KR101103411B1 - Washing apparatus for contaminated soil - Google Patents

Abstract

According to the present invention, after mixing the waste activated sludge and the washing liquid into the soil to be washed, the mixed treatment unit for removing heavy metals in the soil to be washed with the washing liquid while adsorbing and removing the heavy metal in the soil to be washed to the waste activated sludge while stirring. It is connected to the mixing treatment unit, receiving the washing liquid used in the mixing treatment unit, the sedimentation unit for sedimentation and separation of the soil and waste activated sludge and the heavy metals contained in the washing liquid, connected to the sedimentation unit, the upper part of the upper portion from the sedimentation unit Provided with a washing solution is supplied with a neutralizing agent, and provides a heavy metal removal device in the soil comprising a neutralization treatment unit for discharging the washing solution in a neutralized state.

As such, the heavy metal removal apparatus in the soil removes the soil to be contaminated with heavy metal supplied to the mixing treatment unit by using waste activated sludge together with the washing liquid, while absorbing and releasing heavy metal from the soil to be washed. As such, as heavy metals in the soil to be washed are removed by waste activated sludge, the removal cost is reduced and the removal efficiency can be increased.

Description

Washing apparatus for contaminated soil}

The present invention relates to an apparatus for removing heavy metals in soil, and more particularly, to an apparatus for removing heavy metals in soil for removing heavy metals from contaminated soil.

In general, soil is an important component of an ecosystem that has the absolute function of survival base of living things such as animals, plants as well as air and water. The capacity is also the largest. Therefore, if the environmental capacity of the soil is exceeded, the ecological functions such as the material circulation function to maintain and preserve the environment, the filtration and buffering function for harmful substances, and the natural balance control function are lost. The destruction of the ecological function of the soil may eventually cause harmful effects on living organisms, including humans, through the food chain, and contaminants in the soil are difficult to spread and dilute, resulting in slow natural cleanup or restoration before artificial treatment. Local contamination remains intact, resulting in a lasting impact on the environment.

Such soil contaminants are derived from rocks, mines, smelters, industries, agricultural materials and wastes from the atmosphere. Here, it is typically $ 50 to $ 500 to process one tonne of soil when purifying contaminated soil using civil engineering techniques, and $ 1000 for special techniques such as vacuum cleaning. This may require a lot of money. Since existing physical and chemical soil purification techniques require enormous funding and labor, various attempts have been made to develop methods or techniques to economically clean polluted soil.

In particular, sludge, incineration residues, sedimentary sludge and slag from various industrial facilities or households with the development of industrial technology and population increase. Dust. Many wastes contaminated with heavy metals such as sewage are released to pollute the soil. In particular, toxic heavy metals such as cadmium (Cd), chromium (Cr), copper (Cu), nickel (Ni), lead (Pb), zinc (Zn), etc., have been found in plants and lower animals by heavy metal adsorption and a series of accumulations in the food chain. By action, it is transmitted to animals including humans, and potentially acts as a toxin nominal to living organisms. Therefore, in order to prevent various environmental pollutions caused by heavy metals, it is necessary to reduce the heavy metal content of the waste below the dangerous line, so these wastes containing heavy metals are classified as specific wastes that require special management, so that they can be managed and managed safely and completely. It costs.

In the soil cleaning process, an appropriate cleaning agent is selected and used to restore the harmful pollutants or heavy metals bound to the soil particles in the liquid phase. Organic acids (oxalic acid, citric acid, EDTA, etc.), inorganic acids (sulfuric acid, hydrochloric acid, phosphoric acid), chelating agents, reducing agents, etc. are mainly used as detergents to transform heavy metals into liquid phase. At this time, in order to improve the dissolving power, a high frequency of ultrasonic waves is used. In addition, it is an economical method of adsorbing dissolved harmful heavy metals. By using electric power, DC rectification and half-wave rectification are carried out by redefining the selection and determination of the type and concentration of anode cleaning solution, the selection of cathode electrolyte solution, and the power supply. Remove heavy metals.

In addition, contaminated soil is cleaned using the Soil washing method. However, the soil washing method requires the addition of a flocculant to separate fine soil particles (eg, Silt or Clay) from the effluent, and in the case of complex contaminants (eg heavy metals containing organic substances). It is not easy to sort and prepare detergents, and when humics are present in high concentrations in the soil, there is a need for pretreatment. In addition, there is a problem that the amount of heavy metal eluted compared to the cost used to treat heavy metals in contaminated soil is only about 20%.

