JP4697719B2 - Method for purifying contaminated soil and separation apparatus used therefor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a method for purifying contaminated soil, which can improve cleaning efficiency and reduce the purification cost of contaminated soil, and a separation apparatus used therefor.
[0002]
[Prior art]
  In recent years, it has become clear that various manufacturing factories and the soil at the site are contaminated with pollutants such as oil and heavy metals, which has become a social problem.
  In addition, crude oil and fuel oil spilled from marine accidents such as tankers, beach soil contaminated by waste oil illegally dumped from ships, and soil (including excavated soil) to which crude oil from the oil mining site is attached. There was no appropriate purification method in relation to costs.
[0003]
[Problems to be solved by the invention]
  Against this background, it is desirable to establish a technology that makes it possible to reuse land by removing pollutants from contaminated soil, protects the natural environment, and reuses soil from which pollutants have been removed. Yes.
[0004]
  By the way, there is a soil washing method as one of the purification methods for contaminated soil containing oil and heavy metals. The conventionally proposed soil washing methods have a high concentration of pollutants, and oil and heavy metals contain heavy oil or heavy metals. In the case of tar, it is necessary to use a large amount of water, go through multiple washing steps, or use a cleaning aid such as a surfactant to remove contaminants adhering to the surface of the earth and sand. It was.
  Therefore, in such a soil cleaning method, in addition to equipment costs, water treatment costs, costs for cleaning aids such as surfactants increase, and the unit cost of treatment increases, resulting in poor practicality. there were.
[0005]
  In view of the problems of the conventional contaminated soil purification method, in particular, the soil cleaning method, the present invention improves the cleaning efficiency and reduces the contaminated soil purification cost. The first object is to provide a separation apparatus used therefor.
[0006]
  In addition, the present invention can easily separate substances containing contaminants such as oil and heavy metals such as concrete husks and coal husks, and can further improve cleaning efficiency and reduce the purification cost of contaminated soil. A second object is to provide a method for purifying contaminated soil.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, the method for purifying contaminated soil according to the present invention preliminarily removes earth and sand to which contaminants including oil are attached.Set in the range of 20-50mmClassify by a sorter with a predetermined particle size, add water to each classified sediment, introduce it into the washer, and remove contaminants adhering to the surface of the sediment by friction between the sediments in the washer. Is introduced into a separation tank equipped with water and a separation apparatus equipped with a vibrating screen and an air supply means, and in the separation tank of the separation apparatus, vibration is applied to the earth and sand and air bubbles are blown to settle. Thus, it is characterized by separating earth and sand and contaminants.
[0008]
  In this method of purifying contaminated soil, first, the soil is classified by a sorting machine with a predetermined particle size from which the contaminant is easily separated from the sediment to which the pollutant containing oil is attached, and the classified soil is classified for each classified soil. By adding water and introducing it into the washing machine, the earth and sand having a predetermined particle size or more classified by the sorter can be easily washed away because the contaminants are easily separated. The load of can be reduced.
  The classified earth and sand are added to each classified earth and introduced into the washing machine, and the contaminants adhered to the surface of the earth and sand are removed by friction between the earth and sand in the washing machine, and the water containing the earth and dirt is removed. Are introduced into a separation tank equipped with water and a separation apparatus equipped with a vibrating screen and an air supply means, and in the separation tank of the separation apparatus, vibration is applied to the earth and sand, and air bubbles are blown and settled to cause sediment. And separating contaminants, without using a cleaning aid such as a surfactant, the contaminants attached to the surface of the earth and sand can be separated and separated with a small amount of water. Sediment can be reused.
[0009]
  In this case, after washingMore than the predetermined particle sizeThe bulk material containing the pollutant contained in the earth and sand is separated manually, or the substance containing the pollutant contained in the washed sand and sand is separated using the difference in specific gravity. Can do.
[0010]
  As a result, it is possible to easily separate substances such as concrete husks and coal husks that contain pollutants and are difficult to separate from other earth and sand, further improving the cleaning efficiency and reducing the purification cost of contaminated soil. can do.
