JP2002177918A - Final waste disposal plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a final waste disposal plant which is capable of cleaning wastes by effectively utilizing the cleaning facilities of the final waste disposal plant and recycling the wastes in an early period. SOLUTION: The aggregate state of incineration ashes is loosened by wet processing and thereafter granular materials above a prescribed grain size are classified from the incineration ashes. After the content of PCDDs(polychlorinated-dibenzo-p-dioxins) and the concentrations of heavy metals, salts, calcium, etc., are specified to prescribed standard values or above, the classified granular materials above the prescribed grain size are filled into the reclamation land 11 of the final disposal plant 10 in such a manner that the permeability coefficient of deposition layers after the landfill attains >=1×10-3 cm/sc.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a final waste disposal site, and more particularly to a waste final disposal site capable of promoting the purification of incinerated ash, which is landfill waste, so that it can be reused quickly. Regarding the configuration.

[0002]

2. Description of the Related Art Conventionally, combustible materials such as garbage that cannot be recycled are mainly incinerated in stoker-type incinerators or fluidized-bed incinerators. Landfill at a final disposal site (hereinafter abbreviated as a final disposal site). Since such incinerated ash contains harmful substances such as heavy metals and dioxin generated in the incineration process, to increase the safety of the final disposal site,
If the concentration of heavy metals and the content of dioxins in the incinerated ash exceed the prescribed values prescribed by law, they cannot be landfilled at the final disposal site. It is obligated that after decomposing waste, it is landfilled at a managed landfill site. The above-mentioned managed final disposal site has a leachate treatment for collecting and treating leachate in the landfill due to natural rainfall, etc. A disposal site with facilities that can purify waste.In recent years, many roofed disposal sites that have watering equipment and can purify the waste by artificial watering have been constructed. .

[0003] The final disposal site is as early as 5 years, usually 15 years.
It will be full in 20 to 20 years, but in order to abolish the final disposal site and use the site in full scale, if the waste in the above-mentioned landfill satisfies the following abolition conditions, use it from the time of abolition It becomes possible. (1) The property of the retained water, etc., has reached the drainage standard value (at the stage of installation permission) for more than two years. (2) Almost no gas generation is observed, and no increase in gas generation amount is observed over 2 years or more. (3) The internal temperature of the landfill is not abnormally high compared to the surrounding ground temperature.

[0004]

However, the above incinerated ash contains a large number of fine particles, and the incinerated ash contains calcium so as to react with water and gradually solidify. Therefore, there is a problem that purification does not easily proceed even when natural rainfall or artificial watering is performed. In addition, since infiltration water tends to pass only through specific waterways, water does not circulate in most of the incinerated ash, and the recovered leachate itself is subject to the wastewater standards in the above-mentioned abolition standard. It is predicted that the waste itself does not meet the soil environmental standards despite satisfying the conditions. Furthermore, since the gas permeability is poor, the generated gas is also difficult to be discharged, and it is difficult to reuse the site of the final waste disposal site at an early stage.

SUMMARY OF THE INVENTION The present invention has been made in view of the conventional problems, and has been made in consideration of the conventional problems. The purpose is to provide a repository.

[0006]

According to a first aspect of the present invention, there is provided a final waste disposal site, wherein a granular material having a predetermined particle size or more classified from incinerated ash is buried in a landfill. Since the water permeability of the sedimentary layer is improved, the purification of the waste by the permeated water is facilitated, and the waste final disposal site can be reused at an early stage. The predetermined particle size is desirably 75 μm, which is a boundary between sand (fine-grained sand) and silt, or a particle size larger than 75 μm.

According to a second aspect of the present invention, there is provided a final waste disposal site, wherein the sedimentary layer after landfilling has a permeability of 1 × 10 ⁻³ cm / sec. The method is characterized in that the granular material is buried, whereby it is possible to reliably carry out the purification of the waste by the permeated water.

[0008] The final waste disposal site according to claim 3 is provided with a watering facility for watering the landfilled incinerated ash, and watering the landfilled incinerated ash to produce dioxins, heavy metals, or salts. Part of the calcium content is recovered together with the water.

In the final waste disposal site according to the fourth aspect, the content of dioxins, the concentration of heavy metals and organic substances, or the concentration of salts or calcium specified in the environmental standard items is less than a predetermined value. After the pre-treatment as described above, the waste is landfilled, thereby making it possible to surely advance the time of abolition of the final waste disposal site. The substances specified in the above-mentioned environmental standard items are defined in the "Environmental Conditions Related to Environmental Pollution of Soil" (Notification No. 46 of the Environment Agency on August 23, 1991) by law.
Substances), and specifically include heavy metals such as cadmium, cyanide, lead, and hexavalent chromium, and organic substances such as carbon tetrachloride, 1,2-dichloroethane, and benzene. The maximum detection concentration (depending on the type of use, but currently, lead; 0.01 mg / L or less, etc.) is defined. Similarly, regarding the content of dioxins in soil, the maximum content in soil (current to December 2, 1999)
The Environment Agency Notification No. 68 on the 7th specifies 1000 pg-TEQ / g or less). The concentration of salts or calcium, for example, when used as green space, a predetermined concentration (for example, 200mg
/ L).

