KR101349911B1 - Acid soil washing method and system for contaminated soils by using this method - Google Patents

Abstract

The present invention comprises: a large particle acid washing step (610) acid washing soil particles with a particle size of 2-4.75 mm using multiple coarse sand acid washing tanks (60); and a small particle acid washing step (620) acid washing soil particles with a particle size of 0.15-2 mm using multiple fine sand acid washing tanks (70). The number of fine sand acid washing tanks is bigger than the number of coarse sand acid washing tanks. By providing an acid washing method for contaminated soil, and an acid washing system for contaminated soil using the method, contaminated soil with various particle sizes is effectively purified, and washing efficiency is maximized. The acid washing method and the acid washing system are desirable in economical and environmental aspects. [Reference numerals] (10) Input; (86) Strong alkaline storage tank; (AA,EE) Washing; (BB,FF) Dehydration/neutralization; (CC) Processing soil [4.75 ~ 2.0 mm]; (DD,HH) Discharge; (GG) Processing soil [2.0~0.15 mm]; (II) Washing water storage tank HCI 0.2M; (JJ) HCI storage tank; (KK) Fresh water tank; (LL) Water treatment; (MM) Taking out dehydrated cake waste

Description

Pickling method of polluted soil and pickling system of polluted soil using the same {ACID SOIL WASHING METHOD AND SYSTEM FOR CONTAMINATED SOILS BY USING THIS METHOD}

The present invention relates to the field of civil engineering and the environment, and more particularly, to a pickling method of contaminated soil and a pickling system of contaminated soil using the same.

Methods for recovering contaminated soil include physical and chemical methods such as soil washing, incineration, solidification, stabilization and solvent extraction, and biological methods such as soil cultivation, composting, bioventing, It is relatively easy to sort out the above methods and the soil is washed to recover the contaminated soil quickly because of the short treatment time.

Soil washing can remove a wide range of organic and inorganic contaminants by using a suitable detergent to weaken the surface tension of harmful organic contaminants attached to the soil particles or to separate them from the soil particles by changing the heavy metals into liquid phase .

Conventional soil washing methods mainly use chemical treatment by pickling.

However, since the conventional technology is a system in which the contaminated soil is simply washed, it is impossible to precisely clean the contaminated soil of various particle diameters, and there is a disadvantage in that the washing efficiency is low.

In addition, it takes a lot of time and cost to wash, there is a problem that secondary pollution is generated by the washing water discharged after washing the contaminated soil.

In view of these problems, research and technology development on pickling methods of contaminated soil are urgent.

The present invention was derived to solve the above problems, it is possible to effectively clean the contaminated soil of various particle diameters, maximize the cleaning efficiency, economical, environmentally preferable pickling method of contaminated soil and the same It is an object to provide a pickling system for used contaminated soil.

In order to solve the above problems, the present invention is a large particle pickling step 610 for pickling by a plurality of coarse sand pickling tank 60 for soil particles having a particle diameter of 2mm to 4.75mm; A small particle pickling step 620 for pickling by a plurality of fine sand pickling tanks 70 with respect to soil particles having a particle diameter of 0.15 mm to 2 mm, and comprising a plurality of coarse sand pickling tanks 60. In comparison, the present invention provides a method for pickling contaminated soil, characterized in that the number of the plurality of fine sand pickling tanks 70 is greater.

It is preferable that the time for pickling by adding the soil particles to the plurality of fine sand pickling tanks 70 respectively is longer than the time for picking up each of the plurality of coarse sand pickling tanks 60.

The large particle pickling step 610 is the first step of pickling coarse sand containing the washing liquid, the soil particles having a particle diameter of 2mm to 4.75mm in the first stage pickling tank 61, and then discharged, the coarse sand step 1 pickling step 611 ); A thick sand two-stage pickling step 612 for putting the soil particles discharged by the first stage pickling step 611 of the coarse sand into a coarse sand two-step pickling bath 62 containing the washing solution, washing and discharging; And a dewatering step (630) for dewatering the soil particles discharged in the two-stage pickling step (612) of the coarse sand.

After the coarse sand first step acid pickling step 611, the fine soil separated through the hydrocyclone among the soil particles discharged by the pickling step 611 of the coarse sand first step is removed from the pH adjusting vessel 81 by overflow, (700) for discharging the fine soil (700).