An object of the present invention is to provide an apparatus for removing heavy metals in soil which can easily remove heavy metals in soil at low cost.

The present invention, after putting the waste activated sludge and the washing liquid into the soil to be washed, while the heavy metal in the soil to be washed is adsorbed and desorbed to the waste activated sludge while stirring, the heavy metal in the soil to be washed is removed by the washing liquid. A precipitating unit connected to the mixing processing unit and the mixing processing unit, receiving the washing liquid used in the mixing processing unit, and precipitating and separating the heavy soil separated from the soil and the waste activated sludge contained in the washing liquid; It is connected to the precipitation unit, and the neutralizing agent is added at the same time receiving the washing solution of the upper portion from the precipitation unit, provides a heavy metal removal device in the soil comprising a neutralization treatment unit for discharging the washing solution in a neutralized state.

At this time, the mixing processing unit, a tubular mixing tank provided with an inlet for inputting the washing target soil, and connected to the mixing tank, tubular washing liquid supply line for introducing the washing liquid into the mixing tank; A tubular sludge supply line connected to the mixing tank to inject the waste activated sludge into the mixing tank, and the soil to be washed, the washing liquid and the waste activity contained in the mixing tank and introduced into the mixing tank. It includes a stirring means for stirring the sludge, and is connected to the lower portion of the mixing tank, the first discharge line of the tubular shape for discharging the soil to be precipitated while being stirred by the stirring means in the mixing tank to the outside; Can be.

In addition, the precipitation unit is connected to the mixing treatment unit, receiving the washing liquid used for washing the soil to be washed from the mixing treatment unit, the waste activated sludge and residual soil to be contained in the washing liquid and the A tubular sedimentation tank for sedimenting and separating heavy metals, a tubular washing liquid reuse line connecting the sedimentation tank and the mixing treatment unit, and connected to the washing liquid reuse line, wherein the waste activated sludge and the washing in the washing liquid in the sedimentation tank are installed. A circulation pump for generating a transfer force to move the washing liquid of the upper part of the soil settled to the mixing treatment unit through the washing liquid reuse line, and is connected to the lower portion of the sedimentation tank, remaining in the washing liquid precipitated inside the sedimentation tank To discharge the washing target soil and the waste activated sludge to the outside May include a second discharge line having a tubular shape.

In addition, the neutralization treatment unit is connected to the settling tank, the tubular neutralization tank provided with a discharge port so as to discharge the washing liquid of the upper portion supplied from the settling tank, and is connected to the neutralization tank, the neutralizer in the neutralization tank It may include a tubular neutralizing agent input line to be introduced, connected to the lower portion of the neutralizing tank, the tubular neutralizing agent discharge line for discharging the neutralizing agent precipitated in the neutralization tank to the outside.

In addition, the washing solution is a mixture of acid and water, the neutralizing agent may be a base. Here, the acid is any one selected from the group consisting of ethylenediamine tetraacetic acid (EDTA), hydrochloric acid (HCl), nitric acid (HNO ₃ ), acetic acid (CH ₃ COOH), phosphoric acid (H ₃ PO ₄ ) and citric acid (Citric acid). It can be one.

The heavy metal removal apparatus in the soil according to the present invention removes the soil to be washed with heavy metals supplied to the mixing treatment unit by using waste activated sludge together with the washing liquid, while absorbing and removing heavy metals from the soil to be washed. As such, as heavy metals in the soil to be washed are removed by waste activated sludge, the removal cost is reduced and the removal efficiency can be increased.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a schematic cross-sectional view of a heavy metal removal apparatus in soil according to an embodiment of the present invention. Referring to FIG. 1, the apparatus for removing heavy metals in the soil includes a mixing treatment unit 100, a precipitation unit 200, and a neutralization treatment unit 300.

The mixing processing unit 100 receives the soil to be washed containing the heavy metal, and then removes the heavy metal while stirring the soil to be washed. In such a mixed processing unit 100, waste activated sludge and a washing liquid are added to remove heavy metals in the soil to be washed. Here, the heavy activated metal in the soil to be washed is attached to and removed from the waste activated sludge, and the washing liquid is released while weakening the surface tension of the heavy metal in the soil to be washed or changing the heavy metal into a liquid phase. The mixing treatment unit 100 includes a mixing tank 110, a washing liquid supply line 120, a sludge supply line 130, a stirring means 140, and a first discharge line 150.