[0011]
  Moreover, the water treatment process can be performed after introducing the washing water containing the fine earth and sand after the washing into the specific gravity stabilizer and separating the earth and sand having a relatively large particle size from the fine earth and sand. .
[0012]
  Thereby, the load of a water treatment process can be reduced significantly and the reuse rate of washing water can be improved.
[0013]
  Moreover, the separation device of the present invention used in the method for purifying contaminated soil of the present invention includes a separation tank filled with water into which water containing earth and sand and contaminants is introduced, and a vibrating means near the bottom of the separation tank. An vibration screen that is arranged to vibrate and passes through the introduced earth and sand while applying vibration, and an air supply that is arranged under the vibration screen and blows bubbles toward the earth and sand on the vibration screen In the separation apparatus used for the purification of contaminated soil comprising means and a conveying means for carrying out the settled sediment, a stirring blade having an outer peripheral portion surrounded by a cylindrical body is disposed at the introduction portion of the soil and the water containing the contaminant in the separation tank. And an annular overflow trough is formed on the outer peripheral portion of the cylindrical body.
[0014]
  The separation device used for the purification of contaminated soil is designed to blow air bubbles while applying vibration to the earth and sand by means of a vibrating screen and air supply means, so that it is detached from the surface of the earth and sand by friction between the earth and sand in the washing machine. The contaminated material can be reliably separated from the earth and sand, and the settled earth and sand can be carried out by the conveying means.
  Then, a stirring blade having an outer peripheral portion surrounded by a cylinder is disposed in the introduction portion of water containing earth and sand and contaminants in the separation tank, and an annular overflow trough is formed on the outer peripheral portion of the cylinder. , By synergistic action with air bubbles, the pollutant is reliably separated from the earth and sand, and the pollutant containing oil floating in the cylinder is allowed to flow over the annular overflow trough formed on the outer periphery of the cylinder, It can be discharged efficiently.
[0015]
  In this case, the separation device used for the purification of the contaminated soil includes a foam removal blade that discharges the foam on the water surface by rotating it from the separation tank, and a vacuum device that sucks up the pollutant containing oil floating on the water surface. be able to.
[0016]
  As a result, the contaminants separated and separated from the surface of the earth and sand can be reliably separated from the earth and sand and recovered together with a small amount of water, and the separation and recovery of the contaminants in an oil separator or the like in the subsequent process is efficiently performed. be able to.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a method for purifying contaminated soil according to the present invention and a separation apparatus used therefor will be described below with reference to the drawings.
[0018]
  1 and 2 to 3 show an embodiment of the method for purifying contaminated soil of the present invention.
[0019]
  In this earth and sand processing method, earth and sand with contaminants such as oil and heavy metals are applied to a sorter 28, and earth and sand having a predetermined particle size (Nmm) or more that is easy to separate contaminants is classified by the sorter 28.
  In this case, the classification can be determined according to the contaminated soil to be purified, but the particle size (Nmm) is set to a particle size in the range of 20 to 50 mm (in this example, 40 mm)..
[0020]
  Although not particularly limited, in the present embodiment, those having a particle diameter of 100 mm or more are difficult to be introduced as they are into the washing machines 3 and 7 described later, and therefore are classified separately by the sorter 28, It can be reused by simply washing with rinsing water, or it can be crushed to the extent that it can be introduced into the washing machines 3 and 7 and applied to the sorting machine 28 again.
[0021]
  Then, the soil A having a small particle size containing a large amount of contaminants, which is classified and removed from the soil having a predetermined particle size (Nmm) or more, is put into the hopper 1 and is washed by the belt conveyor 2 as shown in FIG. After being transported to 3, it is hydrated in this washing machine 3, and by performing mutual polishing by friction between the earth and sand, the contaminant D on the surface of the earth and sand A is detached as shown in FIG.
  At this time, the magnetic substance can be removed by the magnetic separator 29 as necessary.
[0022]
  The washing machine 3 is not particularly limited to this type, but includes a drum 31 that is rotatably provided, and a rotor 32 that is eccentrically provided in the drum 31 and rotates in a direction opposite to the drum 31. The drum 31 and the rotor 32 are ground and sanded by rotating each other in reverse while applying pressure to the earth and sand.