In the small particle pickling step 620, the soil particles having a particle diameter of 0.15 mm to 2 mm are added to the first step pickling tank 71 containing the washing liquid, and then the fine sand step pickling step 621 is discharged. ); A two-stage pickling step 622 of a fine sand sand which discharges the soil particles discharged from the fine sand first-stage pickling step 621 into a small-sized sand pickling tank 72 containing a washing solution and discharges the washed second- Stage three-stage pickling step (step 623) of washing the sand particles discharged from the fine-sand two-stage pickling step 622 into a fine three-step pickling bath 73 containing the washing solution and discharging the washed fine particles; And a dewatering step (630) for dewatering the soil particles discharged in the fine sand three-stage pickling step (623).

Among the soil particles discharged by the fine sand one-stage pickling step 621 to the three fine sands three step pickling step 623, fine soil separated through a hydrocyclone is overflowed into the pH adjusting tank 81. It is preferable to further include; fine earth separation step 700 for discharging.

The small particle pickling step 620 may be further performed after the three steps of fine sand pickling step 623.

The fine soil dehydrated by the dehydration step 630 is preferably recycled to the treated soil.

Neutralization step 810 to put the soil particles and fine soil discharged by the dehydration step 630 with the washing water into the pH adjustment tank 81 to precipitate heavy metals by neutralization; An aggregating step 820 of adding and stirring a coagulant to the washing water, the soil particles, and the fine soil neutralized by the neutralizing step 810; A sedimentation step (830) of precipitating the washing water, the soil particles and the fine soil into which the coagulant is introduced by the flocculation step (820) to form and separate sludge; A dehydration step (840) of concentrating the sludge agglomerated by the precipitation step (830) and dehydrating it; The dewatering sludge is finally dewatered by the dehydration step 840, and the pressure levitation step 850 to inject the filtrate filtered by the dehydration step 840 into the pressure flotation tank 85 to separate the fine soil. It is preferable to include.

The present invention provides a pickling system for contaminated soil using the pickling method of the contaminated soil, comprising: an input hopper 10 for introducing soil particles having a particle diameter of 2 mm to 4.75 mm into a coarse sand first stage pickling tank 61; A thick sand first pickling tank 61 containing a washing solution for pickling up and discharging the soil particles charged by the hopper 10 in one step of coarse sand; A coarse sand two-stage acid pickling bath 62 containing a washing solution for pickling up and discharging the soil particles discharged by the coarse sand first-stage pickling bath 61 in two stages of coarse sand; A thin sand one-stage pickling tank (71) containing a washing liquid to discharge the soil particles having a particle diameter of 0.15 mm to 2 mm by one step of the thin sand pickling; A two-stage sand washing tank 72 containing a washing solution to pick up and discharge the soil particles discharged from the fine sand first-stage pickling bath 71 in two stages of fine sand; A fine sand three-stage pickling tank (73) containing a washing liquid for pickling and discharging the soil particles discharged from the fine two-stage pickling tank (72) to three stages of fine sand; A dewatering screen 63 for dewatering the soil particles discharged by the coarse sand two-stage pickling bath 62 and the fine sand three-stage pickling bath 73; A pH adjusting tank 81 for neutralizing the soil particles and fine soil dewatered and discharged from the dewatering screen 63 together with the washing water to precipitate heavy metals; An agglomeration tank 82 for agitating and stirring the flocculant in the washing water, the soil particles and the fine soil neutralized in the pH adjusting tank 81; A sedimentation tank 83 for precipitating the washing water, the soil particles and the fine soil aggregated in the flocculation tank 82 to form sludge; A dehydrator 84 for concentrating and dehydrating the sludge agglomerated in the sedimentation tank 83; Presenting together a pickling system of contaminated soil using a method for cleaning contaminated soil, comprising; a pressurized floatation tank (85) to separate the fine soil from the filtrate filtered by the dehydrator (84).

It is preferable to further include a; strong base storage tank (86) formed for injecting a strong base component into the pH adjustment tank (81).

A sludge storage tank 87 formed to concentrate the sludge aggregated from the settling tank 83 is preferably further included.

