JPH1099814A - Treatment of waste - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a waste treatment method capable of stabilizing harmful heavy metals contained in waste such as industrial waste incineration ash, urban waste refuse incineration ash, slag, soil, sludge or shredder dust. SOLUTION: When urban waste refuse incineration ash such as incineration fly ash, main ash or molten fly ash containing a harmful substance such as lead, cadmium, mercury or arsenic, industrial waste incineration ash or waste containing harmful heavy metals such as activated ash is treated with a waste treatment material based on water glass, liquid calcium hydroxide with solid content of 25wt.% or less such as carbide milk is combined with a treatment material containing water glass and potassium carbonate at a solid ratio of 95:5-80:20 to perform treatment.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste treatment method effective for stabilizing waste incineration ash containing harmful heavy metals and the like.

[0002]

2. Description of the Related Art The incineration ash of industrial waste is cadmium (C).
d), contains harmful substances such as lead (Pb), chromium (Cr), mercury (Hg), copper (Cu), and sandstone. When these are incinerated, harmful substances such as the heavy metals remain in the incineration ash. Some heavy metals have biotoxicity such as carcinogenicity, mutagenicity, and organ damage. For example, lead
It acts destructively on the kidneys with cadmium, mercury and chromium. Lead is known to have a heme synthesis inhibitory effect on blood components and an effect on the nervous system together with mercury. Cadmium is
It has been pointed out that there is a possibility of hypertension and a decrease in spermatogenesis ability. As in this example, industrial waste incineration ash is considered hazardous waste. For this purpose, various treatments such as treatment with cements, powder chemicals, liquid chemicals, and the like, and melting treatment are performed in order to suppress elution of harmful substances such as heavy metals from incineration ash.

[0003] Among various treatment methods, in recent years, for the purpose of preventing elution of harmful metals, low-molecular liquid organic treatment materials such as polymers in which dithiocarboxyl groups are bonded to polyethyleneimine and dibutyldithiocarbamate are frequently used. is there.
Although this liquid organic processing material is excellent in stabilizing lead, it has a problem in that when used, it contains mutagenic carbon disulfide as a raw material. In the case of neutral ash, the ability to stabilize Pb and Cd is low. Thus, many practical problems have been pointed out for organic drugs. Therefore, regarding the stabilization treatment of heavy metals in incinerated ash, a treatment material and a treatment method which are excellent in heavy metal stabilization performance and have few practical problems are desired, and the use of water glass is being studied.

Japanese Patent Application Laid-Open No. Hei 8-168736 discloses a treatment material containing water glass as a main component for waste containing Ca hydroxide. However, Notification of Environment Agency 13
Calcium concentration in the incineration ash measured by the method
When the concentration is as low as 00 mg / L, stabilization of heavy metals may be insufficient with only a treatment material containing water glass as a main component. Japanese Patent Application Laid-Open No. 52-10948 discloses a method for stabilizing heavy metals using water glass as a treatment material.
No. 2 discloses adding water glass and calcium chloride at a molar ratio of 1.6 to 3.5 to the waste. However, calcium chloride has a practical problem due to its iron corrosion property.

[0005] As described above, for incinerated ash having a low Ca concentration, only a treatment material containing water glass as a main component is not enough to stabilize heavy metals and the like. If the treatment is performed with the addition of, a practical problem arises, which is not preferable.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of conventional waste treatment, and has improved a waste treatment method using water glass as a treatment material. It is an object of the present invention to provide a waste disposal method capable of stabilizing harmful heavy metals contained in wastes such as municipal incineration ash, mine tailings, soil, sludge, shredder dust, and the like.

[0007]

Means for Solving the Problems The present inventors have made intensive studies to solve such a problem, and as a result, have found that at least one selected from the group consisting of lead, cadmium, mercury, and sandstone.
When treating waste containing various kinds of heavy metals with a waste treatment material containing water glass as a main component, there is no practical problem by treating in combination with a polyvalent metal hydroxide, particularly calcium hydroxide. We have found a waste disposal method that can reliably stabilize harmful substances such as heavy metals.

[0008]

DETAILED DESCRIPTION OF THE INVENTION The water glass used as the main component of the treatment material in the present invention can be either a powder or a liquid, and includes sodium silicate and potassium silicate. Thus, sodium silicate is preferred.
In water glass, Na ₂ O or K ₂ O and the solid content ratio of SiO ₂ differ depending on the sodium salt.
No. 2, No. 3, No. 4, No. 4 and potassium salts also have corresponding varieties. However, since the viscosity is relatively low at low temperature, the solid content concentration is relatively high, and the solid content can be easily handled at room temperature, the solid content is 43%. Preference is given to using up to% by weight of sodium silicate.

