KR101259829B1 - purification processing apparatus of pollution ground using bubble ozone water - Google Patents

Abstract

The present invention relates to an apparatus for purifying polluted soil using microbubble ozone water. The present invention relates to a microbubble type ozonated water having a fine size in microcracks generated in the soil by air injected into a plurality of wells installed in the polluted soil. By injecting the polluted soil is to be smoothly cleaned quickly.
To this end, the present invention comprises a plurality of wells installed in the soil soil, and the air injection station comprising an air compressor and an air flow line to inject air into each of the wells to generate microcracks in the soil soil An ozone water injector unit for injecting microbubble type ozone water into the microcracks formed in the ground of the soil contaminated by the pressure of the air sent from the air compressor of the air injector unit is provided.

Description

Purification processing apparatus of pollution ground using bubble ozone water}

The present invention relates to a purification apparatus for purifying polluted soil, and more particularly, a microbubble having a fine size into microcracks generated in soil soil by air injected into a plurality of wells installed in contaminated soil. The present invention relates to an apparatus for purifying polluted soil using microbubble ozonated water, which injects ozone water in a form to smoothly purify the polluted soil within a short period of time.

As a method of purifying existing polluted soil, a purification well is installed in the contaminated soil zone and a method of infiltrating an oxidant by gravity through the purification well is used, or the high pressure spray using a high pressure spraying device having a fine nozzle attached thereto. The fine nozzles of the apparatus are embedded in contaminated soil and then the chemical liquid (purifier) is injected directly into the contaminated soil through the fine nozzle.

However, in the case of the former soil pollution treatment method, the transfer efficiency of the oxidant due to gravity infiltration is very low in the case of the low permeability ground of clay, and in the latter case, the ground fracture and the chemical liquid (oxidant) by a fine nozzle , Purifying agent, etc.) is made at the same time has the problem that the backflow of the chemical liquid occurs according to the stress state of the ground.

The present invention has been proposed to solve the problems in the prior art as described above, install a plurality of wells in the contaminated soil, install an air injection unit for generating a microcracks in the soil soil, and having a fine size The microbubble type ozone water is microcracked by injecting the microbubble type ozone water generated by the ozone water injection device into fine cracks by providing an ozone water injection device that generates and injects microbubble water into the microcracks. As the effective flow within the micrometer increases, the effective influence radius is extended and the time for the presence of microbubble ozone water in the microcracks is extended, so that the contaminated soil is smoothly purified and the purification efficiency is improved. The purpose is to increase the.

The present invention for achieving the object as described above, in the contaminated soil purification processing apparatus for purifying contaminated soil, a plurality of wells installed in the ground of the contaminated soil and fine cracks in the ground of the contaminated soil An air injector unit including an air compressor and an air flow line to inject air into each well to generate air, and a fine formed in the ground of contaminated soil generated by the pressure of air sent from an air compressor of the air injector unit There is provided an apparatus for purifying contaminated soil using microbubble ozone water, characterized in that an ozone water injection device is provided for injecting ozone water in the form of microbubbles into the crack.

In addition, the present invention, the ozone water injector unit, the ozone generator for generating ozone, the solution tank containing the solution, the ozone discharged from the ozone generator and the solution discharged from the solution tank are respectively introduced microbubble having a fine size An ozone water tank for aeration while supplying ozone to the solution to form a type of ozone water, an ozone water injection pump for pumping the ozone water to supply the microbubble type ozone water discharged from the ozone water tank, and the ozone water injection An apparatus for purifying polluted soil using microbubble ozone water, which is installed between a pump and each well, and forms an flow path for the flow of microbubble ozone water supplied to each well by an ozone water injection pump. Is provided.

In another aspect, the present invention, in order to increase the flow rate of ozone water discharged from the ozone water aeration tank by the ozone water injection pump and sent to each well through the ozone water injection line to the compressed air sent from the air compressor of the air injection device to the ozone water injection line Provided is a treatment apparatus for polluting soil using microbubble ozone water, characterized in that it is characterized in that.

In addition, the present invention, the contaminated soil using microbubble ozone water, characterized in that the surplus ozone injection line is formed between the ozone detonation tank and each well to form the excess ozone flow path to inject the surplus ozone generated in the ozone detonation tank into each well. A purification treatment apparatus is provided.

