KR0134078B1 - Device for solidifying solid polluted with heavy metals - Google Patents

Abstract

The present invention relates to a method and apparatus for insolubilizing soil contaminated with heavy metals in its in-situ state. A plurality of electrodes infiltrated and installed with two rows of pipes A and B facing each other as electrodes for anode and cathode in the contaminated soil 1 Of the hollow tubes 2a and 2b, the water pipe duct 6 having one end connected to each of the hollow tubes 2a for the positive electrode is connected to the water supply tank 5, and at the same time, the electric hollow tube 2a is connected to the positive side of the DC power source 9 and the negative electrode is connected. It is to fix the water collecting conduit 13 which connected one end to the water separation tank 12 to each hollow tube 2b of the dragon, and to connect each hollow tube 2b to the cathode side of the electric DC power source 9 of electricity.

Description

Method and apparatus for insolubilizing heavy metals in contaminated soil

1 is a schematic plan view of the entire apparatus of the present invention.

2 is a longitudinal sectional view of the device of the present invention.

* Explanation of symbols for main parts of the drawings

1: soil contaminated 2: hollow tube

2a: anode side hollow tube 2b: cathode side hollow tube

3: water tank 5: water tank

6: water supply pipe 7: cock

8: communication tube 9: DC power

12: water separator 13: water collecting pipe

16, 17: water supply and collection Kate Valve 20: sedimentation tank

26: dissolution tank A: tube heat on the anode side

B: tube heat on the cathode side

The present invention does not need to excavate and move the contaminated soil when heavy metals that cause pollution are present in the soil, so that the contaminated soil is drained at its original location, and the heavy metals in the ground are insoluble and treated. A method and apparatus for insolubilizing heavy metals in a contaminated soil that make it possible to reuse soil.

On the ground of factories of various industries handling heavy metals that generate pollution, the soil is excavated and taken out to other places as a conventional treatment method when the soil is contaminated by heavy metals leaked from their facilities or by industrial waste. Alternatively, a method of regenerating the contaminated soil area by subdividing the excavated soil and mixing it with a stabilizer by a landfill or replacing it with new soil brought in from other cattle has been used.

As mentioned above, there is no conventional method of treating in situ soils contaminated with heavy metals and reusing them. Therefore, the soils are excavated, subdivided, mixed with stabilizers, and then refilled or soil contaminated. Although it has been used to transport it to a treatment facility, bring in new soil from another place, and then refill it, but there is a problem that contaminated soils are scattered in various places during excavation, mixing, or import / export. There were problems such as giving secondary pollution to the residents.

The present invention is to provide a method for treating contaminated soil and an apparatus thereof for the purpose of solving the above-mentioned conventional problems.

The present invention forms a plurality of hollow pipes in which a plurality of hollow holes, which serve as the positive electrode and the negative electrode, form a conduit so that the positive electrode and the negative electrode face each other and have a depth of more than 50 cm of contaminated soil. It is installed so that the polarity can be switched between the positive electrode and the negative electrode at the same time, while the DC voltage of 30 V ± 10 V is loaded by applying a DC current to each electrode. The aqueous solution is discharged from the anode tube through the water hole by injecting a% -35% aqueous solution and acts on the contaminated soil between the two poles. Contact with heavy metals such as (Pb), copper (Cu), chromium (Cr), zinc (Zn), arsenic (As), and cyan (CN2) to generate chemical reactions of insolubilization and water in contaminated soil Of The insoluble aqueous solution is collected in the cathode tube through the water hole, and then the water quality test is carried out so that the aqueous solution is discharged from the anode tube, penetrates into the contaminated soil and collects the cathode tube repeatedly until the water quality standard is reached. I solved the problem.

According to the present invention having the above configuration, the pipe heat for the positive electrode and the pipe heat for the negative electrode face each other in a contaminated soil zone caused by heavy metals, and the pipe deeply penetrates and installs a deeper contaminant depth of the contaminated soil. The aqueous solution of sodium emulsion or iron lactate required for insolubilization of heavy metals is discharged from the tube heat on the anode side using the electropenetration phenomenon acting on the soil soil between the two poles. The cycle of equally penetrating and collecting the aqueous solution again in the tube column on the cathode side is repeated to insolubilize heavy metals in situ using redox reactions by electrochemical action in addition to the above-described chemical reaction of insolubilization by aqueous solution.

