KR20050038232A - Soil washing method and facility for physical separation and remediation of polluted soil - Google Patents

Abstract

The present invention relates to a soil washing method and apparatus for the restoration and screening of contaminated soil.

The method of the present invention comprises a process for purifying contaminated soil, comprising the steps of dry sorting contaminated soil first, followed by wet sorting by high pressure spraying, primary washing, secondary washing and dehydration; Condensation washing solution generated in the wet screening step and the first and second washing step is collected and precipitated first, and then made of a sludgeization and washing solution circulation process consisting of agglomeration, secondary precipitation, neutralization and resupply, to implement this The apparatus is composed of a dry separator, a high pressure water separator, a drum type primary washing tank, a screw conveying secondary washing tank, a centrifugal dehydrator, a primary sedimentation tank, a flocculation tank, a secondary sedimentation tank, a neutralization tank, a filter press, and the like.

In the soil washing method of the present invention, the washing efficiency is improved by the washing liquid injector of the primary washing tank rotating in the opposite direction to the body, spraying the washing liquid radially, and stirring the washing liquid, and effectively classifying the fine soil by the stirrer in the secondary washing tank. It is expected that the cleaning and recovery efficiency of contaminated soil can be significantly improved.

Description

Soil washing method and apparatus for physical separation and remediation of polluted soil

The present invention relates to a soil washing method and apparatus for restoration and screening of contaminated soil, and more particularly, after digging soil contaminated by arsenic, heavy metals, tailings, etc., to wash the contaminated soil in a drum-type primary washing tank. At the same time, after separating and discharging the suspended soil with a large amount of contaminants and the sedimented soil with a small amount of contaminants, the separated sediment soil is washed in a secondary washing tank and discharged into granular and granulated soil at the same time. The fine soil is recovered from the primary washing tank together with the suspended soil, which is made into waste sludge for disposal through sedimentation, flocculation and dehydration processes. The present invention relates to a soil washing method and apparatus for sorting treatment.

Since the Industrial Revolution, today's industries have been developed almost entirely based on petroleum energy, and today's living standards have improved to a level comparable to before the Industrial Revolution. It is a serious problem that threatens life.

Environmental pollution can be classified into air pollution, water pollution, and soil pollution. Among them, soil pollution can be a very serious threat to food production, and it can cause pollution of drinking water sources through surface water and groundwater pollution. Therefore, contaminated soil must be cleaned up quickly.

However, today's industry is based on the mechanical industry, and almost all machines need oil directly, such as lubricating oils and fuels, and in particular, oil consumed by various vehicles, one of the most essential in modern life. The amount of oil is consumed so much that it cannot be measured, and due to the carelessness and inevitability of oil during transportation, storage and use, a large amount of oil is leaked to the outside and polluting the soil.

In addition, the soil is contaminated by various organic or inorganic compounds and heavy metals contained in the tailings flowing out of the mine, in addition to the oil as described above, various methods have been researched and developed to restore the contaminated soil.

Methods for restoring contaminated soil include physicochemical methods such as soil washing, incineration, solidification, stabilization and solvent extraction, and biological methods such as soil cultivation, composting, bioventing, and plant restoration. As can be distinguished, it is relatively easy among the various methods as described above, and because of the short treatment time, it is the soil washing that can quickly restore the contaminated soil.

Soil cleaning is a technique that reduces the surface tension of harmful organic pollutants bound to soil particles by using an appropriate cleaning agent, or converts heavy metals into liquid phase to separate them from soil particles, which can remove a wide range of organic and inorganic pollutants. Bar, there is an advantage that can be applied regardless of the type of contaminants.

The soil cleaning technique was first developed in the United States in the late 1970s, but is now more developed and used in Europe than the United States, and is one of the most widely used methods for restoring contaminated soil. It is suitable for the current situation in which a large amount of various organic and inorganic pollutants are discharged, and is recognized as one of the methods of purifying relatively economically and efficiently.

The soil washing method can be divided into field treatment (In-situ method) and off-site treatment (Ex-situ method), the field treatment method does not excavate contaminated soil, washing solution injection well, washing solution discharge well, washing Effluent treatment facility, pump and instrumentation facility, and volatile material treatment facility are installed in the contaminated site to circulate the wash water in the contaminated soil to treat the contaminated soil directly. Because of this, if you want to wash the soil mainly the off-site treatment method is applied.