The mixing tank 110 is a tubular member that is agitated by receiving the washing target soil, the waste activated sludge, and the washing liquid. In the upper end of the mixing tank 110, an inlet 111 is formed to inject the soil to be cleaned into the inside. Then, the lower end of the mixing tank 110 is a large stone or gravel in the washing target soil, which is precipitated when the soil to be washed, the waste activated sludge, the washing liquid is stirred by the stirring means 140, etc. It has a venturi shape to be easily discharged through the first discharge line 150.

The cleaning solution supply line 120 is a tubular connection member for guiding and transporting the cleaning solution into the mixing tank 110 in a cleaning solution storage tank (not shown) in which the cleaning solution for cleaning the soil to be cleaned is stored. to be. One end of the washing liquid supply line 120 is connected to the upper portion of the mixing tank 110, and the other end is connected to the washing liquid storage tank. Here, the washing solution introduced into the mixing tank 110 through the washing solution supply line 120 uses a mixture of water and acid. In addition, the acid used in the washing solution, ethylenediamine tetraacetic acid (EDTA), hydrochloric acid (HCl), nitric acid (HNO ₃ ), acetic acid (CH ₃ COOH), phosphoric acid (H ₃ PO ₄ ) and citric acid (Citric acid) Use one of the groups selectively. The heavy metal in the soil to be washed is changed into a liquid phase by the washing liquid supplied through the washing liquid supply line 120, and the surface tension is weakened, and the heavy metal is easily separated from the soil to be washed. Here, the reference numeral 121 is installed on one side of the washing liquid supply line 120, so that the washing liquid supplied to the mixing tank 110 through the washing liquid supply line 120 does not flow back to the washing liquid storage tank. Check valve. In addition, reference numeral 122 is a pump that is connected to one side of the washing liquid supply line 120 to generate a suction feed force so that the washing liquid in the washing liquid storage tank can be easily transferred to the mixing tank 110.

The sludge supply line 130 is a tubular connection member for guiding and transporting the waste activated sludge to the mixing tank 110 in a sludge storage unit (not shown) in which waste activated sludge is stored. One end of the sludge supply line 130 is connected to the upper portion of the mixing tank 110, the other end is connected to the sludge storage tank. Here, the waste activated sludge, which is introduced into the mixing tank 110 through the sludge supply line 130, uses microorganisms that are disposed of after being disposed of in sewage or wastewater treatment plants, and removes heavy metals in the soil to be cleaned. Can be reduced. As such, the waste activated sludge causes the heavy metal to be adsorbed and desorbed upon stirring with the soil to be washed in the mixing tank 110. Here, reference numeral 131 is connected to one side of the sludge supply line 130, the pump for generating a suction feed force so that the waste activated sludge can be easily transferred from the sludge storage to the mixing tank 110. to be.

The stirring means 140 is a means for stirring the soil to be washed and the waste activated sludge and the washing liquid introduced into the mixing tank 110. That is, the stirring means 140 is stirred so that the heavy metal in the soil to be washed is easily separated by the waste activated sludge and the washing liquid, the particles in the soil to be washed inside the mixing tank (110). Large gravel or stones can be located at the bottom in the mixing tank 110 in a separated state by centrifugal force. Such, the stirring means 140 is a general known stirring device, the motor 141 is rotated when the power is applied with a pulley (not shown) is installed, the pulley belt of the motor 141 (not shown in the figure) Connected to the rotation of the motor 141 and the gearbox is vertically arranged in the reducer and accommodated in the mixing tank 110 to be interlocked when the reducer rotates. A stirring blade 142 for stirring the target soil and the waste activated sludge and the washing liquid is provided.

The first discharge line 150 is a tubular connection member connected to the lower end of the mixing tank 110. The first discharge line 150 is guided to discharge the washing target soil settled down by the stirring means 140 in the mixing tank 110 to the outside of the mixing tank 110. do. That is, the soil to be discharged through the first discharge line 150 is a gravel or stone having a relatively large amount of particles precipitated at the bottom of the mixing tank 110 by centrifugal force while being stirred. Here, reference numeral 151 is installed on one side of the first discharge line 150, and whether or not to discharge the soil to be washed through the first discharge line 150 while opening and closing the first discharge line 150 and Gate valve to control the discharge amount.