EXAMPLE

The method of the present invention forms a plurality of hollow tubes, each of which has a plurality of air holes serving as the positive electrode and the negative electrode, facing each other for the positive electrode and the negative electrode so as to penetrate and install a deeper depth than 50 cm of the contaminated soil at the same time. While installing so that the polarity and the polarity can be switched, while applying a DC current to each electrode to load a DC 30V ± 10V DC voltage and injecting 15%-35% aqueous solution of sodium emulsion or ferric lactate into the anode tube The aqueous solution is discharged from the anode tube through the air hole using the electropenetration phenomenon acting in the soil between the two poles, and the solution is evenly infiltrated into the soil. The aqueous solution of lead, copper, chromium, zinc, Connect to heavy metals such as arsenic and cyan to generate chemical reaction of insolubilization, and pass water in contaminated soil or surplus insoluble aqueous solution By collecting the cathode, followed by the examination of water up to the water quality standard value through its aqueous solution is discharged from the cathode tube, it is crystallized insoluble infiltration and heavy metals in the soil contaminated hameuroseo repeating the collecting of the cathode tube of the contaminated soil. Once again, the above-described method and apparatus thereof will be described in detail with reference to the drawings.

Investigate the soil engineering characteristics of the soil within the contaminated soil (1) contaminated by heavy metals, and combine the anode and cathode electrodes at intervals based on the submersion coefficient of the soil constituting the soil. The bottom hollow tube (2) forms a tube heat so that the positive and negative electrodes face each other and penetrates the ground deeper than the depth of contamination of the contaminated soil (1) 50 cm.

While discharging 15% -35% aqueous solution of sodium emulsion or ferric lactate into the soil on the outer circumferential wall surface of the hollow tube 2, and also laying a plurality of water holes 3 to collect the aqueous solution in the soil. The connecting device 4, such as a connecting terminal, is attached to the part which protruded on the ground surface of each hollow tube 2. As shown in FIG.

In the contaminated soil (1), two rows of anode and cathode side hollow tubes (2a) and (2b) of two pairs of anode-side and cathode-side hollow tubes, each of which is installed as a pair of two rows of tubes A and B facing each other as electrodes for anodes and cathodes, respectively. The anode side hollow tube 2a constituting the pipe column A for the anode is connected to the cock 7 protruding from the water supply pipe 6 having one end connected to the water supply tank 5 from the upper half of the anode side hollow tube 2a. The protruding communication tube 8 is connected to fix the water supply conduit 6 thereon, and the anode side hollow tube 2a of the tube line A on the anode side is connected to the cord 10 on the anode side of the DC power supply 9 thereon. Is connected to the anode-side lead wire 11 pulled out from the connecting device 4.

The cathode-side hollow tube 2b constituting the column B for two columns of cathodes is connected to the water separator tube 12 at one end by a cock 7 protruding from the water collecting conduit 13 and the cathode-side hollow tube 2b. The collecting pipe 13 is fixed in communication by connecting the communication pipe 8 protruding from the upper part of the upper side), and the cathode side hollow of the tube row B on the cathode side is connected to the cord 14 on the cathode side of the DC power supply 9 thereon. The cathode-side lead wire 15 pulled out from the connecting device 4 of the pipe 2b is connected.

In Figures 1 and 2, two sets of tube lines A and B are shown, but when the processing area is large, a plurality of tube lines are again disposed. 16 is a water supply gate valve disposed between the water supply tank 5 and the water supply conduit 6, and 17 is a water collection gate valve disposed between the water separation tank 12 and the water collection conduit 13.

The water separation tank 12 is connected to the settling tank 20 by a drain connecting pipe 19 through the drain pump 18, and the settling tank 20 thereof is a water supply connecting pipe via the water pump 21 ( 22 is connected to the adsorption tank 23, and then the adsorption tank 23 is connected to the water supply tank 5 by means of a water supply connection pipe 25 through the water supply pump 24, and at the same time, the water supply tank thereof. (5) was connected to the water supply conduit 6 via the feedwater gate valve 16 as described above. And these are installed to form a cycle and the aqueous solution of sodium emulsion or iron lactate sent to the water pipe (6) from the contaminated soil in the contaminated soil or water supply tank (5) until the water quality standard is cleared. It is installed so that it cannot be discharged to the outside

On the other hand, a dissolution tank 26 for adjusting sodium emulsion or iron lactate to an appropriate concentration is connected to the water supply tank 5 by a liquid supply connection pipe 28 interposed between the discharging pump 27 and the dissolution tank 26. Aqueous solution of sodium emulsion or ferric acid lactate adjusted to a certain concentration is sent from the feed pump 27 to the feed water tank 5 through the feed pipe 28, and the feed water gate valve (from the feed water tank 5) thereon. 16) flows into the water pipe (6) through the cock (7) attached to the water pipe (6) through the communication pipe (8) through the hole of the anode side hollow pipe (2a) of the pipe column A on the anode side ( 3) Contacting heavy metals in the contaminated soil (1), which are discharged into the contaminated soil (1) and causing electrofiltration, cause chemical reaction of insolubilization, so that water in contaminated soil or aqueous solution for excess insolubilization It collects in the cathode side hollow tube 2b of the column B of the said.

