JP2954569B1 - Granulated material containing trivalent chromium - Google Patents

Abstract

Abstract: The present invention relates to a granulated material containing hexavalent chromium-containing sludge or trivalent chromium for detoxifying soil. SOLUTION: Harmful hexavalent chromium contained in sludge or soil is reacted quickly with FeSO ₄ and slowly with activated carbon to reform harmless trivalent chromium.
Next, cement is added to the sludge or soil, and the cement is solidified. Since trivalent chromium, unreacted hexavalent chromium and heavy metals other than chromium are adsorbed on activated carbon, and activated carbon is not dissolved in water, chromium and other heavy metals are stably contained in cement. [Effect] Since chromium and other heavy metals cannot flow out even when exposed to the infiltrated rainwater, the solidified mixture, that is, the granulated material becomes harmless and can be dumped in a landfill. In addition, chromium-contaminated soil can be detoxified and reformed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a granulated material obtained by modifying hexavalent chromium into harmless trivalent chromium to improve sludge or soil containing harmful hexavalent chromium. It is.

[0002]

2. Description of the Related Art Conventionally, when detoxifying sludge or soil containing hexavalent chromium, sludge or soil is impregnated with ferric oxide or ferrous sulfide (hereinafter referred to as "FeSO ₄ "). Thereafter, a method of sealing the chromium in the cement by adding the cement and kneading and hardening is performed. According to the above-described method, hexavalent chromium is reduced by triiron tetroxide or FeSO ₄ to become trivalent chromium, so that it is converted into harmless chromium and sealed in the cement.

[0003] However, the trivalent chromium contained in the cement is oxidized by CaO in the cement and changes to hexavalent chromium. Therefore, when the solidified cement mixture is exposed to rainwater or the like, there is a problem that hexavalent chromium on the surface is eluted.

Further, since triiron tetroxide or FeSO ₄ reacts with the cement, the alkalinity of the cement is weakened, and the solidification strength of the cement mixture becomes weak. Therefore, the solidified cement mixture weathers,
When broken by external force such as excavation, there is a problem that hexavalent chromium is eluted from the cement mixture when exposed to rainwater or the like.

Further, hexavalent chromium-containing sludge often contains other heavy metals in addition to the characteristics of the process using chromium. Therefore, the elution of hexavalent chromium also has a problem that other heavy metals are also eluted.

[0006]

SUMMARY OF THE INVENTION In view of the above circumstances, the present invention provides a method for dissolving hexavalent chromium and other heavy metals, which are sludge contents contained or fixed in solidified cement, by being exposed to rainwater. The purpose is to take care not to.

[0007]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and the gist thereof is as follows. (1) FeSO ₄ aqueous solution is added to low moisture sludge or soil containing hexavalent chromium. Impregnated, activated carbon,
For granulated materials mixed with cement and molded , granulated materials
Can not escape from inside and pass between granulated materials
Using activated carbon of a size that cannot be mixed and molded
A granulated material containing trivalent chromium , wherein the granulated material is coated with cement . And (2) low moisture sludge or soil containing hexavalent chromium
A solution containing FeSO ₄ aqueous solution in the soil , activated carbon,
For granulated materials mixed with cement and molded, granulated materials
Can not escape from inside and pass between granulated materials
Use activated carbon of a size that cannot be
The granulated material mixed with the addition of gite is coated with cement.
A granulated material containing trivalent chromium, which is characterized by being covered .

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A process for producing a granulated material containing hexavalent chromium according to the present invention will be described in detail below with reference to FIG. Wet sludge deposited at the bottom of a sedimentation tank for wastewater from factories containing hexavalent chromium or trivalent chromium is taken out of the tank, laminated to a thickness of about 300 mm, and forcedly dehydrated by sunlight. Thus, the water content is reduced to about 20%. As the dehydration proceeds, the trivalent chromium impregnated by the sludge is oxidized by solar heat and changes into harmful hexavalent chromium, so that the concentration of hexavalent chromium in the laminated sludge increases.

[0009] Therefore, an aqueous solution of FeSO ₄ is sprinkled on the surface of the above-mentioned sludge having a reduced water content to be naturally impregnated in the sludge. The impregnated FeSO ₄ reacts with the hexavalent chromium in the sludge, transforming harmful hexavalent chromium into harmless trivalent chromium.

[0010] FeS in the aqueous solution of FeSO _{4 to be} sprinkled
The amount of O ₄ is 7 kg when 20 g of hexavalent chromium is contained per ton of sludge having a water content of 20%. In addition, according to the content of hexavalent chromium, the amount of FeSO _{4 to be} added and the amount of dissolved water thereof are determined in proportion to the above-mentioned hexavalent chromium content of 20 g.

