KR101276538B1 - purification processing apparatus of pollution ground - Google Patents

Abstract

The present invention relates to an apparatus for purifying polluted soil, which generates microcracks using the pressure of air in the ground without excavation of polluted soil and injects chemicals into the microcracks, as well as discharging pollutants and groundwater. Soil is easier and easier to cleanse.
To this end, the present invention is a plurality of wells installed in the soil soil, the air injection unit unit for injecting air into each well to generate a micro crack in the soil soil, and micro-cracks to clean the contaminated soil Chemical solution supply unit for supplying chemical liquid into each well, and pollutant extractor unit for discharging pollutants and groundwater to the outside, such as chemical liquid that has purified contaminated soil, and injection and discharge from each device to each well Switch valve box equipped with an opening and closing control valve to flow or block the air and chemicals and pollutants, and detect the pressure in each well, and control the injection of air and chemicals into each well and the discharge of pollutants according to the sensed pressure It consists of a monitoring unit to make.

Description

Purification processing apparatus of pollution ground

The present invention relates to a purification apparatus for purifying contaminated soil, and more specifically, to install a plurality of each well in the ground without excavation of contaminated soil, and to monitor the pressure in each well while real-time pressure in each well By adjusting the amount of air injected into each well according to the pressure of the injected air to generate a micro-crack in the soil soil and supply the chemical liquid (purifier) between the micro-crack to purify the contaminated soil. In addition, the contaminants contained in the contaminated soil and the contaminated groundwater located on the lower side of the contaminated soil are related to the purification process for contaminated soil to discharge to the outside of the contaminated soil like chemicals through each well.

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 former soil pollution treatment method, the transfer efficiency of the oxidizing agent due to gravity infiltration is very low in the case of the low permeability soil of clay, and in the latter case, the ground fracture and the chemical liquid by the fine nozzle (refining agent) ) Is infiltrated at the same time, causing the backflow of the chemical solution according to the stress state of the ground.

The present invention has been proposed in order to solve the problems in the prior art as described above, and install a plurality of wells in the ground without excavation of contaminated soil, and the air injection device and the chemical liquid supply to inject air and chemical liquid into the respective wells, respectively Each device is provided with a monitoring unit for adjusting the input amount of air and chemical liquid by sensing the pressure in each well, thereby adjusting the injection amount of air through each well according to the pressure in each well sensed by the monitoring unit. As the micro-crack is generated in the soil soil by the pressure of the injected air, it increases the air permeability and permeability of the soil soil, thereby expanding the influence radius of the soil treatment, and the soil soil soil through the microcracks. Cleansing the contaminated soil more cleanly by supplying chemical liquid (purifier) smoothly In addition, the contaminants contained in the contaminated soil and the contaminated groundwater located at the lower side of the contaminated soil are discharged to the outside of the contaminated soil through the respective wells, such as the chemical liquid which has purified the contaminated soil. The purpose is to increase the purification efficiency of the contaminated soil as well as to shorten the purification treatment period of the contaminated soil.

The present invention for achieving the above object is a plurality of wells installed in the soil soil, and the outside of each of the wells are installed outside the wells to generate microcracks in the soil soil soil by the pressure of the air An air injection unit unit for injecting air into each well, a chemical solution supply unit installed outside the wells and supplying a chemical liquid for purifying contaminated soil through microcracks into the wells, and each of the wells A contaminant extracting unit for discharging contaminants and groundwater contained in the contaminated soil to the outside, such as a chemical liquid purifying contaminated soil to the outside, and installed between each device unit and each well A switch valve box having an opening / closing control valve which is opened and closed to flow or block air and chemicals and pollutants injected and discharged from each part to each well; It is connected to the opening and closing control valve of each device unit and the switch valve box, respectively, to sense the pressure in each well as well as to control the injection of air and chemicals into each well and discharge of pollutants in each well according to the sensed pressure Provided is a contaminated soil purification treatment device, characterized in that it comprises a monitoring unit.

