JP3112780B2 - Hazardous substance barrier floor at waste disposal site - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shielding floor formed on a ground for preventing harmful substances from penetrating into the ground at a waste disposal site, and particularly to a lead floor, mercury, copper, and the like. The present invention relates to a harmful substance shielding floor for preventing harmful substances such as heavy metals such as zinc, nickel and cadmium and organic compounds such as trichlorethylene from penetrating into the ground.

[0002]

2. Description of the Related Art Non-combustible waste is ultimately landfilled at a waste disposal site, which includes heavy metals, certain inorganic compounds, and organic chlorinated solvents such as trichloroethylene. Harmful substances. When these harmful substances flow into the ground, they may cause secondary pollution such as contamination of ground and groundwater.

[0003] Therefore, in this type of waste disposal site, usually, there is provided a shut-off means for shutting off the waste disposal site and the ground. A typical example of this blocking means is to lay a water-blocking sheet on the ground of a waste disposal site.

As an example of this, for example, Japanese Patent Publication No. 5-15
No. 847. This technology basically provides a lower sand bed on the ground, lays a seepage control sheet on it,
In addition, an upper sand bed is provided on the upper part, and waste is to be dumped on the sand bed.

[0005]

However, the technique disclosed in this publication is based on the premise that there is a possibility of breakage of the impermeable sheet, and if the impermeable sheet is broken, it attempts to repair it. Is what you do. However, in the case of a waste disposal site on a flat land in a city as a main object, even if it has a certain degree of effectiveness, it is not effective on a slope using Tanizawa.

That is, as long as the impermeable sheet is sandwiched on the sand floor, runoff due to rainwater naturally occurs, and there is no means for preventing the runoff. Also, in mountainous depressions and valleys, there are many protrusions such as rocks on the surface of the cut slope, so if the water-impervious sheet is laid directly on the sloped surface, the water-impervious sheet is broken by the protrusions. It is easy to cause harmful substances to penetrate into the ground from the breaking point. On the other hand,
When the waste is dumped directly on the laid water-impervious sheet, there is a high possibility that the water-impervious sheet is broken by the corner of the waste. In addition, trucks and bulldozers run on the impermeable sheet for dumping, so measures to prevent breakage are required, but simply laying sand on the impermeable sheet makes it difficult for heavy machinery to travel. And the load cannot be sufficiently received, and there is a high possibility that the impermeable sheet is broken.

[0007] Accordingly, a main object of the present invention is to prevent breakage of a liquid-impermeable sheet while ensuring that it can withstand heavy machinery such as trucks and bulldozers.
Even if the liquid-impermeable sheet is broken, a barrier layer is provided between the liquid-impermeable sheet and the ground surface to prevent harmful substances from permeating into the ground.

[0008]

SUMMARY OF THE INVENTION The object of the present invention is to provide a cement-based solidified material in which at least one of an organic compound-trapping material and an ion-trapping material is mixed to form a barrier layer in a ground to be blocked at a waste disposal site. A liquid-permeable sheet having a water-permeability of 10 ⁻⁷ cm / sec or less, which is provided on the barrier layer and is likely to be broken, And a mortar layer provided so as to cover the liquid-impermeable sheet, and the waste can be dumped on the mortar layer. In this case, it is desirable that continuous fibers or short fibers are mixed in the mortar layer.

[0009]

In the present invention, a mortar layer is formed on the area to be cut off in the waste disposal site, and a liquid-impermeable sheet is provided below the mortar layer. Since the mortar layer can withstand the load of heavy machinery, breakage of the liquid-impermeable sheet is prevented. Even if the liquid-permeable sheet breaks, a barrier layer made of a material obtained by mixing the ion-trapping material and / or the ion-trapping material in the cement-based solidified material is provided between the liquid-permeable sheet and the ground surface. Therefore, it is possible to reliably prevent the harmful substance from penetrating into the ground.

[0010]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. FIG. 1 shows an example in which a waste disposal site is provided by using a mountain valley. A sabo dam 1 is provided at an upper part of a slope, a storage dam 2 is provided at a lower part of a slope, and a noncombustible dam is provided in the storage dam 2. This is an example in which the waste 3 is discarded.

A culvert 4 for draining rainwater is constructed below the ground surface of the slope between the sabo dam 1 and the storage dam 2. On the ground surface of the sloping ground, a harmful substance shielding floor X is formed according to the present invention.