According to the present invention made as described above, install a plurality of wells in the soil soil without excavation work of the contaminated soil, install an air injection unit to generate a myriad of fine cracks in the soil soil, fine size By generating an ozone water in the form of microbubble having an ozone and injecting it into each microcrack, by injecting the ozone water in the form of microbubble easily into the myriad microcracks formed in the soil of the contaminated soil as well as the injected As the length of time that the microbubble ozone water is present increases not only the radius of the effective influence of the soil contaminated by the microbubble ozone water, but also contaminates the soil contaminated by the pollutant in a short period of time. Of the contaminated soil It is effective to increase the purification treatment efficiency.

1 is a system diagram showing an apparatus for purifying polluted soil using the present invention microbubble ozone water.
Figure 2 is a system diagram showing the configuration of the ozone water injector unit in the contaminated soil purification apparatus using the microbubble ozone water of the present invention.
3 is a use state diagram showing a state in which the present invention using a mobile device for purification of contaminated soil using microbubble ozone water.

Hereinafter, an apparatus for purifying polluted soil using microbubble ozone water according to the present invention will be described in more detail with reference to FIGS. 1 to 3.

The present invention relates to soil and groundwater contaminated by various contaminants such as volatile organic compounds (VOCs) and oils such as benzene, toluene, ethylbenzene, xylene, etc. (A) (a) is provided with a contaminant purification apparatus 100 for discharging the pollutant to the outside and chemical treatment to clean the contaminated soil (a) in a clean state.

As shown in FIG. 1, the contaminated soil purification apparatus 100 includes a plurality of wells 110, an air injection unit 120, a chemical solution supply unit 130, and a contaminant extraction unit. 140 and the ozone water injection device unit 200 are large.

Each of the wells 110 is installed to be embedded in the ground of the soil (a) without excavation of the soil (a), the contamination on the lower outer peripheral surface of each of the wells 110, which is the ground side of the soil (a) A plurality of through holes are formed in the ground of the soil (a) to discharge the air, the chemical liquid, and the ozone water from the well (110) and to introduce the pollutants contained in the contaminated soil (a) into the well (110).

Here, the air injection unit 120, the chemical liquid supply unit 130, the pollutant extraction unit 140 and the ozone water injection unit 200 is located at a position away from the top surface and the contaminated soil of the soil contaminated It may be provided to be fixed, or as shown in Figure 3, the configuration of some of the configuration of each of the device portion, that is, a heavy weight or bulky configuration can be provided to be movable in a vehicle such as a vehicle. This means that the size and location of the use and space of the purification processing apparatus 100 having various apparatuses for purifying contaminants in the contaminated soil (a), purpose of use, transportation of facilities, manufacturing conditions, and work purpose or effect. And to purify the contaminant purification apparatus 100 in accordance with various conditions.

The air injection unit 120 is provided with an air compressor 121 for generating compressed air, and the air compressor 121 has a flow path so that the air flows to send the generated air to each well 110 The air flow path 122 to be formed is connected. The air injection unit 120 is provided with an air compressor 121 and an air flow path 122, as well as a blower and a power unit (motor, etc.) to increase the pressure or speed of the air. Can be further provided

Compressed air generated by the operation of the air compressor 121 of the air injection device unit 120 is sent to the air flow path line 122, and flows into each well 110 flowing through the air flow path line 122 In addition, the introduced compressed air is discharged to the outside of the well through each through hole of each well 110, and numerous microcracks are generated in the soil of the contaminated soil by the pressure of the discharged compressed air.

That is, the air injection unit 120 is smooth in the soil of the contaminated soil (a) of the chemical liquid of the chemical liquid supply unit 130 and the microbubble type ozone water having a fine size of the ozone water injection unit 200. It is a device unit that generates a myriad of cracks in a fine size in the soil of the contaminated soil (a) by using the pressure of compressed air to inject.

The chemical solution supply unit 130 is provided with a chemical tank 131 containing the chemical liquid for cleaning the contaminated soil, and the chemical liquid tank 131 to the chemical liquid to send to each well 110 A chemical liquid flow path 132 is formed to connect a flow path so as to flow, and a chemical liquid supply pump for pumping the chemical liquid to send the chemical liquid in the chemical liquid tank 131 to the chemical liquid flow line 132 and each well 110 ( 133 is provided.