Further, in the present invention, by combining carbonate with water glass, which is a main component as a treatment material, the viscosity of the treatment material is reduced when compared with the same solid content, and the carbonate exerts the action of water glass. It is preferable because it can assist and stabilize heavy metals in a short time. The preferable addition ratio of the water glass and the carbonate is 95: 5 to 80:20 in terms of solid content (weight). The above effect can be expected when carbonate is added, but if added in large amounts, carbonate precipitates at low temperature during transport in practice, so it is stored in transport means or storage tanks for treated materials in winter. This is because heat is required, which is not preferable in practical use. The total solid content of the treatment material is preferably 43% by weight (hereinafter simply referred to as "%") from the viewpoint of transportation and storage, and the viscosity is preferably lower than 1000 centipoise at room temperature (25 ° C).

Examples of the carbonate include sodium carbonate, potassium carbonate, ammonium carbonate, potassium hydrogencarbonate, sodium hydrogencarbonate, etc. Among them, those having high solubility and not reacting with water glass to form a gel, Potassium carbonate is preferred in view of the absence.

By treating the above-mentioned processing material mainly composed of water glass with a polyvalent metal hydroxide in combination, harmful substances in wastes, particularly, lead, cadmium, mercury, lime, etc. The stabilizing performance of the waste can be improved, and harmful substances in the waste can be stabilized without causing practical problems such as corrosion of the device, generation of toxic gas, and complication of the device. The polyvalent metal hydroxide is composed of a combination of polyvalent metal ions such as calcium hydroxide, iron hydroxide, magnesium hydroxide, and aluminum hydroxide and hydroxide ions. In the present invention, calcium hydroxide is preferred because of its availability, stability, ease of handling, and high alkalinity. Calcium hydroxide is in the form of a powder and is hardly soluble in water, but in the present invention, it is preferable to use the calcium hydroxide in a powder form by mixing it with water. This is because liquid calcium hydroxide is easier to handle than powdered calcium hydroxide, storage facilities are simpler, and requires a silo with a bag filter like when used as powder. Because it does not. The calcium hydroxide solid content in the mixture is preferably 25% by weight or less, more preferably 20 to 25% by weight.
(Hereinafter simply referred to as “%”). If the solid content is higher than this, the calcium hydroxide becomes a slurry,
It is not preferable because a handling problem such as storage occurs.
On the other hand, if it is lower than this, a large amount of liquid needs to be added due to low solid content, which is not preferable. When calcium hydroxide is used as a liquid as described above, powdered calcium hydroxide may be suspended in water. However, it is inexpensive and preferable to use a waste product called carbide milk.

Further, in the present invention, alkaline phosphates, carbonates, other polyvalent metal hydroxides and the like are further added to the polyvalent metal hydroxide combined with the treatment material containing water glass as a main component. It is also possible to increase the heavy metal stabilization performance.

Next, in the waste treatment method of the present invention, the treatment material containing water glass as a main component and the polyvalent metal hydroxide are selected from the group consisting of lead, cadmium, mercury, and sodium. Waste 1 containing at least one hazardous substance
1 to 5 parts by weight of water glass as solids and 0.2 to 2 parts by weight of polyhydric metal hydroxides, preferably calcium hydroxide, as solids, are mixed as required with respect to 00 parts by weight. It is preferred to add water and knead. As described above, by treating a treatment material containing water glass as a main component with a polyvalent metal hydroxide, compared to a treatment method using only a treatment material containing water glass as a main component, such as a heavy metal. The stabilizing performance of harmful substances is improved.

In a preferred embodiment of the present invention, the waste collected in the hopper is mixed with the treatment material and the polyvalent metal hydroxide from another tank, and if necessary, water is added thereto. And kneading in a shaping device or a mixing device. In the present treatment method, the water glass and the polyvalent metal hydroxide may be added to the device from different places, or may be mixed in an arbitrary ratio in advance and then added to the device.

The polyvalent metal hydroxide used in the present treatment method is preferably used as a liquid, but calcium hydroxide is often in a suspended state because it is hardly soluble in water.
Therefore, in that case, it is necessary to always make the suspension uniform in order to always exert a certain harmful substance stabilizing performance. However, the suspension of calcium hydroxide forms a solidified precipitate upon standing,
Since the operation is not difficult, the stirring can be made uniform by periodically stirring in the liquid tank or by operating the circulation pump, and it is preferable to do so.

In the method of the present invention, there is no fear of corrosion of the iron of the apparatus caused when chlorides such as calcium chloride and aluminum chloride are used. Further, the waste incineration ash contains chlorine generated at the time of incineration at a high concentration as chloride. These chlorides are re-dissolved under the influence of rain when the incinerated ash is transported to the final disposal site. When the dissolved chlorides flow out of the system, they cause salt damage. Therefore, it is not preferable that such a chloride is further contained in the treatment agent, because it promotes the re-dissolution of the chloride in the final disposal site. Furthermore, hydrogen chloride gas is generated from the chloride during kneading. In this respect, in the present invention, since chloride is not used in the processing material,
There is no need to worry about salt damage and generation of hydrogen chloride gas as described above. As described above, in the method of the present invention, harmful heavy metals can be stabilized without practical problems.