In addition, the present invention, each of the flow path line for forming a flow path for injecting / discharging air, chemicals and pollutants from each of the device portion to the respective wells in each device portion is connected to each device unit, each of the flow path line in the switch valve box Opening and closing control valves are opened and closed to supply and block air or chemical liquid and pollutants flowing in each flow line, and each flow line located at each well side has a plurality of branch pipes branched to each well. And a local separator for separating the gas and the liquid from the air, the chemical liquid, and the pollutant flowing in the respective branch pipes at a predetermined position of each branch pipe.

According to the present invention made as described above, by monitoring the pressure in the plurality of wells installed in the ground without excavation of contaminated soil by adjusting the injection amount of air and chemical liquid into each well, the pressure of the injected air As the microcracks are generated in the soil, the air permeability and water permeability of the soil are increased, thereby expanding the influence radius of the soil treatment and smoothly injecting the contaminated soil into the microcracks. There is an effect that the purification process easier and easier to clean.

In addition, if the injected chemical is a purifying agent such as an oxidizing agent and a microbial agent, the contaminated soil is cleansed by the above-mentioned chemical liquid, and if the chemical is a nutrient, the soil is more quickly supplied with nutrition to the soil devastated by the contaminated soil. It also has the effect of returning to original time.

The pollutants contained in the contaminated soil and the contaminated groundwater located on the lower side of the contaminated soil are discharged to the outside of the contaminated soil through the respective wells, such as the chemical liquid that has purified the contaminated soil, thereby purifying the contaminated soil. In addition to increasing the efficiency, it is also effective to shorten the period for purifying the contaminated soil.

1 is a view showing the entire apparatus for purifying polluted soil of the present invention.
2 is a view schematically showing the process of injecting air and chemical liquid into the contaminated soil and extracting contaminants in the purification treatment apparatus of the present invention.
3 is a view schematically illustrating a state in which a monitoring unit senses the pressure in each well in the purification apparatus according to the present invention.

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

In the present invention, volatile organic chemicals such as benzene, toluene, ethylbenzene, xylene, etc. in soil contamination sections contaminated by contaminants in soil (hereinafter referred to as 'polluted soil') (a) Various pollutants such as Volatile Organic Compounds) and contaminated water (hereinafter referred to as 'contaminated groundwater') in the groundwater contamination section (b) located on the lower side of the contaminated soil to the outside and chemically treated Purification treatment apparatus 100 for purifying the contaminated ground water in a clean state is provided.

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. It consists of 140, the switch valve box 150, and the monitoring part 160 largely.

Each of the wells 110 is installed in the ground of the contaminated soil (a) without excavation of contaminated soil (a), the upper portion of each of the wells 110 protrudes from the upper surface of the contaminated soil (a), The lower part of each well 110 is installed to be located at the lower part of the contaminated soil (a) or the contaminated groundwater side of the groundwater pollution section (b).

In the lower part of each well 110, each of the wells 110 injects air and chemicals into the contaminated soil (a) and contaminated groundwater, or the contaminants and contaminated groundwater contained in the contaminated soil (a). A plurality of through holes 111 to be introduced into the) is formed.

The air injection unit 120, the chemical liquid supply unit 130, the pollutant extraction unit 140, the switch valve box 150 and the monitoring unit 160 is the outside of the wells 110, that is, contamination It is provided in the upper surface of the soil (a) or on the outer side of the contaminated soil which is a position deviating from the contaminated soil (a).

The air injection unit 120 not only generates compressed air, but also introduces the generated air into each well 110, and contaminates the soil through each through hole 111 of each well 110. As it is injected into the ground of a) it is to generate microcracks in the ground of the contaminated soil (a) by the pressure of the injected air.

The air injector unit 120 is provided with an air compressor 121 for generating air, and on one side of the air compressor 121 increases the pressure of the air generated by the air compressor 121 to increase the air inlet A blower 122 sent into each of the flow paths 180 connected to the teeth 120 is connected to the blower 122, and the blower 122 is operated by an external power source to drive the blower 122. Is installed.