The chemical liquid is a microorganism which purifies the soil by decomposing the microorganisms by purifying the soil by oxidizing the pollutants contained in the contaminated soil (a) or by purifying the soil by the microorganisms by decomposing contaminants contained in the contaminated soil (a). There is a microbial agent, or a nutrient for supplying the nutrients necessary for the soil devastated by the pollutant (a), and the like, the chemical liquid may be selectively used in consideration of the state of the contaminated soil and the contaminated soil purification treatment.

According to the operation of the chemical liquid supply pump 133 of the chemical liquid supply unit 130, the chemical liquid contained in the chemical liquid tank 131 flows into the chemical liquid flow path 132, flows into each well 110, and each of the wells 110. The chemical liquid introduced into the) is discharged to the outside through each through hole of the well and fed into the myriad microcracks formed in the soil of the contaminated soil (a) by the air injection device 120, thereby contaminating the soil by the chemical liquid (a In addition to purifying the pollutants contained in the), it also nourishes the soil devastated by the pollutants.

The pollutant extracting device 140 is operated by a power source applied from the outside while the driving force (pumping force) is generated so that the pollutants contained in the contaminated soil (a) into each well 110, the pumping motor 141 Is installed, and the contaminated groundwater, volatile organic compounds and pollutants introduced into each well 110 by the pumping force of the pumping motor 141 to form a flow path to be introduced into the contaminant extraction device 140 The material flow line 142 is connected and installed, as well as the groundwater, volatile organic compounds and pollutants flowing in the pollutant flow path 142 by the pumping force of the pumping motor 141, as well as containing them The sludge tank 143 is provided. The pumping motor 141 may be installed at any one of the front and the rear of the sludge tank 143 in consideration of the purpose of use or the effect such as extracting the pollutants from the contaminated soil to discharge them to the outside.

In accordance with the operation of the pumping motor 141 of the pollutant extraction device 140, contaminated groundwater, volatile organic compounds, and contaminants are introduced into the well 110 through each through hole of each well 110. Contaminated ground water, volatile organic compounds and contaminants are introduced into the sludge tank 143 while flowing into the contaminant flow path 142 by the pumping motor 141 which is introduced into the 142 and continues to operate.

After a certain amount is filled in the sludge tank 143, the contaminated groundwater, volatile organic compounds and pollutants are sent to a water treatment device and a purification treatment facility installed outside the sludge tank 143, and then purified and cleaned. It is discharged to the river or sent to the purification apparatus 100 for the pollutant to be reused.

The ozone water injector 200 is mixed with ozone (O ₃ ) and a solution (hydrogen peroxide, purified clean water, etc.) to generate ozone water in the form of microbubbles, as well as formed in the ground of the contaminated soil (a). It is a device portion for purifying the contaminated soil (a) by injecting ozone water in the form of microbubbles into a myriad of fine cracks.

By forming the ozone water in the form of a microbubble, the ozone water in the microbubble form is easily flowed in the microcracks, so that the effective influence radius is not only enlarged by the ozone water, but also the time existing in the microcracks is extended. Since the ozone water in the microbubble type is present in the contaminated soil (a) for a long time, the purification process of the contaminated soil (a) by the microbubble type ozone water is made easy and smooth, and the purification treatment efficiency is high.

The microbubbles in ozone water in the form of microbubbles use microbubbles that are micro bubbles having a diameter of 50 micrometers or less, or nanobubbles having particles smaller than the size of the microbubbles. Here, both microbubbles and nanobubbles are referred to as microbubbles. Since the microbubbles are reduced and dissipated (completely dissolved) in water, the microbubbles have a very excellent dissolving ability of the gas contained therein as compared with ordinary bubbles.

The collapse of the microbubble is a physical stimulus, that is, physical stimulation such as compression, expansion, vortex, etc. generated during the flow of water, and the microbubble rapidly undergoes adiabatic compression, resulting in an extremely high pressure and ultra high temperature extreme reaction field. Form. Due to this extreme reaction field, the surrounding water molecules are decomposed to form free radicals such as OH. Since the free radicals are very unstable, they try to steal electrons from other molecules and stabilize them. Because it is generated, it is possible to decompose difficult-decomposable harmful chemicals.

