JP2007216069A - Treating method of contaminated soil - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress flowing out of heavy metals or the like together with water from soil contaminated with heavy metals, fluorine, arsenic or boron. <P>SOLUTION: Soil contaminated with cadmium, hexavalent chromium, cyan, mercury, alkylmercury, selenium, lead, arsenic, fluorine or boron, is excavated, charged into the mixing tank of a treatment plant, added with chitin chitosan obtained by mashing shell of crabs, or chitin chitosan and powdery apatite, and mixed and agitated. Then, powdery cement may be added and further agitated. After finishing mixing and agitation, the soil is returned to the original ground for backfilling. Chitin chitosan or apatite may be scattered over the polluted soil, and mixed and agitated with a backhoe or the like at site. Fluorine and heavy metals as the pollutants in the soil, are insolubilized by chitin chitosan or apatite and elution into rainwater is suppressed. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for treating contaminated soil that inhibits heavy metals and the like from flowing out together with water from soil contaminated with heavy metals, fluorine, arsenic, boron and the like.

  There are an increasing number of cases where it is found that the site of the factory is contaminated with heavy metals and other harmful substances in the surveys associated with urban redevelopment. Soil contaminated with heavy metals can affect the health of residents and is a serious environmental problem. For this reason, it is now strictly regulated by law, and the Soil Contamination Countermeasures Law specifies cadmium, hexavalent chromium, cyan, mercury, alkyl mercury, selenium, lead, arsenic, fluorine, boron, etc. Designated as hazardous substances (hereinafter collectively referred to as heavy metals, etc.), the elution amount of these pollutants from the soil is regulated.

  As countermeasures for soil contaminated with heavy metals and the like, methods of excavating and removing contaminated soil containing heavy metals and blocking from the surrounding environment have been conventionally used. However, heavy metals may be eluted by rainfall or the like. Moreover, a lot of costs are required to excavate and remove the contaminated soil. Therefore, in recent years, insolubilization treatment for suppressing heavy metal from flowing out together with water from soil contaminated with heavy metal has been performed.

Several insolubilization methods have been proposed, for example, those described in Patent Document 1, Patent Document 2, Patent Document 3 and Patent Document 4.
In the method described in Patent Document 1, a phosphate aqueous solution, or a calcium compound and a phosphate aqueous solution is sprayed on soil even contaminated with heavy metals. Phosphate and calcium ions generate apatite and attempt to immobilize heavy metals by generating stable crystals incorporating heavy metals such as cadmium and lead.

The method described in Patent Document 2 reduces the leaching of lead from a lead-containing material or waste, and at least slightly dissolves waste in the presence of a complex agent that is water-soluble. Contact with phosphate and acid. As a result, a lead product that is difficult to dissolve is formed, and lead leaching is reduced.
In the method described in Patent Document 3, iron powder, iron salt, or aluminum salt is added to soil contaminated with halogen, heavy metal, or the like, and then a neutral cement agent is added.

In addition, the method described in Patent Document 4 adds a mixture of an iron salt aqueous solution and powdered apatite to contaminated soil, and mixes and stirs the mixture. Thereafter, powdered cement or a mixed liquid of cement and water is used. Is added and stirred further. This reduces elution of lead, cadmium, arsenic, chromium, and the like, and suppresses outflow of rainwater containing heavy metals from the soil in the ground by the hardened cement.
JP-A-10-57937 JP 2001-509720 A JP 2003-290757 A JP 2003-371766 A

However, although the method described in Patent Document 1, Patent Document 2 or Patent Document 4 is effective for cadmium, lead, arsenic, chromium, etc., the effect is not confirmed for fluorine, Whether it is an effective processing method is unknown.
Further, Patent Document 3 has a description that it is effective for insolubilizing soil contaminated with a halogen element. However, when the concentration of fluorine contamination is high, it may not be sufficiently insolubilized.
Fluorine is used as a raw material for fluororesin, and is also used for matting glass and polishing metal. It is also contained in gypsum, which is a building material, and fluorite used in the steel industry, and the soil may be contaminated at a high concentration.

  The present invention has been made in view of the above circumstances, and its purpose is to prevent heavy metals from flowing out together with water from soil contaminated with heavy metals, fluorine, arsenic, boron, etc. Is to provide a method.