The off-site treatment method detects the distribution of contaminants in soil and physical / chemical characteristics of the soil, excavates the contaminated soil in the range to be treated, and then removes the contaminated soil excavated using an appropriate cleaning solution at As a method of washing, generally referred to as soil washing.

As a device for washing soil as an off-site treatment method as described above, the domestic registration utility model publication Nos. 20-0304970 and 20-0317747 disclose a soil washing apparatus and a large-scale soil washing system, respectively.

The soil washing apparatus has a compact advantage, but not only the washing of the soil is performed once, but also formed on the inner circumferential surface of the washing tub in the state of being deposited in the washing liquid filled in the lower portion of the washing tub and rotating on the spiral blade rotating together with the washing tub. There is a disadvantage that the cleaning efficiency is low because it is simply washed while moving the contaminated soil.

In addition, although the large-scale soil washing system performs the washing of the soil in multiple stages, since the upper washing liquid spray nozzle installed in the log washer as the main washing apparatus sprays the washing liquid in one direction toward the rotating shaft, Spray cleaning efficiency is reduced.

The present invention was devised to solve all the problems of conventional soil cleaning methods and devices for purifying contaminated soil, and when fractionating treatment of soil, tailings and other sediments contaminated with heavy metals or other contaminants including arsenic. Cleaning liquid spray nozzle for spray cleaning is located at the center of the rotating drum type washing tank, and the cleaning liquid is sprayed radially high pressure toward the inner circumferential surface of the cleaning tank to improve the cleaning efficiency by maximizing the spray cleaning efficiency, and at the same time recycling rate of the cleaning liquid It is an object of the present invention to provide a method and apparatus for cleaning contaminated soil that can reduce the treatment cost by increasing.

The object of the present invention is to select the contaminated soil in a dry method and a wet method, and the washing solution circulation method for sedimentation, flocculation and neutralization of the contaminated washing liquid used for washing, and installed in the central axis of the closed primary washing tank, It is achieved by a stirrer provided in the rotary shaft with stirring blades and an open secondary washing tank.

The soil washing method for restoring and screening contaminated soil according to the present invention starts with the first step of dry sorting the contaminated soil, followed by the purification of contaminated soil consisting of wet screening, primary washing, secondary washing and dewatering by high pressure spraying. Process; The contaminant washing solution generated in the wet screening step and the first and second washing steps are collected and precipitated first, followed by sludgeization and washing solution regeneration process including agglomeration, secondary precipitation, and neutralization. The technical characteristics of the present invention are that the fine soil having high contaminant is classified and introduced into the sludge and washing solution circulation process while allowing the soil to be classified and washed by stirring during the washing and the second washing under the strong stirring force by rotation. have.

Apparatus for implementing the method of the present invention made as described above, dry sorter, high pressure sprinkler, drum type primary washing tank, screw transfer type secondary washing tank, centrifugal dehydrator, primary sedimentation tank, flocculation tank, secondary precipitation tank, neutralization Bar, filter press and the like, which will be described in more detail the role in the method of the present invention performed by each component constituting the apparatus of the present invention.

Dry sorter is a device for the primary removal of particles such as gravel of 30 to 60 mm or more in diameter, and the selected particles having a diameter of 60 to 60 mm or more are covered in the place where the contaminated soil is excavated. The screening is because, in the case of soil contamination, the surface area-to-volume ratio varies according to the size of each particle constituting the soil, and accordingly, the soil contamination of each particle varies.

That is, the smaller the soil particle size, the stronger the adsorption force with the pollutant, the higher the surface area-to-volume ratio, so that the concentration of the pollutant adhering to the particle surface is relatively increased. If you do not clean the soil, it is not suitable for covering soil in the unwashed state. If it is larger than 60mm, the soil of the selected soil is reduced and can be used for washing without washing. The amount of soil injected increases rapidly, increasing the process load.

Therefore, it is preferable to adjust the soil selection criteria within the above range according to the type of contaminants and the overall pollution degree.

The high pressure sprinkler is pre-washed by agitating while spraying high pressure water into the first sorted soil in the dry sorter through the fractionation process before entering the primary washing tank, and at the same time, the small particles Apparatus for sorting soil composed of relatively large particles, which are ground to be suitable for the separation process of soil particles simultaneously with the first and second washing and washing, and the degree of contamination may be reduced to the level suitable for covering soil by preliminary washing. As a result, a soil screen having a diameter of 10 mm or more, which can be used for covering soil, is wet-separated from the washing liquid by an inclined screen installed at the bottom. When the screening criterion is smaller than 10 nm, the soil contamination of the selected soil is increased only by preliminary washing. May not be suitable for covering soil.