In order to form the microbubble, since the surface tension of water is high, the gas liquid (liquid and gas) is sheared hydrodynamically, or the gas liquid is mixed by a special method using a cyclone and an aeration device.

As shown in FIG. 2, the ozone water injector 200 is provided with an ozone generator 210 for generating ozone, and the ozone generator 210 forms an ozone flow path to discharge the generated ozone to the outside. The ozone discharge channel line 211 is connected.

In the outer side of the ozone generator 210, a solution tank 220 in which a solution of hydrogen peroxide or purified clean water is supplied to the outside is installed, and the solution tank 220 has a solution to discharge the solution to the outside. The solution discharge flow path line 221 to form a charge of the connection is installed.

The ozone discharged from the ozone generator 210 and the solution discharged from the solution tank 220 are introduced through the flow lines 211 and 221, respectively, and the ozone is supplied to the introduced solution and aerated so that the solution and ozone are aerated. An ozone explosion tank 230 is installed to mix and form a microbubble ozone water having a fine size.

Here, the method of supplying ozone and the solution to the ozone detonation tank 230 is configured in various ways, that is, the ozone of the ozone generator 210 and the solution of the solution tank 220 is introduced into the ozone detonation tank 230, respectively. And ozone water generated by mixing with each other before the ozone of the ozone generator 210 and the solution of the solution tank 220 flow into the ozone explosion tank 230. Any method may be used depending on the purpose of use, installation conditions, and effects.

In the above method, the ozone and the solution are introduced into the ozone explosion tank 230, respectively. The end of the solution discharge flow line 221 through which the solution flows is located in the ozone explosion tank 230, and the ozone flows through the ozone. The end of the discharge passage line 211 is positioned at the bottom of the ozone explosion tank 230 so that the solution in the ozone explosion tank 230 is aerated by ozone discharged from the end of the ozone discharge passage line 211.

In addition, in the method of introducing the ozone water mixed with the ozone and the solution into the ozone water tank 230, as shown in FIG. 2, the ozone and the solution are introduced, as well as by mixing the introduced ozone and the solution to discharge them to the outside. A first pumping device 260 is installed to pump the ozone water tank 230 into the ozone water tank 230. The first pumping device 260 allows ozone water mixed with ozone and a solution to flow into the ozone water tank 230. An ozone water inflow passage line 222 is formed to connect a flow path so that a flow path flows through the ozone water inflow passage line 222. Cyclone 270 is installed to be mixed once more, and the ozone water passing through the first pumping device 260 and the cyclone 270 flows in the ozone water inflow channel 222. As the discharge end side of the ozone water through the inlet flow path line 222 located at the bottom of the aeration tank in the ozonated water 230 and is configured to aeration of the ozonated water solution in the aeration tank (230).

The ozone water tank 230 is provided with an ozone water discharge passage line 223 for forming a flow path so that the microbubble type ozone water discharged from the ozone waterfall tank 230 flows in and flows, and the ozone water discharge passage line ( The ozone water injection pump 240 is installed at a predetermined position of the ozone water discharge passage line 223 to supply the microbubble type ozonated water flowing in the ozone water discharge passage line 223 to a predetermined pressure to the respective wells 110. An ozone water injection line 240 is formed between the pump 240 and each well 110 to form a flow path such that microbubble type ozone water supplied to each well 110 is flown by the pumping force of the ozone water injection pump 240. ) Is connected and installed.

The ozone water injection line 240 is provided in plural to send ozone water in the form of microbubbles to each well 110, or each well 110 on the end side of the ozone water injection line 240 on the side of each well 110. It is possible to form a plurality of branch pipes branched to.

Here, the ozone water in the form of microbubble flowing in the ozone water injection line 240 is sent to each well 110, and countless fine particles formed in the ground of the contaminated soil (a) through each through hole of each well 110 In order to increase the flow rate of the ozone water in the form of microbubbles into the crack so as to smoothly inject the compressed air sent from the air compressor 121 of the air injection unit 120 into the ozone water injection line 240. The air flow path 122 of the air injection unit 120 is connected to the ozone water injection line 240.

