 according to the present embodiment is the same as the electric embodiment, detailed description thereof will be omitted.

The air injection means 70 is each well member 10 and the injection line 76 to inject air sucked from the atmosphere into the well member 10 by a predetermined pumping force of the second pumping member 71. ) Is provided with an air tank (73) connected.

The second pumping member 71 is provided on the flow path 72 between the atmosphere and the air tank 73 to provide a predetermined pumping force, as in the embodiment, the vehicle 40 by the power transmission means 60 It is operated by receiving the power of the power source 50 provided in.

The air tank 73 is provided with an inlet hole 74 selectively communicating with the atmosphere via the flow path 72 and an outlet hole 75 communicating with the injection line 76.

3 and 4, the vehicle-driven contaminated soil restoring apparatus according to the second embodiment of the present invention uses the air injection means 70 mounted on the vehicle 40 to the well member 10. When air is to be injected, first, the vehicle 40 is started and the crank shaft 51 of the power source 50 is rotated.

Next, the input side driven pulley 62 of the second pumping member 71 is rotated to the transmission belt 63 connected to the drive pulley 62 as the crank shaft 51 is rotated. Therefore, the second pumping member 71 is operated by receiving power from the power source 50.

Subsequently, air in the air is sucked by the pumping force of the second pumping member 71 and supplied to the internal space of the air tank 73 through the flow path 72, while maintaining a predetermined pressure in the air tank 73. It is received and supplied to each well member 10 through the injection line 76.

5 is a vehicle-driven contaminated soil restoration apparatus according to a third embodiment of the present invention, in which both the extraction means 20 and the air injection means 70 are mounted on the vehicle 40.

As shown in FIG. 5, the vehicle driven polluted soil restoring apparatus according to the third embodiment includes an extraction means 20 and an air injection means 70 installed in the vehicle 40. Since the configuration of the extraction means 20 and the air injection means 70 is the same as the above embodiment, a detailed description thereof will be omitted.

The power transmission means 60 according to the present embodiment is the same as the electric embodiment, except that a pair of drive pulleys 61 are installed on the crank shaft 51 of the power source 50.

3 and 5, the vehicle-driven contaminated soil restoration apparatus according to the third embodiment of the present invention by using the extraction means 20 and the air injection means 70 installed at the vehicle 40 at the same time When contaminants are extracted from the well member 10 and air is to be injected into the well member 10, the crank shaft 51 of the power source 50 is rotated by starting the vehicle 40. Then, the input side driven pulleys 62 of the first and second pumping members 21 and 71 are rotated by the electric belt 63 connected to the drive pulley 62 as the crank shaft 51 is rotated. Accordingly, the first and second pumping members 21 and 71 are operated by receiving power from the power source 50.

Therefore, since the present embodiment has a structure in which the first and second embodiments are integrated, contaminants can be extracted from the well member 10 by the operation of the first and second embodiments, and at the same time, the well member It is also possible to inject air into (10).

As described above, the vehicle-driven polluted soil restoration apparatus according to a preferred embodiment of the present invention has the following effects.

First, when transporting all the facilities to the contaminated area, there is no need to dismantle each facility, it is easy to transport.

Second, even if a separate power source is not provided, the power source of the vehicle can be used without using a generator and the like, and the cost is reduced.

Claims (5)

A first pumping member providing a predetermined pumping force to extract a gas-liquid contaminant present in the soil by selectively forming a predetermined pressure gradient in a plurality of well members installed in the ground of the contaminated area where soil contamination has occurred Extraction means provided; Air injecting means provided with a second pumping member for providing a predetermined pumping force to suck air in the atmosphere and selectively inject the air into the wells so as to biodegrade the pollutants in the ground; And And a vehicle having a power transmission means for driving the first and second pumping members, respectively, by means of power output from a predetermined power source. The method of claim 1, The power transmission means is: A drive pulley installed on an output side of the power source; A driven pulley installed at an input side of the first and second pumping members; And And an electric belt connected to the drive pulley and the driven pulley on an endless track. The method of claim 1, The extraction means is: At least one vacuum vessel having a predetermined closed space for storing the contaminant extracted from the well member; And An adsorption member connected to the vacuum container and a predetermined flow path to suck the contaminated vapor from the contaminants in the vacuum container to adsorb the organic material present in the contaminated vapor and discharge the pure steam from which the organic material has been removed to the outside; Vehicle-driven polluted soil restoration apparatus characterized in that it comprises. The method of claim 3, The adsorption member is: At least one suction tank having a predetermined accommodation space; A suction port provided in the suction tank to selectively communicate the sealed space of the vacuum container with the receiving space of the suction tank; Activated carbon provided in the suction tank to adsorb organic substances present in the contaminated vapor sucked into the accommodation space of the suction tank; And And a discharge port provided in the suction tank to discharge pure steam from which organic substances have been removed while passing through the activated carbon to a predetermined outside. The method of claim 1, The air injection means is: And an air tank connected to a predetermined flow path to the air so as to inject air sucked from the air into the well member selectively communicated with the air.