  As a result, the rubbing force between the earth and sand is applied to the earth and sand A containing the pollutant, and the sand and sand are subjected to mutual polishing by friction between the earth and sand. As shown in FIG. The soil D can be finely sized as shown in FIG.
[0023]
  Next, the water containing the soil A and the contaminant D from which the contaminants adhered to the surface are separated is separated from the separation tank 41 filled with water shown in FIGS. 5 to 8, the vibration screen 42, and an air blow pipe as an air supply means. Introducing into the separation device 4 provided with 43, in the separation tank 41 of this separation device 4, the earth and sand A and the pollutant D are separated by imparting vibrations to the earth and sand and blowing air bubbles.
  At this time, in the pollutant D, oil and the like float on the water surface, while heavy metals and the like float in the water.
[0024]
  As shown in FIGS. 5 to 8, the separation device 4 is provided with a separation tank 41 filled with water into which water containing earth and sand A and a contaminant D is introduced, and is disposed in the vicinity of the bottom of the separation tank 41 so as to vibrate. A vibrating screen 42 that allows the introduced earth and sand A to pass while applying vibration, and an air blow pipe 43 that is disposed under the vibrating screen 42 and that supplies air bubbles into the separation tank 41. A belt conveyor 44 is provided below the air blow pipe 43 and serves as a conveying means for carrying out the sediment A and sediment.
[0025]
  A stirring blade 48 having an outer peripheral portion surrounded by a cylinder 48a is disposed at the introduction portion of the water containing the earth and sand A and the pollutant D in the separation tank 41 following the charging port, and the upward flow flows into the cylinder 48a. Alternatively, a downward flow, an upward flow and a downward flow are alternately generated, and an annular overflow trough 49a connected to the overflow trough 49 is formed on the outer peripheral portion of the cylindrical body 48a. .
[0026]
  Further, in the separation tank 41, two foam removing blades 45 for discharging the foam on the water surface to the overflow trough 49 by rotation are not particularly limited, but two units are disposed with the cylinder 48a interposed therebetween. In addition, a vacuum device 46 that sucks up the contaminant D such as oil floating on the water surface, and a partition wall 47 that is disposed downstream of the vacuum device 46 and isolates the suspended contaminant D from the belt conveyor 44 are provided. Yes.
  The pollutant D sucked into the vacuum device 46 passes through the steam / water separator 46a, and then is sent to the oil / water separator 16, where oil and sewage (pollutants such as oil containing a small amount of water). ) Are separated and treated as industrial waste.
  Further, the fine sand that has settled below the belt conveyor 44 in the separation tank 41 is sucked up by the pump P and re-entered into the separation tank 41 together with new earth and sand A.
[0027]
  The vibration screen 42 is not particularly limited. For example, the vibration screen 42 is made of a mesh of about 5 mm and is substantially supported by the bottom of the separation tank 41 formed obliquely while being supported by the vibration means 42a. They are arranged in parallel.
[0028]
  The air blow pipe 43 makes the air sent from the blower device into fine bubbles and passes it through the vibration screen 42.
  The air bubbles from the air blow pipe 43 agitate the earth and sand A on the vibration screen 42 to enhance the cleaning effect, and also play a role of causing contaminants such as oil to rise to the water surface.
[0029]
  The belt conveyor 44 is disposed along the bottom of the separation tank 41, and a vibration means 44a for dehydration is provided on the water.
  On the downstream side of the vibration means 44a, there is provided a pressure water pipe 44b for preventing the contaminants from being drawn into the earth and sand A carried out by injecting pressurized water into the water surface and water.
  Furthermore, if necessary, a cleaning water pipe 44c for cleaning the sand and sand A carried out and a floating contaminant D may enter the partition wall 47 on the upstream side of the vibration means 44a and the upstream side of the vacuum device 46. A washing water pipe 44d can be provided for preventing the outflow.
  The pressure water pipe 44b and the washing water pipe 44d can be configured to inject pressurized air in addition to injecting pressurized water.
[0030]
  Since this separating device 4 blows bubbles while applying vibration to the earth and sand A by the vibration screen 42 and the air blow pipe 43, the surface of the earth and sand A is caused by friction between the earth and sand A in the washing machine 3. The detached contaminant D can be reliably separated from the earth and sand, and the earth and sand A settled by the belt conveyor 44 can be carried out.