That is, in the place where the ozone water discharge passage line 223 and the air passage line 122 meet, the microbubble type ozone water and the air that have passed through the ozone water injection pump 240 while flowing in the ozone water discharge passage line 230. Compressed air flowing in the air flow path 122 of the injection device unit 120 is introduced and mixed with the pumping to inject the ozone water in the microbubble type into the ozone water injection line 250 by the pressure of the compressed air. 2 pumping device 280 is installed.

In addition, the air passage line 122 is a regulator for controlling the amount of compressed air flowing into the second pumping device 280 to control the flow rate of the ozone water of the microbubble type flowing in the ozone water injection line 250 (regulator, 123) is installed.

Between the ozone detonation tank 230 and each of the wells 110, the surplus ozone generated from the ozone detonation tank 230 is directly injected into each well 110 to increase the efficiency of the purification process of the contaminated soil (a). A surplus ozone injection line 290 is formed to form a flow path of ozone.

Between each device unit 120, 130, 140, 200 and each well 110, each passage line installed between each well 110 passes through each device line as well as air injected and discharged through the passage line. A switch valve box 150 and a main header 160 provided with an on / off valve are installed to block and maintain the flow of chemical liquid, microbubble type ozone water and pollutants, and each of the flow paths includes air, chemical liquid, and microbubble. At least one valve is provided that opens and closes to control the flow of ozone water and pollutants in the form.

Each of the wells 110 is used as an injection well when injecting ozone water in the form of air, a chemical liquid or a microbubble, and used as a discharge well when extracting contaminants and discharging them to the outside. According to the opening and closing operation, the function and role of the flow line may be changed such that air, a chemical liquid, ozone water and a pollutant in the form of microbubbles alternately or simultaneously flow.

The present invention configured as described above, using the contaminated soil purification apparatus 100 to clean the contaminated soil (a) contaminated by various contaminants in a clean state as well as the nutrients required for the contaminated soil (a) To supply.

As a result of operating the air compressor 121 provided in the air injection unit 120 of the purification treatment apparatus 100 after fixing and installing a plurality of wells 110 without excavation work in the contaminated soil (a). The generated compressed air flows into the air flow path 122 and is supplied into each of the wells 110.

Compressed air introduced into each well 110 is discharged into the ground of the contaminated soil (a) through a plurality of through-holes formed in each well 110, and the contaminated soil by the pressure of the discharged compressed air ( In the ground of a) a myriad of fine cracks are generated.

Then, the chemical liquid supply unit 130 is operated in a state where the operation of the air injection unit 120 is stopped, that is, the pumping generated while the chemical liquid supply pump 133 of the chemical liquid supply unit 130 is operated. The chemical liquid contained in the chemical liquid tank 131 by the force is pumped and flows into the chemical liquid flow path 132 and is supplied into each well 110.

As the supplied chemical liquid is discharged to the outside of the well 110 through each through hole of the well 110 and injected into each microcracks, the injected drug solution is oxidized by reacting with the pollutants contained in the contaminated soil (a). Upon application, the contaminated soil (a) is purged in a clean state.

At this time, the contaminants are condensed by the chemical liquid, or the contaminants in the form of a sledge and the liquid state are discharged to the outside of the soil by the contaminant extracting unit 140 and processed, that is, with the air injection unit 120. The pumping motor 141 of the pollutant extracting unit 140 operates while the nutrient solution supplying unit 130 is stopped, and through the through holes of the respective wells 110, respectively, by the pumping force. Contaminants are introduced into each well 110.

The introduced contaminants are introduced into the sludge tank 143 through the contaminant flow path 142 in each well 110, and the contaminants are sludged by the pumping force of the pumping motor 141. Discharged to the outside of the tank 143, the pollutants discharged to the outside is purified in a clean state in a water treatment device and purification treatment facilities, and then discharged to the stream or sent to the purification treatment device 100 of the pollutants to be reused. do.