  In order to solve the above-mentioned problems, the invention according to claim 1 provides a method for treating contaminated soil, characterized in that chitin / chitosan is added to soil contaminated with heavy metals and mixed by stirring.

  Further, the invention according to claim 2 is directed to a soil containing one or more pollutants among cadmium, hexavalent chromium, cyan, mercury, alkyl mercury, selenium, lead, arsenic, fluorine and boron. The present invention provides a method for treating contaminated soil, which comprises adding chitosan and stirring and mixing.

  According to a third aspect of the present invention, in the contaminated soil treatment method according to the first or second aspect, the pollutant contains fluorine.

  In the insolubilization method, mixing of chitin / chitosan into the contaminated soil can more effectively suppress elution of heavy metals and the like from the contaminated soil into rainwater and the like. Therefore, even after this soil is backfilled to the raw ground or the like, the elution of heavy metals or the like is maintained for a long time.

Chitin / chitosan is a mixture of chitin and chitosan, and the chemical structural formulas of chitin and chitosan are as follows. Chitin is contained in crab shells, chitin and chemical treatment, the chitosan by removing COCH ₂ from NHCOCH _2. Chitin / chitosan is called pure chitin / chitosan, preferably 10-15% by weight of chitin and 85-90% by weight of chitosan.
Chitosan has the property that an amino group adsorbs a heavy metal ion to form a chelate (chelate reaction). Fluorine ions are similarly absorbed and considered to form chelates, and elution into water is suppressed.

  The invention according to claim 4 is the method for treating contaminated soil according to any one of claims 1 to 3, wherein the chitin / chitosan is added in an amount of 1 to 5% by weight to the contaminated soil. To do.

  Chitin / chitosan can effectively reduce elution of heavy metals and the like by mixing 1 to 5% by weight in the soil and stirring, and the effect is almost the same even if it is 5% by weight or more. Accordingly, an appropriate amount is 5% by weight or less. On the other hand, when the mixing amount is 1% by weight or less, a sufficient insolubilizing effect cannot be obtained.

  According to a fifth aspect of the present invention, in the method for treating contaminated soil according to any one of the first to fourth aspects, apatite is added to the contaminated soil, and the mixture is stirred and mixed.

  The invention which concerns on Claim 6 is a processing method of the contaminated soil of Claim 5, WHEREIN: The said apatite shall add 1-10 weight% with respect to contaminated soil.

The apatite (Ca ₅ (PO ₄ ) ₃ (F, OH, Cl)) is in contact with heavy metals such as lead (Pb), cadmium (Cd), arsenic (As), and chromium (Cr) contained in the contaminated soil. By doing so, the mineral of isomorphic structure (Isomorphic Structure) is generated. This product is a substance that is strong and stable against acids and alkalis, and rarely elutes in water.

  Therefore, when used together with chitin / chitosan, it is possible to adsorb heavy metals by both actions and to keep the elution amount small. This is particularly effective in the case of combined contamination with fluorine and heavy metals.

  Apatite can obtain a good effect by mixing and stirring 1 wt% to 10 wt% in the soil, and the effect is almost the same even if more is added. Since apatite has a high material cost, it can be saved by using an appropriate amount. On the other hand, when the mixing amount is 1% by weight or less, a sufficient insolubilizing effect cannot be obtained.

  The invention according to claim 7 is the method for treating contaminated soil according to any one of claims 1 to 6, wherein the chitin / chitosan is collected from a crab shell.

  Traditionally, crab shells have been treated as waste and can be used effectively and at low cost. In addition, the crab shells can be used as they are or after being subjected to some processing, and can be easily obtained without going through complicated steps.

  As described above, according to the present invention, by mixing chitin / chitosan with the soil contaminated with heavy metals, fluorine, arsenic, boron, etc. and stirring, the pollutant is made insoluble in water, Elution into rainwater or the like can be effectively suppressed. In particular, it is effective when fluorine is contained as a contaminant, and elution of both fluorine and heavy metals can be suppressed to a small level.

Hereinafter, the processing method of the contaminated soil which is one Embodiment of this invention is demonstrated.
In this insolubilization treatment method, first, soil contaminated with heavy metal or the like is excavated and transported to a work place such as a pit. Then, the contaminated soil is put into a mixing tank in the treatment plant, and chitin / chitosan obtained by grinding the shells of crabs or a mixture of chitin / chitosan and powdered apatite is added and mixed and stirred. At this time, it is desirable to adjust the water content of the soil by adding appropriate water so that mixing is performed uniformly.