  In particular, an agitating blade 48 having an outer peripheral portion surrounded by a cylindrical body 48a is disposed at the introduction portion of water containing earth and sand and contaminants in the separation tank 41, and an annular overflow trough 48a is provided on the outer peripheral portion of the cylindrical body 48a. Since it is formed, an upward flow or a downward flow, or an upward flow and a downward flow are alternately generated in the cylinder 48a, and the pollutant D is reliably separated from the earth and sand A by synergistic action with bubbles. In addition, the pollutant D such as oil floating in the cylinder 48a can be caused to flow over the annular overflow trough 49a formed on the outer periphery of the cylinder 48a and efficiently discharged.
  As a result, the contaminant D adhering to the surface of the earth and sand A can be reliably separated from the earth and sand A with only a small amount of water without using a cleaning aid such as a surfactant, and the oil content etc. by bubbles The pollutant D separated from the earth and sand A can be recovered together with a small amount of water, and can be efficiently separated and recovered by the oil / water separator 16 and the like described later.
[0031]
  Then, the earth and sand A settled in the separation tank 41 of the separation device 4 is taken out from the separation device 4 by the belt conveyor 44 and conveyed to the screen 10.
[0032]
  Moreover, the wash water from the separation tank 41 is introduced into the water tank 15 and purified by a water treatment process described later.
[0033]
  On the other hand, the earth and sand B having a predetermined particle size (Nmm) or more classified by the sorter 28 can be reused by simply washing because the contaminants are easily separated.
  In the present embodiment, the earth and sand B having a predetermined particle diameter (Nmm) or more is charged into the hopper 5 and is not particularly limited to this type by the belt conveyor 6, but in FIG. After being transported to a cleaning machine 7 of the same type as the cleaning machine 3 shown, it is hydrated in this cleaning machine 7, and the contaminant D on the surface of the earth and sand A is removed by performing mutual polishing by friction between the earth and sand.
  At this time, the magnetic substance can be removed by the magnetic separator 29 as necessary.
  Since the soil B having the predetermined particle size (Nmm) or more is easy to clean the contaminants, the soil B having the predetermined particle size (Nmm) or more can be easily washed. By carrying out washing separately from the earth and sand A having a small diameter, the amount of water added can be reduced, so that the load on the steps after the washing step can be reduced.
[0034]
  Water containing soil B and pollutant D from which contaminants attached to the surface from the washing machine 7 have been released is introduced into a separator 8 of the same type as the separator 4 shown in FIGS. And are separated.
  At this time, in the pollutant D, oil and the like float on the water surface, while heavy metals and the like float in the water.
[0035]
  And the earth and sand B which settled in the separation tank of the separating apparatus 8 is taken out from the separating apparatus 8, and in the screen 9, the earth and sand B having a predetermined particle diameter (Nmm) or more and the particle diameter conveyed to the screen 10 are less than that. And earth and sand C.
[0036]
  By the way, when the earth and sand B having a predetermined particle diameter (Nmm) or more after the washing contains a massive substance containing contaminants such as oil and heavy metals such as concrete shells and coal shells, For example, it is possible to allow the operator to separate manually while moving on the belt conveyor 30.
  Note that the separation of the massive substance can be performed by a specific gravity difference separation device such as a dust remover.
  This makes it possible to easily separate bulk materials such as concrete husks and coal husks that contain pollutants such as oil and heavy metals and are difficult to separate the pollutants from, and further improve cleaning efficiency. It becomes possible to reduce the cost for remediation of contaminated soil.
  The earth and sand separated in this way can be reused.
  In addition, bulk materials containing contaminants such as oil and heavy metals such as concrete shells and coal shells separated from earth and sand are treated as industrial waste.
[0037]
  The earth and sand A conveyed to the screen 10 and the earth and sand C separated on the screen 9 are not particularly limited, but after being classified into a predetermined particle size on the screen 10, the specific gravity of a dust remover or the like is used. The difference separators 11, 12 and 13 are applied.