On the other hand, in order to smoothly purify the contaminated soil (a) as well as to increase the purification efficiency, it is provided with an ozone water injection unit 200 to form a microbubble type generated by the ozone water injection unit 200. The ozone water is injected into a myriad of microcracks formed in the soil of the contaminated soil (a). The microbubble ozone water expands the effective influence radius as it flows easily in the microcracks and is present in the microcracks. By prolonging the time, the contaminated soil (a) is smoothly purged in a fast period as well as to increase the purification efficiency.

Referring to the operation state of the ozone water injection unit 200 for injecting microbubble type ozone water into each microcracks formed in the ground of the microbubble ozone water generation and contaminated soil, ozone of the ozone water injection unit 200 Ozone is generated in the generator 210, and the generated ozone flows into the ozone discharge channel line 211.

In addition, the solution contained in the solution tank 220 of the ozone water injection unit 200 is discharged from the solution tank 220 is introduced into the solution discharge flow path line 221.

Here, the ozone flows through the ozone discharge channel line 211 by the pumping force of the first pumping device 260 installed at the outlet side of the ozone discharge channel line 211 and the solution discharge channel line 221. The solution flows into the solution discharge channel 221.

The ozone and the solution are introduced into the first pumping device 260 by the pumping force of the first pumping device 260 and mixed with the ozone water, and the ozone water is discharged to the outside of the first pumping device 260. It flows into the ozone water inflow channel 222.

The ozone water flowing in the ozone water inflow passage line 222 flows into the ozone water aeration tank 230 to generate the microbubble ozone water while aeration of the solution contained in the ozone water aeration tank 230.

At this time, since the cyclone 270 is installed in the ozone water inlet flow line 222, before the ozone water is sent to the ozone water aeration tank 230, the ozone water mixed with the solution and ozone in the first pumping device 260 is a cyclone ( 270 is mixed once more to generate ozone water in the form of microbubbles, and the ozone water in the microbubble flows into the ozone water aeration tank 230 while flowing in the ozone water inflow passage 222 and is contained in the ozone water aeration tank 230. The solution is aerated to form ozone water in the form of microbubbles with the desired size.

The ozone water of the microbubble type generated in the ozone water aeration tank 230 is discharged to the outside through the ozone water discharge passage line 223, that is, because the ozone water injection pump 240 is installed at the outlet side of the ozone water discharge passage line 223. The ozone water in the microbubble form is discharged from the ozone water aeration tank 230 by the pumping force of the ozone water injection pump 240 and flows into the ozone water discharge passage line 223.

The ozone water flowing in the ozone water discharge passage line 223 passes through the ozone water injection pump 240 and flows into the ozone water injection line 250 and is sent to each well 110 to pass through each of the wells 110. It is discharged through and is injected in the form of microbubbles in a myriad of microcracks formed in the soil soil (a).

Here, the microbubble type ozone water in the ozone water aeration tank 230 is directly sent to each well 110 by the ozone water injection pump 240 in the process of injecting the microbubble type ozonated water into each well 110. In order to more smoothly inject the microbubble type ozone water into each microcrack by increasing the flow rate of the microbubble type ozone water sent to each of the wells 110, the microbubble type introduced into the ozone water injection line 250 may be used. Compressed air can be supplied to ozone water.

That is, the microbubble type ozone water flowing in the ozone water discharge passage line 223 passes through the ozone water injection pump 240 to the second pumping device 280 and the air compressor of the air injection device unit 120. Compressed air generated at 121 is introduced into the second pumping device 280.

Then, the microbubble type ozone water generated by the air compressor 121 and introduced into the second pumping device 280 by the pressure of the compressed air introduced into the second pumping device 280 is the ozone water injection line 250. In the ozone water injection line 250, the flow rate of the microbubble type ozone water flow is increased by the regulator 123 installed in the air flow path line 122 of the air injection unit 120. The speed is adjusted.

The ozone water in the form of microbubbles whose speed is controlled by the regulator 123 is smoothly injected into the numerous microcracks formed in the soil of the contaminated soil (a) as well as the end of each microcracks.

Therefore, the effective influence radius of the microbubble type ozone water in the ground of the contaminated soil (a) is expanded, as well as the ozone water injected into each microcracks maintains the microbubble shape. Due to the long time therein, the purification of the contaminated soil (a) is smoothly performed, and the purification efficiency of the contaminated soil (a) by the microbubble type ozone water can be improved.