That is, in the high pressure sprinkler, the soil particles are pulverized by the high pressure injection of the washing liquid and the stirring action thereof, and the granulated soil is separated by the inclined screen which is deposited in the washing liquid. Pretreatment is performed to fractionally wash particulate soil such as clay, fine sand and the like.

The closed drum type primary washing tank is a device for separating contaminants adhering to the surface of soil particles by agitation and high pressure injection of the washing liquid.The inner circumferential surface of the rotating drum primary washing tank body has a large particle size and goes inside the washing tank. The feed blade for transporting the sitting soil is spirally attached, and a plurality of nozzles and stirring vanes for spraying the washing liquid at high pressure on the rotating shaft which rotates in the opposite direction to the body are attached to the rotational central axis position of the primary washing tank body. There is a structural feature in that the cleaning liquid injector is installed.

Therefore, the primary washing tank is made of the rotary washing of the automatic washing machine method by the rotating body, and the impact washing by the washing liquid sprayed radially high pressure by the washing liquid sprayer rotating in the opposite direction to the body is made at the same time, the body The stirring blade rotates in the opposite direction to the stirring of the input soil and the washing liquid more efficiently, thereby improving the washing efficiency.

In addition, a pair of discharge ports are provided on the opposite side of the contaminated soil inlet provided at one end of the primary washing tank, and the particle size is small through the first discharge port having a screen mounted therethrough through the inner circumferential surface adjacent to the other end. The soil particles suspended in the soil and the contaminants removed from the contaminated soil by the washing are discharged to the primary sedimentation tank together with the washing liquid, and through the second outlet formed in the center of the other end, the particle size is large and sinks to the inner circumferential surface. Soil particles that do not pass through the screen of the discharge port are guided to the transfer blade on the inner circumferential surface and discharged to the secondary washing tank.

The screw transfer type secondary washing tank is divided into a stirring washing tank and a transfer washing tank, and receives the soil discharged through the second outlet of the primary washing tank, washes it secondly and agitates it, and then converts it into fine soil and granulated soil. As a device for separating, the particulate soil re-separated from the soil discharged through the second outlet is suspended in the washing liquid in the stirring washing tank and overflowed with the washing liquid to be transferred to the primary sedimentation tank, and the granulated soil passed through the stirring washing tank. The silver is washed by the washing liquid sprayed and passed through the transfer washing tank by the transfer screw to be discharged to the outside of the secondary washing tank and used for covering after dehydration.

At this time, the stirring action performed in the stirring washing tank is effective to improve the washing efficiency of the granulated soil at the same time by floating the fine soil separated from the soil input from the primary washing tank.

Soil discharged together with the washing liquid through the overflow from the first outlet and the second washing tank of the primary washing tank is a relatively high pollution micro soil, the washing liquid discharged with the soil also contains various pollutants separated from the contaminated soil After re-separating the soil that can be used for cover by primary sedimentation, the final fine soil and contaminants that were not separated by primary sedimentation are sludged and dehydrated through coagulation and secondary sedimentation process. The final wash liquid from which the sludge is separated is neutralized and then recycled.

Details of the effects and the resulting effects, including the object and technical configuration of the present invention will be clearly understood by the following description with reference to the drawings showing a preferred embodiment of the present invention.

Figure 1 shows a block diagram of an embodiment of the soil washing method for the restoration and screening treatment of the present invention contaminated soil, Figure 2 shows a block diagram of an embodiment device for implementing the present invention method, Figure 3 One embodiment constituting the present invention is a coupling diagram of the high pressure water sprinkler and the primary washing tank, the structural diagram of the secondary washing tank is shown in FIG.