The chemical liquid supply unit 130 supplies the chemical liquid into the microcracks generated in the soil of the contaminated soil (a) by the compressed air sent from the air injection unit 120 through each of the wells 110 Accordingly, the pollutants and groundwater of the contaminated soil (a) are to be purified or nutrients are supplied to the soil devastated by the pollutants.

The chemical liquid supply unit 130 is provided with a chemical liquid tank 131 in which the chemical liquid is stored, and the chemical liquid contained in the chemical liquid tank 131 is provided in each flow line 180 outside the chemical liquid tank 131. A supply pump 132 for pumping the chemical liquid to be sent is installed.

The chemical liquid supplied to each well 110 from the chemical liquid supply device 130 is a purifying agent or an oxidizing agent for oxidizing pollutants contained in the contaminated soil (a) to purify the soil, or the contaminated soil (a). Microorganisms containing microorganisms so as to decompose the contaminants contained therein to purify the soil, or nutrients for supplying the nutrients necessary for the soil devastated by the pollutant (a). And contaminated soil purification treatments.

Here, in the case of using the microbial agent as a chemical liquid, in order to preserve the microorganisms contained in the microbial agent, the chemical liquid supply unit 130 is installed, of course, the pH control unit, temperature control unit, air injection unit, nutrient supply unit, etc. There is a built-in control unit 133 for adjusting each unit.

The pollutant extracting device 140 is to discharge the pollutants and groundwater contained in the polluted soil (a) to the outside, such as a chemical liquid purifying the polluted soil (a).

The pollutant extracting device 140 is provided with a pumping motor 141 that is driven by a power source applied from the outside and generates a driving force, and the pumping motor 141 is polluted with soil (a) and polluted groundwater. The contaminant extraction apparatus 140 is introduced into the well 110 through each through hole 111 of each well 110 and the introduced pollutants and groundwater flow through the flow line 180 at each well 110. A blower 142 generating a pumping force according to the driving force of the pumping motor 141 is installed to flow into the sludge tank, and a sludge tank containing contaminants and contaminated groundwater introduced into the pollutant extractor 140 is installed. 143 is provided.

The pumping motor 141 and the brower 142 in the pollutant extracting device 140 may extract any pollutants and groundwater from the contaminated soil and discharge them to the outside, whichever is before or after the sludge tank 143. It may be installed in any place.

Outside the contaminant extraction device 140, the pollutants and groundwater contained in the sludge tank 143 discharged to the outside of the contaminant extraction device 140 by the pumping motor 141 and the brower 142. A water treatment device 190 for purifying is provided.

The water purified in the water treatment device 190 may be sent to a river or the like, or may be sent to a contaminated soil purification device 100 for reuse.

Injecting / supplying air or chemical liquid into the contaminated soil (a) or discharging contaminants and contaminated groundwater extracted from the contaminated soil (a) between the device units 120, 130 and 140 and the respective wells 110. To this end, a plurality of flow path lines 180 forming the flow paths of the air, the chemical liquid, and the contaminants are connected to each other.

Between each device unit 120, 130, 140 and each well 110, each passage line 180 installed between the device wells passes through each passage line 180 as well as injection and discharge. The switch valve box 150 and the main header 170 are provided to block and maintain the flow of the air and the chemical and the pollutants.

In the switch valve box 150 and the air flowing through each of the flow path line 180 is coupled to each flow path line 180 passing through the switch valve box 150 while passing from the respective device portion to each control side; Opening and closing control valve 151 is installed to open and close to supply and block the chemical liquid and contaminants.

In the main header 170, the switch valve box 150 is connected to each flow line 180 passing through the main header 170 while passing through the switch valve box 150 to the side of the well 110. In order to inject the air and the chemical liquid flowing in accordance with the opening and closing of each opening and closing control valve 151 in each well 110, or to discharge the pollutants, the air and the chemical liquid and the pollutants flowing in each of the flow paths 180 are selectively selected. Selective opening and closing valve 171 is provided to open and close to supply and shut off.