  By applying earth and sand A and earth and sand C to the specific gravity difference separators 11, 12, and 13, the earth and sand A or earth and sand C contains particulate substances including contaminants such as oil and heavy metals such as concrete shell and coal shell. In some cases, the particulate material can be separated using a specific gravity difference.
  As a result, it is possible to easily separate particulate matter such as concrete husks and coal husks that contain pollutants such as oil and heavy metals and are difficult to separate the pollutants from, and further improve the cleaning efficiency. It becomes possible to reduce the cost for remediation of contaminated soil.
  The particulate material containing contaminants such as oil and heavy metals such as concrete shells and coal shells separated in this way is treated as industrial waste.
[0038]
  Moreover, the washing water from the screen 10 containing fine earth and sand and the specific gravity difference separation devices 11, 12, 13 is introduced into a separation device 14 of the same type as the separation device 4 shown in FIGS. Try to separate the earth and sand.
  The earth and sand separated in this way can be reused.
  Note that the washing water from the separation device 14 containing fine earth and sand is introduced into the separation device 4.
[0039]
  The washing water from the separation devices 4 and 8 containing fine earth and sand is introduced into the water tank 15, and the upper water (floating portion) is sent to the oil / water separator 16, where the oil and sewage are collected. (Pollutants such as oil containing a small amount of water) are separated and treated as industrial waste.
  Further, the remaining washing water introduced into the water tank 15 is introduced into a specific gravity stabilizing device 17 such as a cyclone, and the water treatment process is performed after separating the sediment having a relatively large particle size from the fine sediment. ing.
  Thereby, the load of a water treatment process can be reduced remarkably and the reuse rate of washing water can be improved.
[0040]
  In the water treatment process, a configuration of a conventionally known water treatment facility can be appropriately employed according to the type of contaminants contained in the wash water introduced from the oil / water separator 16 and the specific gravity stabilizer 17. In the embodiment, the reaction tank 18, the PH treatment apparatus 19, the aggregation tank 20, the precipitation tank 21, the PH treatment apparatus 22, the slurry tank 23, etc., are introduced into the slurry tank 23, and then the filter press or the like. In the dehydrator 24, the dehydrated cake containing contaminants such as heavy metals is separated and treated as industrial waste.
  The treated water is introduced into the reaction tank 18 from the filtrate tank 25 and detoxified in the PH treatment device 22 of the water treatment facility, and then sent to the discharge tank 26 and stored in the discharge or water storage tank 27 for recycle. used.
[0041]
  As described above, according to the method for purifying contaminated soil of the present embodiment, firstly, the sorter 28 is used to sort out soil and sand having a predetermined particle size or more that can easily separate the contaminants from the soil and sand on which contaminants such as oil and heavy metals have adhered. By classifying and adding the classified earth and sand to each of the classified earth and sand A and B and introducing them into the washing machines 3 and 7, the earth and sand B having a predetermined particle size or more classified by the sorter 28 is obtained. Since contaminants are easily separated and can be easily cleaned, it is possible to reduce the load on the processes after the cleaning process.
  Then, the classified earth and sand are added to each of the classified earth and sand A and B, introduced into the washing machines 3 and 7, and adhered to the surfaces of the earth and sand A and B by the friction between the earth and sand in the washing machines 3 and 7. The pollutant D is released, and the water containing the earth and sand A and B and the pollutant D is introduced into the separation tank 41 filled with water, the separation screens 4 and 8 provided with the vibration screen 42 and the air supply means 43, In the separation tank 41 of the separation devices 4 and 8, the earth and sand A and B and the pollutant D are separated by applying vibrations to the earth and sand A and B and blowing them to settle. Without using a cleaning aid such as an activator, the contaminant D adhering to the surface of the earth and sand A and B can be reliably separated and separated with only a small amount of water, and the earth and sand A and B can be reused. It will be possible.
[0042]
  In addition, it is possible to manually separate the bulk material containing contaminants such as oil and heavy metals such as concrete husks, coal husks, etc. contained in the earth and sand B having a predetermined particle size or more after washing, or earth and sand A after washing , B contains pollutants such as oil and heavy metals by separating the substances containing pollutants such as oil and heavy metals such as concrete shells and coal shells using specific gravity difference. It is possible to easily separate substances such as concrete husk and coal husk that are difficult to separate from other earth and sand, further improving the cleaning efficiency and reducing the purification cost of contaminated soil.