The waste to which the present invention can be applied includes fly ash and main ash generated from municipal waste incineration ash and industrial waste incineration ash. Here, fly ash is obtained by collecting dust and soot generated from incineration and dust generated from a melting furnace, and is collected by EP ash collected by an electric dust collector or by a bag filter. Dust ash and the like. On the other hand, main ash is ash discharged from the lower part of the incinerator at incinerators for municipal solid waste and industrial waste, and includes harmful heavy metals. Further, the treatment method of the present invention can also treat shredder dust, sludge containing heavy metals generated by wastewater treatment, mine tails discharged from mines, or soil contaminated with heavy metals.
In particular, among these wastes, the present treatment method is effective for neutral incinerated ash.

[0018]

According to the waste disposal method of the present invention, when industrial waste containing harmful substances such as heavy metals and waste such as EP ash and bag ash discharged from an incinerator of municipal waste are treated, It does not cause practical problems such as corrosion of equipment, generation of odor or toxic gas, and the processing material has excellent stabilization performance for heavy metals and is inexpensive, and leaches harmful heavy metals etc. in waste. Can be strongly stabilized so as not to.

[0019]

EXAMPLES The present invention will be described more specifically below with reference to examples, but the present invention is not limited thereto.

Example 1 No. 1 water glass (solid content 43
%) Was obtained from Nippon Chemical Industry Co., Ltd. Potassium carbonate (anhydrous) was obtained from Wako Pure Chemical Industries, Ltd. The solid content of the first water glass and the solid content of potassium carbonate were 90:
10. A treatment material was prepared so that the total solid content was 43%. On the other hand, calcium hydroxide was prepared so as to have a solid content of 20% and mixed with water. To 30 g of neutral fly ash containing a large amount of heavy metals discharged from an industrial waste incineration plant, a treatment material shown in Table 1 below, liquid calcium hydroxide, and 18 g of water were added and kneaded. And cured at 20 ° C. for 1 day. Thereafter, in order to investigate the detoxification effect of using these treated materials, the shaking time was set to 3 hours, except that the Environment Agency Notification No. 13 (Japan)
An extraction test was performed according to the above, and the elution concentrations of lead, cadmium, and corn were measured. Table 1 shows the experimental results at this time.

[0021]

[Table 1]

From Examples 1 to 3, based on 100 parts by weight of fly ash, 2.15 parts by weight of the treated material and 0.6 parts by weight of solids
It can be seen that when treated in combination with about 1.6 parts by weight of calcium hydroxide, it is possible to stabilize lead, cadmium, and sand in fly ash. In addition, it can be seen that the combination of calcium hydroxide has a better lead elution amount than the case where the treatment material containing water glass as a main component is used alone. In addition, although the elution amount of histo is sometimes increased only with the treatment material containing water glass as a main component, it can be seen that the elution amount of histo decreases by adding calcium hydroxide. The industrial waste incineration ash subjected to the dissolution test in this example has a calcium concentration of 230 mg / L at the time of no treatment, and the calcium concentration is significantly higher than 5000 to 10000 mg / L in the case of municipal waste incineration ash. Low. The results of this example show that for such incinerated ash with a low calcium concentration, harmful substances such as heavy metals can be stably stabilized by combining calcium hydroxide with a treatment material mainly composed of water glass. Is shown.

Claims (8)

[Claims] 1. A method for treating a waste containing at least one harmful substance selected from the group consisting of lead, cadmium, mercury, and sodium with a waste treatment material containing water glass as a main component. A waste treatment method, comprising combining and treating a material with a polyvalent metal hydroxide. 2. The waste treatment method according to claim 1, wherein the polyvalent metal hydroxide is calcium hydroxide. 3. The waste disposal method according to claim 2, wherein calcium hydroxide is mixed with water and used in a liquid state. 4. The waste treatment method according to claim 3, wherein the solid content of calcium hydroxide in the liquid is 25% by weight or less. 5. The waste treatment method according to claim 3, wherein carbide milk is used as the liquid calcium hydroxide. 6. The waste treatment method according to claim 1, wherein the treatment material contains water glass and carbonate in a ratio of 95: 5 to 80:20 in solid content. 7. The method according to claim 6, wherein the carbonate is potassium carbonate. 8. The waste according to claim 1, wherein said waste is a waste containing harmful heavy metals such as incinerated ash such as incinerated fly ash, main ash and molten fly ash, industrial waste incinerated ash and activated sludge. The waste disposal method according to any one of the above.