Water in the contaminated soil or excess insolubilizing aqueous solution collected in the cathode-side hollow tube 2b is pumped and sent to the collecting pipe 13 through the communication tube 8 and the cock 7 to receive the collecting gate thereon. It is introduced into the water separator tank 12 through the valve (17).

The aqueous solution separated from the air by the water separation tank 12 is introduced into the settling tank 20 through the drain connecting pipe 19 by the drain pump 18 and the settling agent in the settling tank 20. According to the treatment of the fine earth particles and the like contained in the aqueous solution and only the aqueous solution is sent to the adsorption tank 23 through the water supply connection pipe 22 by the water supply pump 21. In the adsorption tank 23, extremely fine particles of heavy metals mixed in the aqueous solution are adsorbed and the aqueous solution after the treatment enters the water supply tank 5 through the water supply connection pipe 25 by the water supply pump 24. The concentration of the aqueous solution is adjusted, and the water is fed back into the water supply gate valve 16, the water supply conduit 6, the cock 7, the connection pipe 8, and the hollow pipe 2a on the anode side, and the cycle is repeated as described above. In doing so, he repeatedly makes insoluble heavy metals in the soil.

In the soil where the above-mentioned electropenetrating phenomenon occurs, the anode area becomes the acidic area and the cathode area becomes the alkaline area, which causes redox reactions to the material between the two poles, which also affects heavy metals in the soil. This is recognized and gives a strong effect on the chemical reaction with the aqueous solution of sodium emulsion or iron lactate infiltrated by the electropenetration phenomenon. For this reason, in the case of long energization time, it is sometimes necessary to freely switch the polarities of the pipes A and B at any time and efficiently insolubilize heavy metals in the contaminated soil. In this case, the polarity is switched by a switching device (not shown). At the same time, the injection of aqueous solution of sodium emulsion or iron lactate into each hollow tube on the anode side is stopped, and only the action of redox is acted on the contaminated soil by electrical action.

When the above cycle is repeated and the water quality test is randomly reached and the water quality standard value is reached, such a series of operations are stopped and the insolubilization of heavy metals in the contaminated soil is completed.

The present invention makes it possible to insolubilize heavy metals of contaminated soil in its original state without affecting other operations as described above by replacing the conventional soil, and moreover than its contaminated depth in the area of contaminated soil. Deeply penetrating and installing the hollow tubes for the positive and negative electrodes, the electroinfiltration phenomenon acts on the soil only in the area enclosed by the hollow tube, so that no contaminants flow to the areas outside of this range. Again, according to the present invention, because the excavation mixed import and export of contaminated soil is unnecessary, the contaminated soil is scattered here and there, there is no flying, no noise during work, and there is no secondary pollution to the working people and the residents around. To achieve that.

Claims (2)

By installing a plurality of water holes that serve as the positive electrode and the negative electrode, a plurality of hollow tubes 2 are formed to face each other for the positive electrode and the negative electrode, and deeply penetrate and install the contaminated soil at a depth of 50 cm or more. While installing so that the polarity can be switched between the negative electrode and the negative electrode, a DC current of 30 V ± 10 V is loaded by applying a DC current to each electrode described above, and a 15%-35% aqueous solution of sodium emulsion or ferric acid lactate is added to the anode tube. Injecting and discharging the aqueous solution from the anode tube through the through hole (3) by using the electropenetration phenomenon acting in the contaminated soil (1) between the two poles, and evenly penetrates the aqueous solution into the contaminated soil. Contact with heavy metals such as copper, chromium, zinc, arsenic, and cyan to generate chemical reaction of insolubilization, and pass water in contaminated soil or aqueous solution for excess insolubilization (3) Collecting in the cathode tube through the water quality test and then insoluble heavy metals in the contaminated soil, characterized in that discharge from the anode tube of the aqueous solution, the penetration into the contaminated soil and the collection to the cathode tube is repeated until the water quality standard is reached. Way. By installing a plurality of water holes (3) serving as the positive and negative electrodes, the pipes are formed to face the hollow tubes (2) for the positive electrode and the negative electrode, and deeply penetrates and installs more than 50 cm of soil depth. In order to switch the polarity between the positive electrode and the negative electrode described above, while fixing the water supply conduit 6 communicating with one end through the water supply gate valve 16 to the water supply tank 5, The cathode tube is fixed in communication with the water collecting pipe 13, one end of the water collecting gate valve 17 in communication with the water separation tank 12, and the settling tank 20 and the adsorption tank 23 between the water separation tank and the water supply tank Simultaneously fixing and dissolving the dissolution tank 26 which transmits by adjusting 15%-35% of sodium emulsion or iron lactate to the water supply tank 5, and on the anode side of the anode side of the direct current (2a) ) And on the negative side of DC current The cathode-side hollow tube apparatus insolubilize the heavy metals in the contaminated soil, characterized in that for connecting the (2b).