A plurality of branch pipes 181 branched to each of the wells 110 are formed in each of the flow paths 180 located at the side of each well 110, and a predetermined position of each of the branch pipes 181 is provided. Local separator 182 is installed in each of the flow path line 180 to separate the air and the chemicals and contaminants flowing in each branch pipe 181 into a gas and a liquid is installed have.

The monitoring unit 160 is connected to each of the opening and closing control valve 151 of the device unit 120, 130, 140 and the switch valve box 150, and each of the selective opening and closing valve 171 of the main header 170 is installed Sensing the pressure in each well 110, as well as to control the discharge of the pollutants, as well as the injection of air and chemical liquid into each well 110 in accordance with the sensed pressure.

The monitoring unit 160 receives a signal sensed by the sensor 167 connected to each well 110 is provided with a pressure gauge 161 for measuring the pressure change in each well 110, the pressure gauge ( The data collector 162 is connected to the data collector 162 to receive the pressure value measured by the pressure gauge 161 and converts the data into data. The data collector 162 is connected to the data collector 162. A comparison unit 164 is provided which compares the measured data and the setting data set in the setting value data unit 163 with each other. The comparison unit 164 is connected to the comparison unit 164 to compare the comparison data. A control unit 165 for controlling the operation of each device unit 120, 130, 140 and various components is installed according to the data value of the data, and connected to the control unit 165 to check the state of each unit of the monitoring unit 160 from the outside. Display A unit 166 is provided.

Between each sensor 167 and each well 110, the inside of each well 110 is sealed, of course, in order to more accurately measure the pressure in each well 110 in each sensor 167 above In order to facilitate coupling, a tube having a predetermined diameter having a structure in which both ends are coupled to each sensor 167 and each well 110 in a one-touch manner is provided.

The pressure gauge 161 of the monitoring unit 160 mainly uses a digital pressure gauge for digitally displaying the pressure value, and the case of the digital pressure gauge 161 is formed of a material such as bentonite and the like inside the digital pressure gauge 161. In order to prevent air from flowing into the inside of the digital pressure gauge 161, as well as the thickness of the case is formed to more than 1.5mm, the case material of the digital pressure gauge 161 is made of stainless steel resistant to corrosion.

Here, the digital pressure gauge 161 continuously measures the pressure in each well 110 at intervals of at least 1 second, and the measured pressure value is stored in the data collection unit 162 of the monitoring unit 160. And, the stored pressure value is provided to be stored simultaneously or separately in the form of a file from an external computer.

Each of the wells 110 is an injection well when injecting air or chemical liquid, and is used as a discharge well when extracting contaminants and discharging them to the outside. Is a solid line in the drawing, and the flow path line 180 at the time of extracting and discharging contaminants is shown by a dotted line in the drawing.

In addition, the device unit 120, 130, 140 may be fixed to the ground or to be movable using a vehicle, such as a vehicle, which may be used in any manner in consideration of the purpose of work, conditions and effects. Do.

The present invention configured as described above, by using the contaminated soil purification treatment apparatus 100 to inject air and chemical liquid into the contaminated soil and various contaminants contained in the contaminated soil and contaminated groundwater located below the contaminated soil By discharging to the outside to clean the contaminated soil and groundwater in a clean state as well as to supply nutrients to the soil from which the various pollutants are discharged.

Referring to the operating state of the purification treatment apparatus 100, as shown in Fig. 1 and 2, a plurality of wells 110 are fixed and installed in the contaminated soil (a) without excavating the contaminated soil.

Then, the monitoring unit 160 detects the pressure in each well 110, that is, each sensor 167 detects the pressure in each well 110, respectively, and is detected by each sensor 167 The pressure is sent to each pressure gauge 161 of the monitoring unit 160, respectively.