[0043]
  As mentioned above, although the purification method of the contaminated soil of this invention and the separation apparatus used for it were demonstrated based on the Example, this invention is not limited to the structure described in the said Example, A different form is used for a washing machine. For example, a drum having irregularities on the inner peripheral surface provided rotatably, and a plurality of steel rods that are movably introduced into the drum. By rotating the drum, the steel rod Thus, the configuration can be changed as appropriate without departing from the spirit of the present invention, such as using a washing machine that performs grinding and grinding while applying pressure to the earth and sand.
[0044]
【The invention's effect】
  According to the method for purifying contaminated soil of the present invention, first, the soil is classified by a sorting machine with a predetermined particle size from which the contaminants are easily separated from the soil and sand to which the contaminants including oil are attached. By adding water to each classified earth and sand and introducing it into the washing machine, earth and sand with a predetermined particle size or more classified by a sorter can be easily washed and easily washed. The load of the process after a process can be made small.
  The classified earth and sand are added to each classified earth and introduced into the washing machine, and the contaminants adhered to the surface of the earth and sand are removed by friction between the earth and sand in the washing machine, and the water containing the earth and dirt is removed. Are introduced into a separation tank equipped with water and a separation apparatus equipped with a vibrating screen and an air supply means, and in the separation tank of the separation apparatus, vibration is applied to the earth and sand, and air bubbles are blown and settled to cause sediment. And separating contaminants, without using a cleaning aid such as a surfactant, the contaminants attached to the surface of the earth and sand can be separated and separated with a small amount of water. Sediment can be reused.
  As a result, the cleaning efficiency is improved, and the soil after the cleaning process is classified in the previous process of the cleaning process so that the load after the cleaning process is reduced. can do.
  In addition, after the cleaning step, a series of treatments can be performed without classifying the earth and sand, the treatment step can be simplified, and costs such as equipment costs can be reduced.
[0045]
  In addition, the bulk material containing the contaminant contained in the soil after washing is separated manually, or the material containing the contaminant contained in the soil after washing is separated using a specific gravity difference. By doing so, substances such as concrete husks and coal husks that contain pollutants and are difficult to separate from pollutants can be easily separated from other earth and sand. The purification cost can be reduced.
[0046]
  In addition, by introducing washing water containing fine soil after washing into the specific gravity stabilizer, separating the sand with a relatively large particle size from the fine earth and sand, and performing the water treatment step, The load of the water treatment process can be significantly reduced, and the reuse rate of cleaning water can be improved.
[0047]
  Further, according to the separation device used for the purification of contaminated soil of the present invention, bubbles are blown while applying vibration to the earth and sand by the vibration screen and the air supply means. Thus, the contaminants separated from the surface of the earth and sand can be reliably separated from the earth and sand, and the earth and sand settled by the conveying means can be carried out.
  Then, a stirring blade having an outer peripheral portion surrounded by a cylinder is disposed in the introduction portion of water containing earth and sand and contaminants in the separation tank, and an annular overflow trough is formed on the outer peripheral portion of the cylinder. , By synergistic action with air bubbles, the pollutant is reliably separated from the earth and sand, and the pollutant containing oil floating in the cylinder is allowed to flow over the annular overflow trough formed on the outer periphery of the cylinder, It can be discharged efficiently.
  As a result, without using a cleaning aid such as a surfactant, contaminants adhering to the surface of the earth and sand can be reliably separated and separated with only a small amount of water, and the earth and sand can be reused. Become.
[0048]
  In addition, the separation device used for the purification of contaminated soil is provided with a foam removal blade that discharges the foam on the water surface by rotating it from the separation tank and a vacuum device that sucks up the pollutant containing oil floating on the water surface. The pollutants separated from and separated from the surface of the earth and sand can be reliably separated from the earth and sand and collected with a small amount of water. it can.