The present invention proposes a method for pickling polluted soils which can be effectively cleaned of contaminated soils of various particle sizes, maximizes cleaning efficiency, is economical and environmentally preferable, and a pickling system for polluted soils using the same.

Figure 1 below shows an example of the pickling method of contaminated soil according to the present invention and the pickling system of contaminated soil using the same,
1 is a configuration diagram of a first embodiment;
2 is a configuration diagram of the second embodiment.
3 is a schematic view of FIGS. 1-2.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 below, the pickling method of contaminated soil and the pickling system of contaminated soil using the present invention, a plurality of coarse sand pickling tank 60 for soil particles having a particle diameter of 2mm to 4.75mm A large particle pickling step 610 for pickling by; Small particle pickling step 620 for pickling by a plurality of fine sand pickling tanks 70 for soil particles having a particle diameter of 0.15 mm to 2 mm (FIGS. 1 and 3).

That is, the present invention is characterized by separating the contaminated soil into soil particles having a particle diameter of 2 mm to 4.75 mm and a particle diameter of 0.15 mm to 2 mm by physical screening, and then performing pickling.

Through this, it is possible to purify the soil particles more precisely and effectively by pickling the contaminated soil of various particle diameters in a manner suitable for each particle diameter.

In addition, after performing a physical screening step of separating the particle size of the soil in advance, pickling, the pickling load is reduced due to the reduction of primary pollution.

This has the advantage of securing economic efficiency and increasing the efficiency of pickling.

Here, since the pickling step 620 of the small particles requires a more precise washing step than the pickling step 610 of the large particles, compared to the plurality of coarse sand pickling tank 60, a plurality of fine sand pickling tank 70 It is characterized by having a larger number of).

Therefore, small particles having a particle diameter of 0.15 mm to 2 mm are pickled in more steps than large particles, thereby ensuring a precise cleaning effect.

In addition, the time for pickling by injecting the small particles into each of the plurality of fine sand pickling tanks 70 may be longer than the time for picking up the large particles into each of the plurality of coarse sand pickling tanks 60. It is characteristic.

This is because the small particles have a longer cross-sectional area of heavy metals compared to the large particles, and therefore, the time required for the heavy metals to be oxidized by the washing water is longer.

Specifically, the large particle pickling step 610 and the small particle pickling step 620 for each particle diameter will be described below (FIGS. 1 and 3).

First, the large particle pickling step 610 is performed as follows.

Soil particles having a particle size of 2 mm to 4.75 mm are put into a thick sand first acid pickling tank 61 containing a washing solution, washed, and then subjected to a thick sand first pickling step 611 for discharging the soil particles.

Then, the soil particles discharged by the first stage acid pickling step 611 of thick sand are put into a two-step acid pickling tank 62 containing a washing liquid, and a two-step acid pickling step 612 of thick sand is carried out.

As described above, since the washing step is repeatedly performed in two steps, the cleaning effect can be maximized.

In addition, the present invention is preferable from the environmental point of view because it is possible to minimize the secondary pollutants because it can recycle 100% of the wash water used in the pickling step 600.

Next, the soil particles discharged from the coarse-sand two-stage pickling step 612 are dewatered (630) by a dewatering screen through which a neutralizing water consisting of water and lime is sprayed.

The soil particles dehydrated by the dehydration step 630 are discharged through the discharge conveyor and recycled to the treated soil.

Here, it is effective to separate (700) the fine soil separated through the hydrocyclone from the soil particles discharged by the thick-sand one-stage acid pickling step 611 after the thick-sand one-stage pickling step 611.

The fine soil separated by the fine soil separation step (700) is discharged to the pH adjustment tank (81) by overflow.

For soil particles having a particle diameter of 0.15 mm to 2 mm, the method for performing the small particle pickling step 620 is as follows.

First, soil particles having a particle size of 0.15 mm to 2 mm are charged into a fine sand first stage acid washing tank 71 containing a washing liquid, and then cleaned in a first stage acid washing step 621.

The soil particles discharged in the first stage acid washing step 621 of a fine sand are charged into a second sand washing tank 72 containing a washing solution, washed, and then subjected to a second sand washing step 622 .