Each of the pressure gauges 161 measures the pressure change according to the sent detection signal, and sends the measured pressure value to the data collector 162, and the data collector 162 receives the data.

The measurement data data generated by the data collection unit 162 is sent to the comparison unit 164, and the comparison unit 164 compares the measurement data value with the setting value data of the setting value data unit 163 to obtain a comparison value. The control unit 165 is sent, and the control unit 165 controls various devices by sending a control signal to each device unit and the valve according to the comparison value.

The air injection device 120 is operated according to the control signal sent from the control unit 165, that is, the air is generated in the air compressor 121 of the air injection device 120 and the blower by the motor 123 Air is introduced into each of the flow path lines 180 by the blowing force generated while the 122 is rotated, and the introduced air is compressed air having strong strength.

The introduced compressed air flows into each flow path 180 and is branched into each branch pipe 181 positioned in each well 110, and the compressed air flows through the local separator 182. It is introduced into each well 110.

The compressed air is discharged into the soil of the contaminated soil through each through hole 111 formed at the lower side of each well 110, and a lot of microcracks are generated in the soil of the soil by the pressure of the discharged compressed air. do.

After generating microcracks in the soil, the operation of the air injection unit 120 is stopped, and the chemicals are injected into the microcracks, which are located below the pollutants and soils contained in the soil. The chemical liquid for purifying the contaminated groundwater is injected into the microcracks and the contaminated groundwater.

That is, the control unit 165 of the monitoring unit 160 operates the chemical liquid supply unit 130, which is a device for injecting the chemical liquid while stopping the operation of the air injection device 120. The chemical liquid in the chemical liquid tank 131 is sent from the chemical liquid tank 131 to each passage line 180 by the pumping force generated while the chemical liquid supply pump 132 of 130 is driven.

The sent chemical liquid flows into each passage line 180 and branches to each branch pipe 181, passes through a local separator 182, and flows into each well 110, and the chemical liquid introduced into each well 110 is It is discharged to the outside of each well 110 through each through-hole 111, the discharged chemical liquid is injected into each ground micro-cracks formed in the soil of the contaminated soil as well as contaminated groundwater.

The chemicals injected into the microcracks react with the pollutants contained in the contaminated soil to oxidize the contaminants, so that the contaminated soils are cleansed and the chemicals injected into the contaminated groundwater are contaminated in the contaminated groundwater. The material is oxidized and cleaned up.

At this time, the injected chemical solution is a purifying agent such as an oxidizing agent, as well as a microbial agent containing microorganisms to decompose and remove contaminants, and nutrients for supplying nutrition to the soil contaminated by contaminants and desolated soil is removed. The above chemical liquid may be selected and used in consideration of the condition of the soil and the purpose or effect of purification.

On the other hand, contaminants are condensed or purified from the contaminated soil and groundwater, and the sludge-type and liquid contaminants are separated from the soil and groundwater by the contaminant extracting unit 140 and discharged to the outside of the soil.

The pumping motor 141 and the brower 142 of the pollutant extracting unit 140 according to the control signal of the control unit 165 generates suction force, and contaminants condensed and separated by the suction force and The contaminated water flows into each well 110 through the through hole 111 of each well 110.

The introduced pollutants and contaminated water flow into and flow into the respective flow lines 180 again while flowing into and flowing into each branch pipe 181 from each well 110, and the contaminants flowing through the respective flow lines 180 and The contaminated water flows into the sludge tank 143 and is contained therein.

The contaminants and contaminated water contained in the sludge tank 143 are discharged to the outside of the sludge tank 143 by the pumping force continuously generated by the pumping motor 141 and the brower 142, the water treatment device 190 In the water treatment apparatus 190, the pollutants and contaminated water are completely purged and discharged to a river or the like, or sent to the purification treatment apparatus 100 for reuse.