As shown, the method of the present invention, the dry screening step 101 for separating the soil particles 30 to 60mm or more by dry screening the excavated contaminated soil, and

Through the dry sorting step 101, the washing solution is sprayed onto the contaminated soil from which the soil particles having a diameter of 30 to 60 mm or more are removed, and at the same time, the soil particles having a diameter of 10 mm or more are pulverized after crushing the agglomerated soil. A sprinkling sorting step 102 separated by wet screening,

Through the sprinkling screening step 102, the contaminated soil from which soil particles 10 mm or more in diameter are removed is put into a closed drum-type primary washing tank to rotate in the reverse rotation and rotation shafts of the stirring blades provided on the body and the rotating shaft of the primary washing tank. A primary washing step 103 for washing by the radially sprayed scale solution and separating and discharging each into a floating soil containing contaminants suspended in the washing liquid and a sedimentary soil submerged on the inner circumferential surface of the primary washing tank;

The sedimentation soil separated and discharged in the first washing step 103 is stirred and washed together with the washing liquid to overflow the fine soil suspended in the washing liquid and discharged into the primary sedimentation tank. A second washing step 104 of spraying the washing liquid onto the washing and separating and discharging it with the transfer screw;

A contaminated soil purification process (100) consisting of a dehydration step (105) of removing water from the granulated soil separated and discharged in the second washing step (104);

A primary precipitation step 201 for separating the precipitated soil by collecting and sedimenting the floating soil and the fine soil discharged from the first and second washing steps, respectively;

In the first precipitation step 201, the flocculating agent, such as alumina alumina, iron chloride or the like, is added to the washing solution from which the precipitated soil is separated and agitated to agitate to promote the flocculation reaction.

In the flocculation step 202, the precipitation solution into which the flocculant is injected is precipitated to form a secondary sludge 203, and

Sludge and washing solution regeneration process 200 proceeds in the order of the neutralization step 204 of regenerating the washing solution by neutralizing the washing liquid separated from the sludge using a neutralizing agent such as lime or sodium hydroxide, the second precipitation step ( The sludge separated at 203 is dehydrated and discarded by the filter press 20 or the like, and the regenerated washing liquid is recycled to the contaminated soil purification process 100.

Apparatus for implementing the method of the present invention made as described above, the conveyor belt installed in the lower portion to transfer the contaminated soil selected through the dry screening machine (11A) and the screening machine (11A) vibrating in an inclined state. A dry sorter 11 composed of 11B;

The dry sorted contaminated soil supplied from the conveyor belt 11B is introduced, and a spraying tank 12A having a spray nozzle N ₁ installed thereon for spraying a high pressure washing liquid thereon, and the contaminated soil introduced into the spraying tank 12A. A high pressure sprinkler separator 12 composed of an inclined screen 12B provided at the bottom of the sprinkler tank 12A for sorting;

To the high pressure sprinkler sorter 12, one end of the cone is gradually connected to the outer diameter is gradually reduced to the outside and the second outlet (O ₂ ) and the first outlet (O ₁ ) are formed on the inclined inner circumferential surface adjacent the other end and the other end, respectively. And a cylindrical blade 13A which is attached to the inner circumferential surface in a spiral shape and is rotatable in order to transfer soil that sinks to the inner circumferential surface, and is installed on a central axis of rotation of the cylindrical body 13A, the body 13A. A first washing tank 13 including a washing liquid injector 13B having a plurality of spray nozzles N ₂ and stirring blades W attached to an outer circumferential surface of the rotating shaft X rotating in a direction opposite to the direction of rotation;

It is installed under the secondary outlet (O ₂ ) of the primary washing tank 13 and extended to be inclined upward toward the outside from one side of the stirring washing tank 14A and the stirring washing tank 14A installed therein. And a secondary washing tank 14 having a conveying screw S which is connected to the rotating shaft of the stirrer M and rotates together, and has a conveying washing tank 14B having a washing liquid spray nozzle N ₃ installed thereon. ;

A centrifugal dehydrator 15 for cleaning the soil through the secondary washing tank 14 and dewatering the soil transferred by the transfer screw S;

Primary sedimentation tank for precipitating soil having a relatively large particle size from the first discharge port (O ₁ ) of the primary washing tank (13) and the stirring washing tank (14A) and the soil having a relatively large particle size from the soil and fine soil, respectively. (16);

A flocculation tank (17) for administering and stirring a flocculant to the washing liquid supplied while the precipitated soil is removed from the primary precipitation tank (16);

A secondary precipitation tank 18 for secondary precipitation of the washing solution supplied in the state in which the flocculant is administered in the flocculation tank 17 to form sludge;

A neutralization tank 19 for neutralizing and regenerating the washing liquid from which the sludge supplied from the secondary settling tank is removed;

It is divided into a filter press 20 for dewatering the sludge formed in the secondary sedimentation tank 18, and it is a natural facility for various motors, pumps, and control panels for operating the respective components, supplying and circulating the washing liquid and the regenerative washing liquid. The description is omitted as.