Then, the soil particles discharged from the two-step sand washing stage 622 of fine sand are introduced into a three-stage sand washing tank 73 containing a washing solution, washed, and then discharged into a three- Conduct.

As described above, the pickling step 620 of the small particle having a relatively small particle diameter and a large cross-sectional area is pickled more times than the large particle pickling step 610 to ensure a precise cleaning effect.

In addition, depending on the result of the cleaning and the characteristics of the soil particles or the working conditions, the small particle acid pickling step 620 may be further performed after the three-stage pickling step 623 of the fine sand to further maximize the cleaning effect.

Likewise, the dehydrating step 630 of dehydrating the soil particles discharged in the fine sand three-step acid pickling step 623 is recycled to the treated soil.

Here, the micro-soil separation step 700 for separating the micro-soil separated through the hydrocyclone among the soil particles discharged respectively by the fine sand first pickling step 621 and the fine sand three step pickling step 623, Is effective.

The fine soil separated by the fine soil separation step (700) is discharged to the pH adjustment tank (81) by overflow.

As such, the soil particles having a particle diameter of 2 mm to 4.75 mm and the soil particles having a particle diameter of 0.15 mm to 2 mm are each subjected to a dehydration step 630, and then the pH adjustment tank together with the fine soil separated through the washing water and the fine soil separation step 700. Into the 81 is subjected to a neutralization step 810 to precipitate the heavy metal by neutralization (Fig. 2, 3).

In the pH adjustment tank (81), a strong base component is charged from a strong base storage tank to neutralize soil particles, washing water and fine soil.

Here, it is effective to use NaOH as a strong base component.

Next, the flocculant is agitated and flocculated (820) in the wash water, soil particles and micro-soil neutralized by the neutralization step 810.

In this flocculation step 820, the flocculant is flocculated with washing water, soil particles and fine soil to form sludge (830).

The sludge aggregated by the precipitation step 830 is concentrated, and then dewatered (840).

The final dewatered sludge, that is, the dewatered cake is subjected to waste treatment by the dewatering step 840, and the filtrate drained by the dewatering step 840 is introduced into the pressurized floating tank 85 to float the fine soil 850.

Next, the pickling system of the contaminated soil using the pickling method of the contaminated soil according to the present invention will be described (FIG. 3).

First, soil particles having a particle diameter of 2 mm to 4.75 mm are charged into a coarse sand first-stage pickling bath 61 by a charging hopper 10.

The coarse sand first stage pickling tank 61 is a pickling tank containing a washing solution for pickling up soil particles having a particle size of 2 mm to 4.75 mm by one step of coarse sand.

The soil particles discharged by the first stage acid washing tank (61) of coarse sand are put into a thick sand two-stage acid washing tank (62) containing a washing solution so as to acidify and discharge two stages of coarse sand.

The soil particles having a particle diameter of 0.15 mm to 2 mm are introduced into the thin sand first stage pickling bath 71 by the hopper 10.

The first stage acid pickling tank 71 is a pickling tank containing a washing liquid to pick up soil particles having a particle size of 0.15 mm to 2 mm by acid pickling.

The soil particles discharged from the first stage acid pickling bath 71 of a fine sand are charged into a fine sand second pickling tank 72 containing a washing solution so as to be pickled and discharged in two stages of fine sand.

The soil particles discharged from the second-stage acid pickling bath 72 of fine sand are charged into a small-sized three-stage acid pickling tank 73 containing a washing solution so as to acidify and discharge three steps of fine sand.

As described above, the soil particles discharged by the coarse sand two-stage pickling bath 62 and the fine sand three-step pickling bath 73 are dehydrated by the dewatering screen 63.

The dehydrated water is discharged from the dehydration screen 63 together with the washing water, and the discharged soil particles and the fine soil are neutralized and put into the pH adjusting tank 81 to precipitate heavy metals.

The neutralized washing water, soil particles and fine soil are put into the flocculation tank (82) in the pH adjusting tank (81) and stirred with the flocculating agent.

Here, the strong base storage tank 86 formed to inject the strong base component into the pH adjustment tank 81 is provided.

The washing water, soil particles and fine soil agglomerated in the flocculation tank (82) are precipitated in a sedimentation tank (83) to form sludge.