On the other hand, in the ozone water aeration tank 230 of the ozone water injection unit 200, excess ozone is generated during the aeration of ozone water, and the generated excess ozone is directly introduced into each well 110 through the excess ozone injection line 290. As the excess ozone is introduced into the microbubbles formed in the soil of the contaminated soil (a) together with the microbubble type ozonated water introduced into each of the wells 110 to purify the contaminated soil.

As described above, the apparatus for purifying contaminated soil using the microbubble ozone water according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described herein, and the technical scope of the present invention. Various modifications may be made by those skilled in the art, and thus should not be individually understood from the technical spirit or the prospect of the present invention.

100: purification device 110: well
120: air injection unit 121: air compressor
122: air flow line 123: regulator
130: chemical liquid supply unit 131: chemical liquid tank
132: chemical liquid flow line 133: chemical liquid supply pump
140: pollutant extraction device 141: pumping motor
142: pollutant euro line 143: sludge tank
150: switch valve box 160: main header
200: ozone water injection unit 210: ozone generator
211: ozone discharge flow line 220: solution tank
221: solution discharge flow line 222: ozone water inflow flow line
223: ozone water discharge flow line 230: ozone water tank
240: ozone water injection pump 250: ozone water injection line
260: first pumping device 270: cyclone
280: second pumping device 290: surplus ozone injection line

Claims (6)

In the contaminated soil purification apparatus for purifying contaminated soil,
A plurality of wells having a plurality of through holes installed in the ground of the contaminated soil;
An air injection device unit including an air compressor for generating compressed air to inject air into the wells to generate microcracks in the soil of the contaminated soil, and an air passage line that is a flow path of the compressed air;
A chemical tank containing chemical liquid to supply the chemical liquid for purifying the contaminated soil to the microcracks formed in the ground of the contaminated soil through each well, a chemical liquid flow line which is a flow path of the chemical liquid, and a chemical liquid flowing through the chemical liquid flow line A chemical liquid supply unit including a chemical liquid supply pump;
An ozone water injector unit for injecting microbubble type ozone water into the microcracks formed in the soil of the contaminated soil generated by the pressure of air sent from the air compressor of the air injector unit;
A pumping motor for introducing contaminants in the contaminated soil generated by the chemical liquid of the chemical liquid supply unit into each well and discharging the contaminants to the outside, a contaminant channel line that is a contaminant channel, and a sludge containing the contaminant Contaminant extraction apparatus including a tank; provided,
The ozone water injector unit includes an ozone generator for generating ozone, a solution tank in which a solution is contained, ozone discharged from the ozone generator and a solution discharged from the solution tank are introduced into a microbubble type ozone water having a fine size. An ozone water tank for aeration while supplying ozone to the solution, an ozone water injection pump for pumping the ozone water to supply the microbubble type ozone water discharged from the ozone water tank, and the ozone water injection pump and each well The ozone water injection line is formed between the ozone water injection line to form a flow path for the microbubble type ozone water supplied to each well by the ozone water injection pump, and the ozone discharged from the ozone generator and the solution discharged from the solution tank are introduced. Ozone water by mixing the introduced ozone with the solution A first pumping device for pumping an ozone water tank through a furnace line, a cyclone installed at a predetermined position of the ozone water flow path line to mix ozone water in the form of a microbubble mixed with ozone and a solution, and the inside of the ozone water injection line A regulator for adjusting the amount of air sent to the ozone water injection line to control the flow rate of the flowing microbubble ozone water, and the ozone water injection line by mixing the air passing through the recirculator and the ozone water from the ozone water tank. And a second pumping device for pumping inflow, and an excess ozone injection line connected between the ozone explosion tank and each well to form a flow path of the excess ozone to inject surplus ozone generated in the ozone explosion tank into each well. Polluted soil using microbubble ozone water Screen processor. delete delete The method of claim 1,
In order to increase the flow rate of ozone water discharged from the ozone water aeration tank by the ozone water injection pump and sent to each well through the ozone water injection line, the compressed air sent from the air compressor of the air injection device is introduced into the ozone water injection line. Soil purification treatment device using microbubble ozone water. delete delete

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