  Thereafter, powdered cement can be added and further stirred. Soil mixed and stirred with cement can be backfilled to the original ground as it is to cause hydration, but the soil after mixing and stirring is transported to a temporary storage yard and cement hydration occurs sufficiently. It is desirable to temporarily put up to. The temporary placement period is appropriately determined based on the type of cement and the like, for example, half a day to one day. And then backfill the original ground.

As another embodiment, chitin / chitosan or chitin / chitosan and powdery apatite may be directly sprayed on the contaminated soil. In this insolubilization method, the ground contaminated with heavy metals or the like is excavated and stirred to loosen the soil. Then, a mixture of chitin / chitosan, powdered apatite and water is sprayed on the ground, and mixed and stirred using a heavy machine such as a power shovel or a backhoe.
Further, powdered cement or a mixture of water and cement can be sprayed on the ground and mixed with the soil. The amount of water to be mixed with the cement is set so that uniform mixing and stirring of the soil is facilitated. The amount of water is such that a sufficient amount for the cement hydration reaction can be secured.
In this method, facilities such as a large-scale plant are not required, and a large amount of contaminated soil in a wide range of ground can be treated at a low cost.

The chitin and chitosan can be collected from crab shells. In general, chitin (formula 1) is purified by removing calcium carbonate and protein from crab and shrimp shells. Chitosan (formula 2) is obtained by treating chitin with an alkali to remove an acetyl group (CH ₃ CO—) and converting it into an amino group (NH ₃ —). However, it is difficult to completely convert chitin to chitosan, and it is called chitin / chitosan because chitin and chitosan are mixed.
Chitosan has a property in which an amino group called chelation reaction supplements heavy metal ions such as lead. Fluorine ions are thought to be supplemented as well.

The apatite is a group of phosphate minerals with the chemical composition Ca ₅ (PO ₄ ) ₃ (F, OH, Cl), which is contaminated with those collected as natural minerals or refined for industrial use. It is desirable to add 1 to 10% by weight with respect to the soil. And it couple | bonds with heavy metals, such as lead (Pb), cadmium (Cd), arsenic (As), and chromium (Cr) contained in the contaminated soil, to produce a substance that is strong against acids and alkalis and is hard and stable. For example, as shown in (Formula 3), hydroxyapatite, which is a kind of apatite, combines with lead (Pb) to produce insoluble hydroxypyromorphite.
Ca ₅ (PO ₄ ) ₃ OH + 5Pb → Pb ₅ (PO ₄ ) ₃ OH + 5Ca (Formula 3)

The cement mixed after adding chitin / chitosan or chitin / chitosan and apatite solidifies to react with the moisture in the soil to cover heavy metals etc. insolubilized by chitin / chitosan or apatite, and heavy metals etc. flow out with water To suppress.
As the cement, Portland cement, blast furnace cement, fly ash cement, silica cement, or the like can be used, and it is desirable to add 1 wt% to 10 wt% with respect to the contaminated soil.
The cement may be mixed as it is in powder form, or may be mixed with water to form a slurry, which may be added to the soil and stirred. By making the slurry, it becomes easy to mix so that the cement is uniformly dispersed in the soil.

  In addition, after adding chitin / chitosan or chitin / chitosan and apatite, when cement is added and stirred, if alkaline components in the soil can be expected, the crab shell is crushed and ground as chitin / chitosan. It is also possible to expect a reaction with alkali in cement or alkali in soil. Crab shell contains 20% by weight of chitin, 5% to 25% by weight of crab shells ground against contaminated soil, ie 1% to 5% by weight of chitin / chitosan It is desirable to add.

Next, an experiment conducted for confirming the effect of the invention according to the present application will be described.
In this experiment, the above-described insolubilization treatment of contaminated soil was performed in a laboratory.
The soil sample used in this experiment contains fluorine (F) and lead (Pb) as pollutants. Table 1 shows the content, the amount of elution when not insolubilized and the amount of elution.