In the apparatus of the present invention constituted as described above, the most essential equipment is a primary and secondary washing tank, and its role will be described in more detail as follows.

In the closed drum type primary washing tank, the rotational direction of the body and the rotation of the cleaning liquid injector are made in the opposite directions, and the spraying of the cleaning liquid radially toward the inner circumferential surface of the body from the position of the central axis of the body rather than in one direction is contaminated. In order to induce the desorption of contaminants in the soil by vigorous stirring with washing.

That is, in the primary washing tank, since the washing water is sprayed radially from the center of the rotating shaft, the contact efficiency with the soil is increased, so that the washing is made more smoothly, and the body rotates in the opposite direction to the reverse rotation agitation by the washing liquid sprayer. This allows the agitation force to be doubled to maximize the removal of contaminants attached to the soil.

As shown in FIG. 5, the stirring degree and the washing efficiency have a relationship in which the washing efficiency increases as the stirring speed increases, so that the relative stirring speed can be efficiently increased by reversely rotating one side. As described above, there is a structural and technical feature of the primary washing tank constituting the present invention in such a manner that the stirring is performed by reverse rotation while spraying the washing liquid radially from the center of the rotating shaft.

In addition, the stirrer installed in the stirring washing tank in the semi-opening screw transfer type secondary washing tank increases the floating time of the particulate soil to effectively induce movement to the primary settling tank due to overflow.

That is, in order to prevent the transfer of particulate soil such as silt and clay together with the granulated soil conveyed by the conveying screw connected to the stirrer, agitate the particulate soil by installing the washing liquid spray nozzle directly on the conveying screw and spraying the washing liquid. At the same time, the floating time of the fine soil is increased by agitation, thereby increasing the separation efficiency of the fine soil due to overflow.

At this time, the rotating shaft of the stirrer and the rotating shaft of the feed screw is connected to the constant velocity joint, the transfer washing tank is installed with a hydraulic device so that the inclination can be adjusted, the size of the granulated soil transported by adjusting the inclination of the transport washing tank It can be adjusted.

The contaminated soil treated in the apparatus of the present invention configured as described above is composed of soil having a diameter of 30 to 60 mm or more separated from a dry sorter, and particles having a diameter of 10 mm or more and less than 30 to 60 mm in diameter separated from a high pressure sprinkler. It is separated and discharged into composed soil, granulated soil separated from the secondary washing tank, sedimented soil separated from the primary load tank and sludge separated from the secondary sedimentation tank, and the rest except the sludge is dehydrated or naturally dried according to the water content. It is used as it is for cover.

That is, various kinds of contaminants including heavy metals attached to contaminated soils and highly contaminated soils through a dry sorting step, a high pressure spray screening step, a first washing step, a second washing step, a first precipitation step and a second deposition step. And fine soil is hatched off as sludge and then disposed of.

As described above, the soil washing method of the present invention is provided in the first washing tank and the drop and washing of the contaminants attached to the soil by the drum-type body and the washing liquid injector rotating in the reverse direction is smoothly made, the second As the fine soil is effectively sorted together with the agitator at the bottom of the washing tank, the cleaning and recovery efficiency of the contaminated soil can be remarkably improved. In particular, it is more effective for soils with high content of particles such as sand or gravel. It is expected to be.

1 is a process block diagram of an embodiment method of the present invention.

2 is a block diagram of an embodiment of the present invention.

Figure 3 is a partial cutaway front view of the primary cleaning tank constituting the apparatus of the present invention.

4 is a structural diagram of a secondary washing tank constituting the apparatus of the present invention.

5 is a graph of correlation between stirring speed and washing efficiency.