The precipitation unit 200 is precipitated by receiving the washing solution used to remove the heavy metal in the soil to be washed in the mixing tank 110 of the mixing processing unit 100. That is, the precipitation unit 200 is connected to the mixing tank 110 of the mixing processing unit 100, receives the washing liquid used for washing the soil to be washed from the mixing tank 110, in the washing liquid The soil to be washed, the waste activated sludge and the heavy metal are separated and precipitated. Such, the settling unit 200 includes a settling tank 210, washing liquid reuse line 220, circulating pump 230, the second discharge line 240.

The settling tank 210 is connected to the mixing tank 110 of the mixing processing unit 100, is a cylindrical member receiving the washing liquid used for washing the soil to be washed from the mixing tank 110. When the washing liquid used for washing the soil to be washed is introduced into the precipitation tank 210, the soil to be washed and the waste activated sludge and the heavy metal included in the washing liquid are precipitated at the bottom of the precipitation tank 210. do. Here, the lower end of the settling tank 210 has a venturi shape so that the soil to be washed and the waste activated sludge and the heavy metal in the washing liquid precipitated can be easily collected and discharged through the washing liquid reuse line 220. In addition, reference numeral 211 is installed at the connection portion of the settling tank 210 and the mixing tank 110, in the mixing tank 110 while opening and closing the connecting portion of the settling tank 210 and the mixing tank 110. It is a gate valve to control the supply and supply amount of the cleaning liquid is transferred to the settling tank (210). In addition, reference numeral 212 is installed at a connection portion between the settling tank 210 and the mixing tank 110 to generate a suction feed force so that the washing liquid of the mixing tank 110 is easily transferred to the settling tank 210. It is a pump.

The washing liquid reuse line 220 has a tubular shape for guiding the washing liquid in the upper part in which the soil to be washed and the waste activated sludge and the heavy metal precipitated back into the mixing tank 110 in the sedimentation tank 210. It is a connecting member. This, one end of the washing liquid reuse line 220 is connected to the settling tank 210, the other end is connected to the washing liquid supply line 120. Here, of course, the other end of the washing liquid reuse line 220 may be directly connected to the mixing tank 110 without being connected to the washing liquid supply line 120. Here, reference numeral 221 is installed at least one side of the washing liquid reuse line 220, the washing liquid transferred through the washing liquid reuse line 120 is the precipitation tank 210 or the neutralization treatment unit 300 to be described later Check valve to prevent backflow. And, the reference numeral 222 is installed on one side of the washing liquid reuse line 220, while opening and closing the washing liquid reuse line 220 to adjust the transfer and the amount of the washing liquid through the washing liquid reuse line 220 Gate valve.

The circulation pump 230 is connected to one side of the washing liquid reuse line 220. The circulating pump 230 generates suction transport force to the washing liquid reuse line 220, and the washing liquid of the upper portion of the waste activated sludge and the soil to be washed is precipitated inside the sedimentation tank 210. Through the reuse line 220 to be moved to the mixing tank 110.

The second discharge line 240 is a tubular connection member connected to the lower end of the settling tank 210. The second discharge line 240 guides the soil to be washed and the waste activated sludge and the heavy metal in the washing liquid precipitated in the settling tank 210 to be discharged to the outside of the settling tank 210. At this time, the soil to be settled to the bottom in the sedimentation tank 210 is sand and the like particles are relatively small compared to the gravel or stone. Here, reference numeral 241 is installed on one side of the second discharge line 240, and settles inside the settling tank 210 through the second discharge line 240 while opening and closing the second discharge line 240. It is a gate valve for controlling the discharge and the discharge amount of the soil to be washed and the waste activated sludge.

The neutralization treatment unit 300 discharges the washing solution in the settling tank 210 neutralized without being reused through the washing solution reuse line 220 to the outside. That is, the neutralization treatment unit 300 is connected to the precipitation tank 210 of the precipitation unit 200, and a neutralizing agent is added to neutralize the supplied washing solution. The neutralization treatment unit 300 includes a neutralization tank 310, a neutralizer input line 320, and a neutralizer discharge line 330.