The above-mentioned aqueous solution of FeSO ₄ is
7 kg of FeSO ₄ is dissolved in 22 kg of water. This aqueous solution of FeSO ₄ itself can be obtained by mixing granular FeSO ₄ with water at least three times its weight and forcibly circulating the mixed water, although FeSO ₄ itself is a substance that is difficult to dissolve in water. . In addition, since the reaction between FeSO ₄ and hexavalent chromium is immediate, it does not affect the work efficiency. Although FeSO ₄ is hardly soluble in water, FeS
By forcibly circulating or stirring a mixed water of O ₄ and water, an FeSO ₄ aqueous solution can be obtained.

Next, powdery activated carbon is added to the sludge impregnated with the aqueous solution of FeSO ₄ and kneaded. By the kneading, harmless trivalent chromium, unreacted residual hexavalent chromium and other heavy metals are adsorbed on the activated carbon. here,
Activated carbon is a granular material having an average particle size of 0.85 mm, and may be inexpensive lignite.

The range of the amount of the activated carbon to be added is 20% of the volume of the above-mentioned sludge from which water has been removed, that is, the so-called dry ludge.
To 30% is appropriate.

If the amount of the activated carbon to be added is insufficient, the amount of the sludge which does not come into contact with the activated carbon in kneading with the sludge increases, and the efficiency of the activated carbon for adsorbing heavy metals deteriorates. On the other hand, if the amount of the activated carbon to be added is excessive, the cost increases and it is not economical.

Next, the above-mentioned sludge mixed with activated carbon and cement are kneaded and granulated. In addition, the thing obtained by the above-mentioned granulation is hereafter called "granulation material."

If the amount of cement added is insufficient, the cement will not be granulated, or if it is granulated, its strength will be weak. If it is excessive, the cement will not be granulated, but will be integrated or granulated. However, it adheres to adjacent particles. In order to make the particles granular by kneading, the amount of cement in the range of 85 kg to 200 kg may be added per 1 ton of the sludge with reduced water content.

Activated carbon has a smaller particle size,
Although the surface area increases and the adsorptive action is activated, the activated carbon adsorbed with chromium flows out along with the rainwater if the particle size of the activated carbon is small when rainwater permeates and flows between the granulating materials.

In order to prevent the activated carbon adsorbed with chromium from flowing out together with the rainwater, the activated carbon adsorbed with chromium must be of a size that cannot escape from the granulated material and must adhere to the surface of the granulated material. The activated carbon that adsorbs chromium may be of a size that cannot pass between the granulated materials, and the average particle size of activated carbon that does not flow out with rainwater is 0.8.
About 5 mm is appropriate.

Trivalent chromium reacts with CaO, a component contained in cement, and changes to hexavalent chromium. This reaction has the property that it proceeds more rapidly in an environment with higher alkalinity. However, in the present invention, CaO in cement is neutralized with FeSO ₄ to create a weak alkaline environment, so that the reaction between trivalent chromium and CaO progresses slowly, and the generation of hexavalent chromium also progresses slowly. .

Since the above-mentioned trivalent chromium, unreacted residual hexavalent chromium, and hexavalent chromium generated by the reaction are adsorbed on activated carbon by the above-described kneading, the residual hexavalent chromium and the generated hexavalent chromium are not absorbed. The hexavalent chromium thus reacted with activated carbon is reformed into harmless trivalent chromium.

Therefore, if a sufficient amount of activated carbon is supplied to the above-mentioned kneading, the activated carbon converts all hexavalent chromium produced by the reaction with residual hexavalent chromium and CaO into harmless trivalent chromium. Quality.

Thus, the activated carbon is sealed between the cement particles while adsorbing trivalent chromium and its hexavalent chromium and other heavy metals while improving the hexavalent chromium.

In the long term, the above-mentioned granulated material does not contain hexavalent chromium and contains activated carbon adsorbing trivalent chromium and other heavy metals between cement particles.

Since trivalent chromium, unreacted residual hexavalent chromium, hexavalent chromium formed by the reaction and other heavy metals are solids in which activated carbon itself does not dissolve in water, rainwater is generated in the granulated material and cracks are generated. Even if infiltrated, it cannot escape unless the activated carbon moves.

Since the activated carbon itself is a granular material having an average particle diameter of 0.85 mm, even if the granulated material breaks and rainwater flows through the cracked portion, it passes through the gap between the surrounding granulated materials. I can't move.