[Brief description of the drawings]
FIG. 1 is a flowchart showing an embodiment of a method for purifying contaminated soil according to the present invention.
FIG. 2 is a flowchart (No. 1) of the equipment apparatus showing an embodiment of the method for purifying contaminated soil of the present invention.
FIG. 3 is a flowchart (No. 2) of the equipment apparatus showing an embodiment of the method for purifying contaminated soil according to the present invention.
FIG. 4 shows a washing machine used for the purification of contaminated soil according to the present invention, (a) is a sectional view thereof, (b) is a sectional view showing its operation, and (c) is an explanation showing a grinding action by the washing machine. FIG. 4D is an explanatory view showing the grinding action by the washing machine.
FIG. 5 is a schematic view showing a separation device used for purification of contaminated soil according to the present invention.
FIG. 6 is a plan view of the same.
FIG. 7 is a front view of the same.
8A is a plan view of the main part, and FIG. 8B is a side view of the main part.
[Explanation of symbols]
  1 Hopper
  2 belt conveyor
  3 washing machines
  31 drums
  32 rotor
  4 Separation device
  41 Separation tank
  42 Excitation screen
  42a Excitation means
  43 Air blow pipe (air supply means)
  44 Belt conveyor
  44a Excitation means
  44b Pressure water piping
  44c Washing water piping
  45 Foam removal blade
  46 Vacuum equipment
  47 Bulkhead
  48 Stirring blade
  48a cylinder
  49 Overflow trough
  49a Ring overflow trough
  7 Washing machine
  8 Separation device
  9 screens
  10 screens
  11, 12, 13 Specific gravity difference separation device
  12 Secondary reactor
  13 Tertiary reactor
  14 Separation device
  15 Aquarium
  16 Oil-water separator
  17 Specific gravity stabilizer
  18 Reaction tank
  19 PH processing equipment
  20 Coagulation tank
  21 Settling tank
  22 PH processing equipment
  23 Slurry tank
  24 Dehydrator
  25 Filtration tank
  26 Discharge tank
  27 Water tank
  28 sorter
  29 Magnetic separator
  30 belt conveyor

Claims (6)

The earth and sand to which contaminants including oil are adhered is classified by a sorting machine with a predetermined particle size set in a range of 20 to 50 mm in advance, and the classified earth and sand is added to each classified earth and introduced into a washing machine. In the washing machine, the contaminants adhering to the surface of the earth and sand due to friction between the earth and sand are separated, and the water containing the earth and sand is separated into a separation tank equipped with water, a vibration screen and an air supply means. A method for purifying contaminated soil, wherein the method comprises separating soil and contaminants by introducing vibrations into the sediment and blowing air bubbles to settle in the separation tank of the separation apparatus. 2. The method for purifying contaminated soil according to claim 1, wherein the bulk material containing the contaminant contained in the soil having the predetermined particle diameter or larger after washing is separated manually.   The method for purifying contaminated soil according to claim 1 or 2, wherein a substance containing the contaminant contained in the soil after washing is separated using a specific gravity difference.   The cleaning water containing fine soil after washing is introduced into a specific gravity stabilizer, and the water treatment process is performed after separating the sand with a relatively large particle size from the fine sand. The method for purifying contaminated soil according to claim 1, 2 or 3.   A separation tank filled with water to which water containing earth and sand and contaminants is introduced, and arranged to vibrate near the bottom of the separation tank by a vibrating means, and pass through the introduced earth and sand while applying vibration. Used to purify contaminated soil, comprising an oscillating screen, an air supply means that is disposed under the oscillating screen and blows bubbles toward the earth and sand on the oscillating screen, and a conveying means that carries the sedimented earth and sand out. In the separation device, a stirring blade having an outer peripheral portion surrounded by a cylindrical body is disposed in the introduction portion of water containing sediment and contaminants in the separation tank, and an annular overflow trough is formed on the outer peripheral portion of the cylindrical body. Separation device used for purification of characteristic contaminated soil.   The contaminated soil according to claim 5, further comprising: a foam removing blade that discharges foam on the water surface by overflowing from the separation tank by rotation, and a vacuum device that sucks up the pollutant containing oil floating on the water surface. Separation device used for purification.

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