The sludge agglomerated in the sedimentation tank 83 is concentrated and then put in a dehydrator 84 for dehydration.

At this time, a sludge storage tank 87 is provided to concentrate the sludge aggregated in the settling tank 83.

The sludge finally dehydrated through the dehydrator 84 is treated as waste, and the filtrate filtered through the dehydrator 84 is flushed and separated into a pressurized floating tank 85 for separating fine soil.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: hopper 60: a plurality of coarse sand pickling tank
61: coarse sand 1st stage pickle 62: coarse sand 2nd stage pickle
63: Dewatering Screen 70: Multiple Fine Sand Pickling Tanks
71: fine sand 1st stage pickling tank 72: fine sand 2nd stage pickling tank
73: three steps of fine sand pickling tank 81: pH adjustment tank
82: coagulation tank 83: sedimentation tank
84: dehydrator 85: pressure relief
86: strong base storage tank 87: sludge storage tank
610: large particle pickling step 611: coarse sand step 1 pickling step
612: two steps of coarse sand pickling step 620: small particles pickling step
621: Thin Sand 1 Stage Pickling Stage 622: Thin Sand 2 Stage Pickling Stage
623: Three stages of thin sand pickling step 630: Dehydration step
700: fine soil separation step 810: neutralization step
820: Agglomeration step 830: Precipitation step
840 dehydration step 850 pressurized injury step

Claims (12)