Here, each of the flow path line 180 to form a flow path of the air and the chemical solution and contaminants in order to send air and chemical liquid or to extract the contaminants into each of the flow path line 180 is opened and closed the switch valve box 150 In accordance with the opening and closing of the control valve 151 and the selection opening and closing valve 171 of the main header 170 is changed into the injection line and the discharge line while injecting air and chemical liquid into the contaminated soil or extract the pollutants.

That is, the operation of each device unit (120, 130, 140) and the opening and closing of each valve (151, 171) is made automatically and manually according to the control signal of the control unit 165 of the monitoring unit 160.

On the other hand, the operation of each device unit 120, 130, 140 and the operating state of each device of the purification processing apparatus 100, such as each valve (151, 171) can be confirmed by the operator from the display unit 166 of the monitoring unit 160 from the outside. In addition, the above state can be operated by the operator directly operating the operating state in the monitoring unit 160, or through a computer connected to the monitoring unit 160.

Through the above operation, it is possible to purify the contaminated soil more easily and easily while controlling the injection of air and chemical liquid into each well 110 and the extraction process, time, and duration of the pollutant.

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

100: purification device 110: well
111: through hole 120: air injection unit
121: air compressor 122: blower
123: motor 130: chemical liquid supply unit
131: chemical liquid tank 132: chemical liquid supply pump
133: control unit 140: pollutant extraction device
141: pumping motor 142: Brow
143: sludge tank 150: switch valve box
151: opening and closing control valve 160: monitoring unit
161: pressure gauge 162: data collector
163: set value data section 164: comparison section
165: control unit 166: display unit
167: sensor 170: main header
171: open / close valve 180: flow line
181: branch pipe 182: local separator
190: water treatment device a: soil contamination section
b: groundwater contamination section

Claims (14)

A plurality of wells installed in the soil soil;
An air compressor installed outside the wells and generating compressed air for injecting air into the wells to generate microcracks in the soil of the contaminated soil by the pressure of the air; An air injection unit unit including a blower to a well and a motor for driving the blower;
Chemical solution supply is provided on the outside of the wells are provided with a chemical liquid tank containing the chemical liquid to supply the chemical liquid for purifying contaminated soil through the microcracks into the respective wells, and a chemical liquid supply pump for sending the chemical liquid to each well Device section;
In order to discharge the pollutants and groundwater contained in the contaminated soil to the outside, such as a chemical solution that is installed outside the wells and purifies the contaminated soil, the pollutants into each well according to the driving force of the pumping motor. And a blower having a popping force for introducing the contaminated groundwater and discharging the introduced contaminants and contaminated groundwater to the outside, and sending the contaminants and contaminated groundwater sent from the respective wells to a water treatment device for purification. And a contaminant extracting unit having a sludge tank for containing contaminated groundwater.
A switch valve box installed between each device unit and each well, and having an opening / closing control valve opened and closed to flow or block air and chemicals and contaminants injected and discharged from each device to each well;
Selective opening and closing between the switch valve box and each of the wells to selectively open and close a plurality of flow paths to inject air and chemical liquid into the respective wells or discharge contaminants in accordance with the opening and closing of the control valve of the switch valve box A main header having a valve;
It is connected to the opening and closing control valve of each device unit and the switch valve box, respectively, to sense the pressure in each well as well as to control the injection of air and chemical liquid into each well according to the sensed pressure and the discharge of contaminants Consists of a monitoring unit;
The monitoring unit receives a signal sensed by a sensor connected to each well, and a digital pressure gauge for continuously measuring a pressure change in each well at intervals of at least one second, and the digital pressure gauge connected to the digital pressure gauge. A data collection unit for receiving data of the pressure value measured in the data collection unit, a set value data unit configured to data the pressure value for setting the pressure in each well, and a data collection unit connected to the data collection unit and the set value data unit A comparison unit for comparing negative measurement data and setting data of the set value data unit with each other, a control unit connected to the comparison unit to control each device unit and various configurations according to the comparison data compared by the comparison unit, and to the control unit. Is connected to the display unit configured to check the status of each part of the monitoring unit from the outside Purification and treatment device of contaminated soil.
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