When the harmful substance barrier floor X is formed, as shown in FIG. 2, a barrier layer 5 made of a material obtained by mixing an ion trapping material with a cement-based solidified material is formed. The ground surface of the sloping ground is not carefully shaped, but rough, so that rocks are protruding, tree roots are protruding, and irregularities are large. For this purpose, it is preferable to spray a material obtained by mixing an ion trapping material into a cement-based solidified material by using a spray gun (illustration) like mortar spraying on a slope. As a result, the surface of the blocking layer 5 can be formed flat along substantially the slope.

A non-permeable sheet 6 such as a rubber sheet or a plastic sheet is laid on the barrier layer 5. Further, a mortar layer 7 is formed on the liquid-impermeable sheet 6.

Here, the barrier layer 5 is made of cement-based solidified material such as Portland cement, blast furnace cement, fly ash cement, etc., aggregates such as sand, gravel, etc.
In addition to mixing blast furnace slag and the like, it is desirable to further mix clay minerals such as (sodium or calcium) bentonite, kaolin, montmorillonite, attapulgite, trite, zeolite, and vermiculite as ion-trapping materials. This clay mineral has a function of trapping by heavy metal cation exchange capacity. Also, by mixing activated carbon, charcoal, silica gel or the like together with the clay mineral or alone, an organic substance,
It can also be mixed in expectation of physical adsorption capacity for ammonia nitrogen, trichlorethylene and the like. Blocking layer 5
Can be created by spraying or pouring.
In this case, the clay mineral can be pelletized and mixed with the material.

The thickness of the blocking layer 5 must be at least 5 cm. The compressive strength is desirably 100 kg / cm ² or more, and the permeability coefficient based on JSF T 311-1990 is 10 ⁻⁷ cm / sec or less. The tensile strength is preferably 5 kgf / cm ² or more. In order to increase the tensile strength, 2
Rubber latex can be mixed in the range of ６6% by weight. An admixture such as a fluidizing agent or an AE agent can be mixed in the material.

The liquid-impermeable sheet 6 preferably has a thickness of 5 mm or more to prevent breakage. In order to enhance the adhesion with the barrier layer 5 and the mortar layer 7,
Irregularities can be formed on the surface.

The mortar layer 7 can be formed of ordinary mortar or concrete, and it is preferable that fibers are mixed in the mortar layer 7 so that cracks do not occur even when heavy equipment is running. Examples of the fiber include metal fiber such as glass fiber and steel fiber, and artificial fiber. In particular, polyethylene, polypropylene, acrylic, nylon fibers and the like are suitable,
In addition to short fibers, continuous long fibers can be used. The mixing amount of the fibers is preferably 0.3 to 5% by volume. The thickness of the mortar layer 7 is 2 cm or more, particularly 5 cm.
The above is preferable. Further, the mortar layer 7 has a compressive strength of 100 kg / cm ² or more and a bending strength of 30 kg / cm ^2.
As mentioned above, JSST 311-1990
Is preferably 10 ⁻⁶ cm / sec or less.

[0018]

As described above, according to the present invention, it is possible to sufficiently withstand the running of heavy equipment such as trucks and bulldozers, and it is possible to prevent breakage of the liquid-impermeable sheet. Also, by providing a blocking layer between the liquid-impermeable sheet and the ground surface, it is possible to reliably prevent harmful substances from penetrating into the ground.

[Brief description of the drawings]

FIG. 1 is a schematic view of a construction mode of a harmful substance shielding floor in a waste disposal site according to the present invention.

FIG. 2 is an enlarged sectional view thereof.

[Explanation of symbols]

5 ... barrier layer, 6 ... liquid impermeable sheet, 7 ... mortar layer,
X: harmful substance barrier

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) B09B 1/00 ZAB E02D 3/00

Claims (2)

(57) [Claims] A barrier layer made of a cement-based solidified material in which at least one of an organic compound capturing material and an ion capturing material is mixed covers and integrates with the entire ground of a region to be blocked in a waste disposal site. The barrier layer has a water permeability of 10 ^-7 cm / sec or less, and is provided on the barrier layer with a liquid-permeable sheet that is likely to be broken and a liquid-permeable sheet. And a mortar layer provided so as to cover the mortar layer, wherein the waste is dumped on the mortar layer. 2. The harmful substance shielding floor in a waste disposal site according to claim 1, wherein continuous fibers or short fibers are mixed in the mortar layer.