The neutralization tank 310 is connected to the settling tank 210 of the settling unit 200, and receives the washing liquid from the settling tank 210 and the washing liquid of the upper part on which the waste activated sludge and the heavy metal are precipitated. It is a cylindrical member. In addition, one side portion of the neutralization tank 310 is provided with a discharge port 311 for discharging the washing solution neutralized in the neutralization tank 310 to the outside. Here, a gate valve 312 may be installed at one side of the discharge port 311 so that the discharge liquid and the discharge amount of the cleaning liquid contained in the neutralization tank 310 can be adjusted while opening and closing the discharge port 311. . In addition, the lower end of the neutralization tank 310 has a venturi shape so that the neutralizer precipitated after being supplied thereafter can be easily collected and discharged through the neutralizer discharge line 330. In addition, reference numeral 313 is installed at the connection portion of the settling tank 210 and the neutralization tank 310, the opening and closing the connecting portion of the settling tank 210 and the neutralization tank 310 in the settling tank 210 It is a gate valve to control the supply and supply amount of the cleaning liquid is transferred to the neutralization tank (310). In addition, reference numeral 314 is installed at the connection portion between the settling tank 210 and the neutralization tank 310, and generates a suction feed force so that the washing liquid of the settling tank 210 is easily transferred to the neutralizing tank 310. It is a pump.

The neutralizing agent supply line 320 is a tubular connection member for guiding the neutralizing agent into the neutralizing tank 310 in a neutralizing agent storage tank (not shown) in which the neutralizing agent for neutralizing the washing liquid is stored. One end of the neutralizer supply line 320 is connected to the neutralization tank 310, and the other end is connected to the neutralizer storage tank. The neutralizing agent introduced into the neutralization tank 310 through the neutralization supply line 320 uses a base component to neutralize the washing solution of an acid component. Here, reference numeral 321 denotes the neutralizing agent supply line ( Is installed on one side of the 320, the neutralizing agent supply line 320 while opening and closing the neutralizing agent supply to the neutralization tank 310 through the neutralizing agent supply line 320 and the gate valve for controlling the supply amount. In addition, reference numeral 322 is connected to one side of the neutralizer supply line 320 is a pump for generating a suction feed force so that the neutralizer in the neutralizer storage tank can be easily transferred to the neutralization tank (310).

The neutralizer discharge line 330 is a tubular connection member that is connected to the lower end of the neutralization tank (310). The neutralizing agent discharge line 330 guides the neutralizing agent precipitated in the neutralizing tank 310 to be discharged out of the neutralizing tank 310. Here, the reference numeral 331 is installed on one side of the neutralizer discharge line 330, while the neutralizer discharge line 330 is opened and closed in the neutralization tank 310 through the neutralizer discharge line 330 It is a gate valve that controls the discharge of neutralizer and the discharge amount.

Referring to Figure 1 the operation of the heavy metal removal device in the soil according to an embodiment made of such a configuration as follows.

First, the washing target soil contaminated with heavy metals is introduced into the mixing tank 110 through the inlet 111 of the mixing tank 110. Then, the washing liquid and the waste activated sludge are supplied into the mixing tank 110 through the washing liquid supply line 120 and the sludge supply line 130, respectively.

When the soil to be washed, the washing liquid and the waste activated sludge are supplied to the mixing tank 110, the stirring blade 142 rotates while power is supplied to the motor 141 of the stirring means 140. And the soil to be washed and the washing liquid and the waste activated sludge is stirred. When the soil to be washed and the washing liquid and the waste activated sludge are agitated in the mixing tank 110 by the stirring means 140, large stones or gravel in the soil to be washed are precipitated, Heavy metals in the soil to be cleaned are adsorbed and desorbed to the waste activated sludge and washed out by the washing liquid. Here, stones or gravel in the soil to be washed, which are settled at the bottom of the mixing tank 110, are discharged to the outside through the first discharge line 150.

Thereafter, the washing solution used in the mixing tank 110 is supplied to the settling tank 210. Thus, when the washing solution used in the mixing tank 110 of the settling tank 210 is supplied, the waste activated sludge and the target soil and the heavy metals contained in the washing liquid in the settling tank 210 while leaving it for a predetermined time. Allow the back to settle at the bottom. At this time, the soil to be precipitated in the settling tank 210 is mixed with the washing liquid while the particles are relatively small compared to the stone or gravel is precipitated some sand that is the remaining soil components not precipitated in the mixing tank (110). .

In this way, the washing liquid of the upper portion of the waste activated sludge and the soil to be washed and the heavy metal in the settling tank 210 is re-injected to the mixing tank 110 through the washing liquid reuse line 220. The soil to be washed and the activated activated sludge and the heavy metal deposited on the bottom of the settling tank 210 are discharged to the outside through the second discharge line 240.

As such, after the waste activated sludge and the soil to be washed and the heavy metals are precipitated in the settling tank 210, the remaining washing liquids which are not supplied to the mixing tank 110 through the washing liquid reuse line 220 are It is supplied to the neutralization tank 310.