  In addition, the standard value of the amount of elution is the soil pollution control law (Act No. 53 of May 29, 2002), Article 18 Paragraph 1 of the Enforcement Rules. , It is stipulated that it is designated as a contaminated area, and is the numerical value listed in Appendix 2 of the same rule. In addition, the measurement of the amount of elution shall be based on the measurement method related to the soil elution amount survey in Article 5, Paragraph 3, Item 4 of the Enforcement Regulations of the Soil Contamination Countermeasures Law.

Experiment 1 is a process corresponding to the embodiment of the invention according to the present application. To 200 g of the sample soil, 1% by weight of chitin / chitosan (corresponding to 5% by weight of crab shell, the same applies hereinafter) is added and stirred for 20 minutes. Was done. Then, this was filtered and the elution amount of lead and fluorine was measured for the filtrate.
In Experiment 2, 1 wt% chitin / chitosan and 1 wt% apatite were added to 200 g of the same soil, and after stirring in the same manner, the elution amounts of lead and fluorine were measured for the filtrate.

Most of the fluorine and lead present in the form of ions or compounds in the soil react with chitin / chitosan to become insoluble substances. Thereby, as shown in Table 2, the elution amounts of fluorine and lead are significantly reduced as compared with the untreated state. However, in the result of Experiment 1, the elution amount of lead is larger than the reference value.
In Experiment 2, since apatite is added in addition to chitin / chitosan, lead is insolubilized by both effects. Therefore, the elution amount of lead is further reduced from Experiment 1 and is lower than the reference value.

On the other hand, in Experiment 3 performed for comparison, only apatite was added to the soil sample, and after similarly stirring for 20 minutes, filtration was performed, and the elution amounts of fluorine and lead were measured for these filtrates. As a result of this experiment, as shown in Table 2, the amount of fluorine eluted is large, and it is difficult to make the amount below the reference value. That is, it can be seen that chitin / chitosan has a remarkable insolubilizing effect on fluorine. Therefore, the combined use of chitin / chitosan and apatite is desirable for the insolubilization treatment of soil where complex contamination of fluorine and heavy metals is observed.

  Next, in order to confirm the optimum addition amounts of chitin / chitosan and apatite, a comparison experiment was performed in the same procedure as in Experiment 2, except that the amount of material to be added was changed. That is, in Experiment 4, 0.5% by weight of chitin / chitosan and 0.05% by weight of apatite, in Experiment 5, 5% by weight of chitin / chitosan and 10% by weight of apatite, and in Experiment 6, 6% by weight of chitin / chitosan. Then, 12% by weight of apatite was added and stirred for 20 minutes, followed by filtration. As a result of measuring the elution amount of heavy metals and the like for these filtrates, as shown in Table 3, in Experiment 4, the elution amount of both fluorine and lead is large, and it is difficult to make it below the reference value. That is, the lower limit value of the addition amount is estimated to be 1% by weight of chitin / chitosan and 1% by weight of apatite, and it can be seen that sufficient effects cannot be obtained below this value.

On the other hand, in Experiment 5 and Experiment 6, it is recognized that the effect of suppressing elution of both fluorine and lead is remarkable, but there is no difference between the two, and the effect does not change even if the addition amount is further increased. Therefore, it is estimated that the appropriate amount of chitin / chitosan and apatite added is about 5% by weight or less of chitin / chitosan and 10% by weight or less of apatite.

Claims (7)

  A method for treating contaminated soil, comprising adding chitin / chitosan to a soil contaminated with heavy metals and stirring and mixing the mixture.   Add chitin / chitosan to the soil containing one or more pollutants among cadmium, hexavalent chromium, cyan, mercury, alkylmercury, selenium, lead, arsenic, fluorine, boron, and stir and mix. A characteristic method for treating contaminated soil.   The method for treating contaminated soil according to claim 1 or 2, wherein the pollutant contains fluorine.   The said chitin * chitosan adds 1-5 weight% with respect to contaminated soil, The processing method of the contaminated soil in any one of Claim 1 to 3 characterized by the above-mentioned.   The method for treating contaminated soil according to any one of claims 1 to 4, wherein apatite is added to the contaminated soil and mixed by stirring.   The said apatite adds 1 to 10 weight% with respect to contaminated soil, The processing method of the contaminated soil of Claim 5 characterized by the above-mentioned. The method for treating contaminated soil according to any one of claims 1 to 6, wherein the chitin / chitosan is collected from a crab shell.