           ((Explanation of symbols for main part of drawing))

           11. Dry sorter 12. High pressure sprinkler sorter

           13. Primary Wash Tank 14. Second Wash Tank

           15. Centrifugal dehydrator 16. Primary sedimentation tank

           17. Coagulation tank 18. Secondary settling tank

           19. Neutralizer 20. Filter Press

Claims (9)

A dry sorting step 101 for separating particles having a diameter of 30 to 60 mm or more from contaminated soil; A sprinkling screening step 102 for separating particles having a diameter of 10 mm or more while spraying a washing solution onto the contaminated soil from which particles of 30 to 60 mm or more are removed; The stirring blade and the drum-shaped body are rotated counterclockwise, and the contaminated soil in which 10 mm or more in diameter is removed is introduced into the first washing tank in which the washing liquid is sprayed radially from the rotational central axis. A first washing step 103 for separating and discharging the soil; A transfer screw for discharging the sedimented soil separated and discharged in the first washing step together with the washing liquid to float the fine soil suspended in the first settling tank by overflow, and discharging the granulated soil from which the fine soil is separated from the upper part. A second washing step 104 which is discharged to the furnace; Decontaminated soil purification process (100), comprising the step (105) of dewatering the granulated soil separated and discharged in the second washing step: A primary precipitation step 201 for precipitating the suspended soil and the fine soil discharged with the washing liquid in the first and second washing stages and separating the precipitated soil into sedimentation soils; An aggregating step 202 of adding and stirring a flocculant into the washing liquid from which the precipitated soil is separated and removed; A second precipitation step 203 for precipitating and separating the sludge into which the flocculant has been added; Sludge and washing solution regeneration process (200) comprising a neutralization step of regenerating the washing solution by neutralizing the washing solution is separated sludge (200): Soil washing method for the restoration and contaminated soil of the soil characterized in that consisting of. The method of claim 1, wherein the dry sorting step (101) is made by a dry screening method. The method of claim 1, wherein the separation of the soil particles in the sprinkling screening step (102) is a soil washing method for the restoration and contaminant treatment of contaminated soil, characterized in that the wet screening method consisting of a gradient screen deposited in the wash liquid. A dry sorting machine (11) composed of a dry screening machine (11A) and a conveyor belt (11B) installed at a lower portion thereof; A high pressure water sprinkler composed of a sprinkling tank 12A having a contaminated soil supplied from the conveyor belt 11B and a washing liquid spray nozzle N ₁ installed at the top, and an inclined screen 12B provided at the bottom of the sprinkling tank 12A. 12; One end is connected to the high pressure sprinkler sorter 12, and a second discharge port O ₂ and a first discharge port O ₁ are formed on the inner circumferential surface adjacent to the other end and the other end, respectively, and a spiral feed blade B is attached to the inner circumferential surface. And a plurality of injection nozzles N ₂ and stirring blades W are attached to a cylindrical body 13A rotatable and an outer circumferential surface of the rotation shaft X rotatably installed on a rotation center axis of the body 13A. A first washing tank 13 including a washing liquid injector 13B; It is installed directly below the secondary outlet (O ₂ ) of the primary washing tank 13 and the stirring washing tank 14A having an agitator (M) installed therein, extending from one side of the stirring washing tank 14A to the outside and conveying screw ( A secondary washing tank 14 having an S) mounted therein and a transfer washing tank 14B having a washing liquid spray nozzle N disposed thereon; A centrifugal dehydrator 15 for dewatering the soil transferred by the transfer screw S of the secondary washing tank 14; A primary sedimentation tank (16) for sedimenting the washing liquid containing the floating soil and the fine soil transferred from the primary washing tank (13) and the stirring washing tank (14A), respectively; A coagulation tank 17 for administering and stirring the coagulant to the washing solution in which the primary precipitation is formed; A secondary sedimentation tank 18 for depositing the washing solution to which the flocculant is administered to form sludge; A neutralization tank 19 for neutralizing the washing liquid from which the sludge is removed; Soil cleaning apparatus for the restoration and screening treatment of contaminated soil, characterized in that it comprises a filter press for dewatering the sludge. 5. The soil washing apparatus according to claim 4, wherein both ends of the primary washing tank (13) body (13A) have a conical shape whose diameter decreases toward the outside. The method of claim 4, wherein the rotating shaft (X) of the washing liquid injector 13B installed in the primary washing tank 13 rotates in a direction opposite to the rotation direction of the body 13A. Soil washing device for treatment. 5. The soil washing apparatus of claim 4, wherein the transfer washing tank 14B of the secondary washing tank 14 is inclined upwardly from one side of the stirring washing tank 14A to the outside. . 8. The soil washing apparatus of claim 7, wherein the upward slope of the transfer washing tank (14B) is adjusted. The soil washing apparatus according to claim 3, wherein the transfer screw (S) inside the transfer washing tank (14B) is connected to the agitator (M) of the stirring washing tank (14A).