When the washing solution is supplied to the neutralizing tank 310, while the neutralizing agent is input through the neutralizing agent input line 320, the washing liquid in the neutralizing tank 310 is neutralized. Thus, the neutralizing solution in the neutralization tank 310 is then discharged to the outside through the outlet 311, the neutralizing agent precipitated at the bottom in the neutralization tank 310 is the neutralizing agent discharge line 330 Is discharged to outside.

As such, the heavy metal removal apparatus in the soil of the embodiment, the waste target soil contaminated with heavy metals supplied to the mixing processing unit 100 using the waste activated sludge together with the washing liquid, the heavy metal in the soil to be washed It is removed while adsorbing and washing away. As such, while the heavy metal in the soil to be washed is removed by the waste activated sludge, the removal cost is reduced and the removal efficiency can be increased.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a schematic cross-sectional view of a heavy metal removal apparatus in soil according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

100: mixing treatment unit 110: mixing tank

120: washing liquid supply line 130: sludge supply line

140: stirring means 150: first discharge line

200: settling section 210: settling tank

220: washing liquid reuse line 230: circulation pump

240: second discharge line 300: neutralization treatment unit

310: neutralization tank 320: neutralizer injection line

330: neutralizer discharge line

Claims (6)

After mixing the waste activated sludge and the washing liquid into the soil to be washed, the mixed processing unit for the heavy metal in the soil to be washed away by adsorption and desorption to the waste activated sludge while stirring and washing and removing the heavy metal in the soil to be washed with the washing liquid; ; A precipitation unit connected to the mixing treatment unit and receiving the washing solution used in the mixing treatment unit to precipitate and separate the heavy soil separated from the soil to be washed and the waste activated sludge contained in the washing solution; And a neutralization treatment unit connected to the precipitation unit and receiving the washing solution of the upper portion from the precipitation unit and simultaneously adding a neutralizing agent to discharge the washing solution in a neutralized state. The method according to claim 1, The mixing processing unit, and a tub-shaped mixing tank provided with an inlet for injecting the soil to be washed, A tubular washing solution supply line connected to the mixing tank and injecting the washing liquid into the mixing tank; A tubular sludge supply line connected to the mixing tank to inject the waste activated sludge into the mixing tank; A stirring means accommodated in the mixing tank to stir the soil to be washed, the washing liquid and the waste activated sludge, which are put into the mixing tank; It is connected to the lower portion of the mixing tank, heavy metal removal apparatus in the soil comprising a tubular first discharge line for discharging the washing target soil precipitated by the stirring means in the mixing tank to the outside. The method according to claim 1, The precipitation unit is connected to the mixing treatment unit, and receives the washing liquid used for washing the soil to be washed from the mixing treatment unit, and precipitates the waste activated sludge and the washing soil and the heavy metal included in the washing liquid. A cylindrical sedimentation tank to separate, And tubular washing liquid reuse line for connecting the settling tank and the mixing treatment unit, Circulation connected to the washing liquid reuse line to generate a transfer force so that the washing liquid in the upper portion where the waste activated sludge in the washing liquid and the soil to be washed in the washing liquid settle in the settling tank is moved to the mixing treatment unit through the washing liquid reuse line. Pump and, It is connected to the lower portion of the sedimentation tank, heavy metal removal apparatus in the soil comprising a second discharge line of the tubular shape to discharge the washing target soil and the waste activated sludge in the washing liquid precipitated in the sedimentation tank to the outside. The method according to claim 1, The neutralization treatment unit is connected to the precipitation unit, the cylindrical neutralization tank provided with a discharge port so as to discharge the washing liquid of the upper portion supplied from the precipitation unit, It is connected to the neutralization tank, the tubular neutralizing agent input line for introducing the neutralizing agent into the neutralization tank, It is connected to the lower portion of the neutralization tank, heavy metal removal apparatus in the soil comprising a tubular neutralizer discharge line for discharging the neutralizer precipitated in the neutralization tank to the outside. The method according to any one of claims 1 to 4, The washing solution is a mixture of acid and water, the neutralizing agent is a base for removing heavy metals in the soil. The method according to claim 5, The acid is any one selected from the group consisting of ethylenediamine tetraacetic acid (EDTA), hydrochloric acid (HCl), nitric acid (HNO ₃ ), acetic acid (CH ₃ COOH), phosphoric acid (H ₃ PO ₄ ) and citric acid (Citric acid). Heavy metal removal device in soil.

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