[0010]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram illustrating a method of treating incinerated ash according to the present embodiment, and FIG. 2 is a diagram illustrating a configuration example of a final disposal site 10. In this embodiment, landfill 1
The incineration ash to be buried in 1 is subjected to pretreatment and then classified, or classified while performing pretreatment, to classify a granular material having a particle size of 75 μm or more. This pretreatment involves the use of harmful substances such as dioxins and heavy metals and organic substances specified in the environmental standard items, and substances that are unsuitable as soil components such as salts and calcium (hereinafter collectively referred to as harmful substances for simplicity). ) Is desirably set to be equal to or less than a predetermined reference value. After the pretreated incinerated ash (processed ash) is classified, the water spray facility 12 and the leachate treatment facility 13 are classified.
And landfill in a final disposal site 10 equipped with Final disposal site 10
Thus, the landfilled waste (processed ash) is periodically sprayed and purified to make it possible to reuse the final disposal site 10 at an early stage. In detail, as a pre-treatment, the aggregated state of the incinerated ash is loosened and the above harmful substances are reduced by wet treatment such as sprinkling, immersion, water stirring or water grinding, and then the vibration screen or vibration sieve is used. After classifying the incinerated ash into granules having a particle diameter of 75 μm or more and granules smaller than that using a wet classifier, the content of dioxins and the concentration of heavy metals are both a predetermined reference value. The following granular material having a particle size of 75 μm or more was buried in the landfill 11 so that the permeability of the sedimentary layer after landfilling was 1 × 10 ⁻³ cm / sec. Or more. Other pretreatments include chemical treatment for insolubilizing heavy metals by chelating treatment or sodium sulfide treatment, and aging to prevent heavy metals from eluting by supplying carbon dioxide while giving an appropriate amount of water to the incinerated ash. Processing.

Further, as shown in FIG. 2, the final disposal site 10 has a landfill 11 surrounded by a concrete partition wall 14 having a function of impervious to the surrounding ground.
A roof 15 is provided on the upper part of the apparatus 1, and the water sprinkling facility 12 is provided near the ceiling of the roof 15. At the bottom of the landfill 11, an underground adjustment layer 18 provided with a leachate water collecting pipe 17 connected to a water collecting tank 16 is provided.
The drainage mainly composed of sand is
A ventilation layer 19 is provided. Then, the pretreated incinerated ash is introduced into the upper part of the drainage / vent layer 19.
Reference numeral 20 denotes a detector for detecting the gas concentration and the temperature in the buried incinerated ash, which periodically detects the gas concentration and the temperature in the above treated ash to promote the purification of the treated ash. The state can be managed. In this example, the roof was used to perform planned watering.
In particular, it is also possible to use natural rainfall without a roof.

At the final disposal site 10, the tap water stored in the watering tank 12a of the watering equipment 12 is sent to the watering device 12c by the pump 12b, and is sprinkled into the above-mentioned landfilled ash, which is waste. The heavy metals contained therein are dissolved in leachate and recovered, or dioxins are recovered together with water to purify the incinerated ash. That is, at the time of landfill, the concentration of heavy metals in the treated ash is significantly reduced from the soil environmental standard value, but heavy metals, salts, or calcium slightly remaining in the treated ash are removed. Since the elution is caused by natural rainfall and the concentration of heavy metals may increase, the sprinkling device 12c actively sprays the treated ash to collect the eluted heavy metals, salts or calcium. At this time, the leachate due to the water sprinkling is collected in the water collection tank 16 via the leachate water collecting pipe 17 provided in the underground adjustment layer 18 via the drainage / aeration layer 19, and sent to the storage tank 16b by the pump 16a. After being stored and primarily stored, it is sent to the leachate treatment facility 13. In the leachate treatment facility 13, the leachate is subjected to solid-liquid separation in a solid-liquid separation tank (not shown), and the separated silt is subjected to dehydration treatment to produce a dewatered cake. The supernatant liquid of the solid-liquid separation tank and the filtrate generated during dehydration are discharged after being purified by a chemical treatment or the like. The dewatered cake is melt-solidified or cement-solidified, rendered harmless, and discarded.

The buried treated ash (waste) is composed of granular material having a particle size of 75 μm or more, that is, a size larger than so-called fine sand. × 10 ⁻³ cm / sec. Or more. Therefore, the permeated water in the landfill 11 flows easily, and the purification of the waste can be surely promoted. In addition, since the above-mentioned waste does not contain fine particles, there is no possibility that the solidified material will not flow through the infiltration water. Degassing is easy even when gas is generated in the object. Among the generated gases in the waste, gases heavier than air, such as carbon dioxide and hydrogen sulfide, flow to the underground adjustment layer 18 through the drainage / venting layer 19, and are exhausted from the landfill 11 by an exhaust device (not shown). Is done. Although the content of dioxins does not increase, a part of the fine particles of dioxins remaining in the treated ash can be recovered by the water spray.