delete A large particle pickling step 610 for pickling by a plurality of coarse sand pickling tanks 60 for soil particles having a particle diameter of 2 mm to 4.75 mm;
And a small particle pickling step 620 for pickling the soil particles having a particle diameter of 0.15 mm to 2 mm by a plurality of fine sand pickling tanks 70.
Compared with the plurality of coarse sand pickling tanks 60, the number of the plurality of fine sand pickling tanks 70 is greater,
The time for pickling the soil particles into the plurality of fine sand pickling tanks 70 may be longer than the time for picking them into the plurality of coarse sand pickling tanks 60, respectively. Pickling method of contaminated soil. A large particle pickling step 610 for pickling by a plurality of coarse sand pickling tanks 60 for soil particles having a particle diameter of 2 mm to 4.75 mm;
And a small particle pickling step 620 for pickling the soil particles having a particle diameter of 0.15 mm to 2 mm by a plurality of fine sand pickling tanks 70.
Compared with the plurality of coarse sand pickling tanks 60, the number of the plurality of fine sand pickling tanks 70 is greater,
The large particle pickling step 610 is
A thick sand first stage acid pickling step 611 in which the soil particles having a particle size of 2 mm to 4.75 mm are charged into the coarse sand first pickling bath 61 containing the washing solution and then discharged;
A thick sand two-stage pickling step 612 for putting the soil particles discharged by the first stage pickling step 611 of the coarse sand into a coarse sand two-step pickling bath 62 containing the washing solution, washing and discharging;
A dehydration step (630) of dehydrating the soil particles discharged in the two-step pickling step (612) of the coarse sand;
Pickling method of contaminated soil, characterized in that it comprises. The method of claim 3, wherein
After the first step of pickling the thick sand 611,
A fine soil separation step (700) of discharging the fine soil separated through the hydrocyclone from the soil particles discharged by the thick sand first stage pickling step (611) to the pH adjustment tank (81) by overflow;
The pickling method of contaminated soil, characterized in that it further comprises. A large particle pickling step 610 for pickling by a plurality of coarse sand pickling tanks 60 for soil particles having a particle diameter of 2 mm to 4.75 mm;
And a small particle pickling step 620 for pickling the soil particles having a particle diameter of 0.15 mm to 2 mm by a plurality of fine sand pickling tanks 70.
Compared with the plurality of coarse sand pickling tanks 60, the number of the plurality of fine sand pickling tanks 70 is greater,
The small particle pickling step 620 is
A fine sand one-stage pickling step 621 which discharges the soil particles having a particle size of 0.15 mm to 2 mm into the fine sand one-stage pickling tank 71 containing the washing liquid and discharges them;
A two-stage pickling step 622 of a fine sand sand which discharges the soil particles discharged from the fine sand first-stage pickling step 621 into a small-sized sand pickling tank 72 containing a washing solution and discharges the washed second-
Stage three-stage pickling step (step 623) of washing the sand particles discharged from the fine-sand two-stage pickling step 622 into a fine three-step pickling bath 73 containing the washing solution and discharging the washed fine particles;
A dehydration step (630) of dehydrating the soil particles discharged in the fine sand three-stage pickling step (623);
Pickling method of contaminated soil, characterized in that it comprises. 6. The method of claim 5,
The fine soil separated through the hydrocyclone among the soil particles respectively discharged by the fine sand first stage acid pickling step 621 to the fine sand third stage pickling step 623 is supplied to the pH adjustment tank 81 (700) for discharging fine soil;
The pickling method of contaminated soil, characterized in that it further comprises. 6. The method of claim 5,
The small particle pickling step 620 is
After the three steps of fine sand pickling step (623), pickling method of contaminated soil, characterized in that further carried out. The method according to any one of claims 3 to 7,
The fine soil dehydrated by the dehydration step (630) is pickling method of contaminated soil, characterized in that for recycling to the treated soil. The method of claim 8,
Neutralization step 810 to put the soil particles and fine soil discharged by the dehydration step 630 with the washing water into the pH adjustment tank 81 to precipitate heavy metals by neutralization;
An aggregating step 820 of adding and stirring a coagulant to the washing water, the soil particles, and the fine soil neutralized by the neutralizing step 810;
A sedimentation step (830) of precipitating the washing water, the soil particles and the fine soil into which the coagulant is introduced by the flocculation step (820) to form and separate sludge;
A dehydration step (840) of concentrating the sludge agglomerated by the precipitation step (830) and dehydrating it;
The sludge finally dewatered by the dehydration step (840) is a waste treatment, the pressure flotation step (850) to inject the filtrate filtered by the dehydration step (840) to the pressure flotation tank (85) to separate the fine soil floating. To
Pickling method of contaminated soil, characterized in that it comprises. As a pickling system of contaminated soil using the pickling method of contaminated soil of claim 9,
An input hopper 10 for inputting the soil particles having a particle diameter of 2 mm to 4.75 mm into a thick sand first stage pickling bath 61;
A thick sand first pickling tank 61 containing a washing solution for pickling up and discharging the soil particles charged by the hopper 10 in one step of coarse sand;
A coarse sand two-stage acid pickling bath 62 containing a washing solution for pickling up and discharging the soil particles discharged by the coarse sand first-stage pickling bath 61 in two stages of coarse sand;
A thin sand one-stage pickling tank (71) containing a washing liquid to discharge the soil particles having a particle diameter of 0.15 mm to 2 mm by one step of the thin sand pickling;
A two-stage sand washing tank 72 containing a washing solution to pick up and discharge the soil particles discharged from the fine sand first-stage pickling bath 71 in two stages of fine sand;
A fine sand three-stage pickling tank (73) containing a washing liquid for pickling and discharging the soil particles discharged from the fine two-stage pickling tank (72) to three stages of fine sand;
A dewatering screen 63 for dewatering the soil particles discharged by the coarse sand two-stage pickling bath 62 and the fine sand three-stage pickling bath 73;
A pH adjusting tank 81 for neutralizing the soil particles and fine soil dewatered and discharged from the dewatering screen 63 together with the washing water to precipitate heavy metals;
An agglomeration tank 82 for agitating and stirring the flocculant in the washing water, the soil particles and the fine soil neutralized in the pH adjusting tank 81;
A sedimentation tank 83 for precipitating the washing water, the soil particles and the fine soil aggregated in the flocculation tank 82 to form sludge;
A dehydrator 84 for concentrating and dehydrating the sludge agglomerated in the sedimentation tank 83;
A pressurized floating tank 85 for floating and separating fine soil from the filtrate filtered by the dehydrator 84;
Pickling system of contaminated soil using a method of washing contaminated soil, comprising. The method of claim 10,
A strong base storage tank 86 formed to inject a strong base component into the pH adjusting tank 81;
Pickling system of contaminated soil using a method of washing contaminated soil further comprising. The method of claim 10,
A sludge storage tank 87 formed to concentrate the sludge aggregated from the settling tank 83;
Pickling system of contaminated soil using a method of washing contaminated soil further comprising.

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