In this way, trivalent chromium, unreacted residual hexavalent chromium, hexavalent chromium produced by the reaction, and other heavy metals are sealed in the granulated material via activated carbon.

[0027] However, even for being granulated by cement, the strength of the granulated material is weakened under the influence of FeSO _4. Therefore, the granulated material is shown in FIG.
As shown in (b), if the cement is further mixed with the cement, the surface of the granulated material is solidified under the strong alkali reaction inherent in the cement, so that the cement has a high solidification strength. become.

Therefore, even in the short term, trivalent chromium,
The remaining unreacted hexavalent chromium, the hexavalent chromium formed by the reaction, and other heavy metals are firmly contained in the strong cement. The amounts of FeSO ₄ , activated carbon, and cement added to the chromium-containing sludge are appropriately adjusted according to the chromium content.

Further, according to the present invention, from the above-mentioned circumstances, the sludge of the above-mentioned sludge is made harmless from the precipitate of the industrial waste liquid containing hexavalent chromium and other heavy metals, that is, the soil containing so-called hexavalent chromium and other heavy metals. It can be modified into a harmless granulated material by treating in the same manner as the treatment.

Further, as in the production process shown in FIG. 2A, ettringite is added to the above-mentioned sludge impregnated with an aqueous solution of FeSO ₄ in addition to activated carbon and kneaded, and the kneaded product and cement are kneaded. Once the granulated material is obtained, the ettringite reacts with various heavy metals in the sludge to form a new substance, and the substance is absorbed alone and adsorbed by activated carbon, and is contained in the granulated material. Can be The amount of ettringite added per ton of sludge with reduced water content
What is necessary is just to add the range of 10 kg to 20 kg.

The added ettringite reacts with FeSO ₄ contained in the granulated material, and most of the ettringite loses the effect of capturing heavy metals, but reacts with various heavy metals in portions not in contact with FeSO _4. , Together with heavy metals, are contained in the granulated material.

Therefore, in the granulated material of the present invention, since various heavy metals are slightly detoxified and sealed by the ettringite in the granulated material injection, the sanitary condition is more sanitary than when the ettringite is not added. Be safe.

However, ettringite has the property of deteriorating the solidification strength of cement. Therefore, as in the manufacturing process shown in FIG. 2 (b), if the above-described granulated material to which ettringite is added is kneaded with cement and granulated, the granulated material can be converted into cement having strong solidification strength. Coated and tightly contained. In addition, instead of the above-mentioned FeSO ₄ ,
Iron trioxide may be used.

[0034]

As described above, according to the present invention, the sludge deposited at the bottom of the settling tank of a waste liquid in a factory or the like containing chromium can be reformed into harmless granulated material, and is dumped in a landfill. It is now possible to dispose of it.

The present invention can also be effectively used when decontaminating contaminated soil that has been generated because wastewater containing hexavalent chromium and other heavy metals has been disposed of underground by infiltration in the past. Therefore, the soil containing harmful hexavalent chromium and other heavy metals is dug, and the dug soil is modified into a harmless granulated material according to the present invention, and the granulated material is buried in the excavated site, or It can be disposed of in a landfill.

[Brief description of the drawings]

1 (a) is a manufacturing process diagram of a granulated material according to an embodiment of the present invention, and FIG. 1 (b) is a manufacturing process diagram of a granulated material according to an embodiment of the present invention.

FIG. 2 (a) is a manufacturing process diagram of a granulated material according to an embodiment of the present invention, and FIG. 2 (b) is a manufacturing process diagram of a granulated material according to an embodiment of the present invention.

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁶ Identification symbol FI C09K 17/06 // C09K 107: 00 (56) References JP-A-7-185499 (JP, A) JP-A 52-59848 (JP, A) JP-A-52-100744 (JP, A) JP-A-57-209694 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) B09B 3/00 C02F 11 / 00 A62D 3/00

Claims (2)

(57) [Claims] 1. A granulated material formed by mixing low water sludge or soil containing hexavalent chromium impregnated with an aqueous solution of FeSO ₄ , activated carbon, and cement.
And cannot get out of the granulated material, and
Mixing using activated carbon of a size that cannot pass between materials
A granulated material containing trivalent chromium, characterized in that the formed granulated material is coated with cement . 2. A low moisture sludge containing hexavalent chromium.
Alternatively , one containing an aqueous solution of FeSO _{4 in the} soil,
Granulated material formed by mixing charcoal and cement
And cannot get out of the granulated material, and
Use activated carbon of a size that cannot pass between the materials,
One, granulated material mixed with ettringite added,
A granulated material containing trivalent chromium, characterized by being coated with cement .