As described above, in the present embodiment, the aggregate state of the incinerated ash is loosened by wet treatment, and thereafter, the granular material having a large particle size is classified, and the content of dioxins and heavy metals, salts, calcium and the like are reduced. After the concentration of such as below the predetermined reference value, the permeability of the sedimentary layer after reclamation is 1 × 10 ^-3 cm
/ sec. or more, and bury the classified granular material having a predetermined particle size or more in the landfill 11 of the final disposal site 10,
Furthermore, since the incineration ash buried in the above-mentioned land is purified by providing the water sprinkling facility 12, the purification of the waste can be easily performed, and the land of the final disposal site 10 can be reused at an early stage. .

In the above embodiment, after the incineration ash is pre-treated, those having a large particle size are classified and subjected to final disposal.
However, pre-treatment may be performed after classifying the incinerated ash.
At that time, if necessary, perform classification again. Further, the predetermined particle size is not limited to 75 μm shown in the above example,
It is set appropriately depending on the incineration ash to be treated. For example, in the case of incineration ash containing a large amount of particulate matter having a large particle size, even if the predetermined particle size is set to 50 μm, the permeability of the sedimentary layer after reclamation is sufficiently 1 × 10 ⁻³ cm / sec. It can be. Further, in the above example, dioxins, harmful substances such as heavy metals and organic substances specified in the environmental standard items, salts, calcium, and the like are buried in the final disposal site 10 in particulates having a predetermined reference value or less. By pre-treatment, if the content of dioxins and the concentration of heavy metals in the incineration ash are both below the soil standard,
As described in the abolition condition described above, a predetermined period (here, 2
It is definite that it is determined that the landfill can be abolished after the monitoring period of (year) has passed, and the land at the final disposal site 10 can be reused at an early stage.

[0016]

As described above, according to the first aspect of the present invention, in the landfill of the final disposal site, the granular material having a predetermined particle size or more classified from the incineration ash is reclaimed. Since the water permeability of the sedimentary layer is improved, purification of waste can be facilitated, and the final waste disposal site can be reused at an early stage.

According to the second aspect of the present invention, the sedimentary layer after landfilling has a permeability of 1 × 10 ⁻³ cm / sec. Since the body is buried, it is possible to surely purify the waste by the infiltration water, and to promote the purification of the incinerated ash.

According to the third aspect of the present invention, there is provided a water spray facility for spraying water on the buried incinerated ash, and water is sprayed on the buried incinerated ash so that dioxins and heavy metals, or salts and calcium components can be sprayed. Is collected together with the water, so that purification of the incinerated ash can be further promoted. Further, planned watering is possible, and purification can be further promoted.

According to the fourth aspect of the present invention, the content of dioxins, the concentration of heavy metals or organic substances, or the concentration of salts or calcium specified in the environmental standard items is adjusted to a predetermined value or less. After the pre-treatment, the waste is landfilled, so that the final disposal site can be expedited.

[Brief description of the drawings]

FIG. 1 is a diagram showing a method for treating incineration ash according to an embodiment of the present invention.

FIG. 2 is a plan view showing a configuration of a final disposal site according to the present embodiment.

[Explanation of symbols]

10 Final disposal site, 11 Landfill, 12 Watering facility, 1
3 Leachate treatment facility, 14 bulkhead, 15 roof, 16
Collection tank, 17 leachate collection pipe, 18 underground adjustment layer,
19 drainage / vent layer, 20 detector.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hirohiko Shibata 2-1 Tsukudocho, Shinjuku-ku, Tokyo Kumagaya Gumi Tokyo Head Office (72) Inventor Shinkazu Takakura 2-1 Tsukudocho, Shinjuku-ku, Tokyo Co., Ltd. Kumagai Gumi Tokyo Head Office (72) Inventor Toshiharu Kameyama 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo F-term (reference) 4D004 AA36 AB03 AB07 BB03 DA03 DA20

Claims (4)

[Claims] Claims: 1. In a final waste disposal site equipped with a seepage water treatment facility for treating leachate in a landfill, a granular material having a predetermined particle size or more classified from incineration ash is landfilled in the landfill. A final waste disposal site, which is made up of: 2. The permeability of the sedimentary layer after landfill is 1 × 1
2. The method according to claim 1, wherein the classified particles having a predetermined particle size or more are buried so as to have a particle size of 0 ^-3 cm / sec or more.
Final waste disposal site described in. 3. The final waste disposal site according to claim 1, further comprising a water spraying facility for spraying water on the buried incinerated ash. 4. Incineration ash that has been pretreated so that the content of dioxins, or the concentration of heavy metals or organic substances, or the concentration of salts or calcium specified in the environmental standard items, is less than a predetermined value. The final waste disposal site according to any one of claims 1 to 3, wherein: