JP2001246344A - Waste disposal plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the leak water flowing from a ruptured position of an impervious sheet from penetrating a surface electrode and having an easy tendency to underground seepage and eventually to underground contamination. SOLUTION: This waste disposal plant is provided with the impervious sheet 1 on a ground surface shaped to a recessed shape and has a leakage detecting means 2 arranged with plural electrodes 2B on the upper side of the impervious sheet 1 and the surface electrode 2A on the lower side in order to detect the leakage of the impervious sheet 1. A viscous soil layer 4 is disposed between the surface electrode 2A arranged on the lower side of the impervious sheet 1 and the impervious sheet 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water disposal structure in a waste disposal site, and particularly to a water shielding structure.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 4, the surface of a ground is excavated in a concave shape, and a water-impervious sheet 1 is provided along the inner surface of the excavated concave part Ga. A waste disposal site provided with a leak detection means 2 is known. The leak detecting means 2 includes a surface electrode 2A provided below the water-impervious sheet 1 and a plurality of electrodes 2B, 2B ... embedded in a protective soil layer 3 provided above the water-impervious sheet 1. A power supply 2C for supplying a current to each electrode;
By measuring the resistance value between... And the surface electrode 2A,
This is for detecting the leakage position of the water-impervious sheet 1. That is,
Since the water-blocking sheet 1 is made of a material that is excellent in watertightness and does not conduct electricity, when the water-blocking sheet 1 is damaged, the resistance value at that position is low. Therefore, when the impermeable sheet 1 is damaged by the load of the waste or the heavy equipment in the waste disposal site having the above configuration, as shown in FIG. And the area S where the resistance value is the smallest in the resistance value distribution map is shown, so that the broken position X of the impermeable sheet 1 can be detected.
Note that, in FIG. 6, the + mark indicates the position of the electrode 2B. The surface electrode 2A is made of, for example, a nonwoven fabric containing aluminum foil and has a water permeability.

[0003]

However, in a conventional waste disposal site, as shown in FIG. 4, the water impermeable sheet 1 is directly laid on the above-mentioned surface electrode 2A.
5 (a) and 5 (b), when the water impermeable sheet 1 is damaged, the water leakage W spreads on the surface side of the surface electrode 2A, the water leakage area 10 increases, and the water leakage amount also increases. (Note that FIG. 5B is a cross-sectional view taken along the line BB of FIG. 5A). In this case, since the surface electrode 2A having water permeability is used, before the water-impermeable sheet 1 is repaired, the leaked water W that has flowed from the broken position X of the water-impermeable sheet 1 and spread widely has penetrated the surface electrode 2A. Underground water and easily pollute the underground.

The present invention has been made in order to solve the above-mentioned problem, and it is possible to make it difficult for water leak W flowing from a broken position X of the water shielding sheet 1 to be flooded underground. The purpose is to minimize the extent of leakage and the amount of leakage until the location is specified and repaired.

[0005]

SUMMARY OF THE INVENTION A waste disposal site according to the present invention is provided with a seepage control sheet on the surface of a concavely shaped ground (for example, excavation, or excavation and embankment, or concavely shaped by embankment). In a waste disposal site provided with a leak detection means in which electrodes are arranged above and below the impermeable sheet to detect leakage of the impermeable sheet, a surface disposed below the impermeable sheet A viscous soil layer was provided between the electrode and the water-impervious sheet. A nonwoven fabric with bentonite or a water-impermeable nonwoven fabric (for example, one using a polymer-absorbent resin) was provided between the water-blocking sheet and the viscous soil layer. The viscous soil layer was composed of bentonite-mixed soil obtained by mixing bentonite and earth and sand.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A waste disposal site according to an embodiment of the present invention will be described below with reference to FIGS. The same components as those in the conventional example of FIGS. 4 and 5 are denoted by the same reference numerals. FIG. 1 is a sectional view of a waste disposal site according to an embodiment of the present invention.
Excavation, or excavation and embankment, or embankment, provides a water-impervious sheet 1 along the inner surface of the concave Ga on the surface of the ground formed into a concave shape, and the surface of the leak detecting means 2 disposed below the water-impervious sheet 1. A viscous soil layer 4 is provided between the electrode 2A and the water-blocking sheet 1.

[0007] The water impermeable sheet 1 and the viscous soil layer 4
In between, a nonwoven fabric 5 with bentonite is provided. In place of the nonwoven fabric 5 with bentonite, an impermeable nonwoven fabric, for example, an impermeable nonwoven fabric 5A using a polymer-absorbent resin may be provided.

The viscous soil layer 4 is made of, for example, bentonite mixed soil obtained by mixing bentonite and earth and sand. Further, a viscous soil layer 4 is constructed by spraying bentonite mixed soil on the slope of the recess Ga with a dedicated device. still,
The viscous soil layer 4 may be composed of ordinary viscous soil.

The plurality of electrodes 2B,
A nonwoven fabric 6 is provided between the protective soil layer 3 in which 2B ... are buried and the impermeable sheet 1, thereby protecting the impermeable sheet 1 from loads such as waste and heavy equipment.
In FIG. 1, the protective soil layer 3 is provided only on the bottom side of the concave portion Ga, but actually, the protective soil layer 3 is provided also on the slope of the concave portion Ga, and provided on this slope. Are also buried in the protective soil layer 3.

[0010] A water-blocking sheet 7 for blocking groundwater is provided below the surface electrode 2A.

A non-woven fabric 8 is provided on the foundation ground Gu, which is the inner surface of the recess Ga.
The unevenness on the foundation ground Gu is adjusted to protect the water-impervious sheet 7.

That is, the above-mentioned layer constitution is as follows:
A water-impervious sheet 7, a surface electrode 2A, a viscous soil layer 4, a nonwoven fabric 5 with a bentonite or a water-impermeable nonwoven fabric 5A, a water-impervious sheet 1, a nonwoven fabric 6, and a protective soil layer 3 in which a plurality of electrodes 2B, 2B. It has become.

According to the present embodiment, since the nonwoven fabric 5 with bentonite or the water-impermeable nonwoven fabric 5A is provided under the water-blocking sheet 1, the water-impermeable nonwoven fabric 5A containing a polymer absorbent resin is used. In the case where the nonwoven fabric with bentonite 5 is used, the nonwoven fabric 5 further has a self-healing function, and has a function of increasing the adhesion between the water-blocking sheet 1 and the viscous soil layer 4. Even if damage occurs in 1,
As shown by reference numeral 11 in FIGS. 3A and 3B, the water leakage area can be suppressed (FIG. 3B is a cross-sectional view taken along the line AA in FIG. 3A). Further, since the viscous soil layer 4 is further provided under the nonwoven fabric 5 with bentonite or the water-impermeable nonwoven fabric 5A, the swelling function and the self-healing function by both of them can more effectively reduce the water leakage area. improves. Therefore, the water leakage W flowing from the breakage position X of the impermeable sheet 1 does not flood into the underground, and the underground contamination can be prevented.

Further, the provision of the water-blocking sheet 7 makes it possible to prevent groundwater (spring water) from infiltrating the viscous soil layer 4, and prevent runoff of bentonite-mixed soil or viscous soil and uneven settlement due to load. .

The water-blocking sheet 7 needs to be provided at a waste disposal site where the groundwater level is high, but is not necessarily provided when the groundwater level is low. In addition, it is desirable to provide the nonwoven fabric 8 as much as possible in order to adjust the unevenness of the foundation ground Gu and protect the waterproof sheet 7, but it is not always necessary to provide the nonwoven sheet 7 when not providing the waterproof sheet 7. Further, it is desirable to provide the nonwoven fabric 6 as much as possible to protect the water impermeable sheet 1.

Alternatively, the viscous soil layer 4 made of bentonite-mixed soil may be provided directly under the impermeable sheet 1 without providing the nonwoven fabric 5 with bentonite or the impermeable nonwoven fabric 5A. Even if it does in this way, even if breakage arises in the impermeable sheet 1 by the swelling function and the self-healing function by bentonite, since a water leak area can be suppressed, underground pollution can be prevented. Further, in this case, since the viscous soil layer 4 made of bentonite mixed soil and the water-blocking sheet 1 have different material properties such as elongation and deformation, there is little possibility of simultaneous breakage due to the weight of the waste or the load of heavy equipment. , Resulting in a highly reliable impermeable structure.

[0017]

According to the present invention, since the viscous soil layer is provided between the surface electrode disposed below the water-impervious sheet and the water-impervious sheet, even if the water-impervious sheet is damaged, The leakage area can be reduced, and it is difficult for the leakage flowing from the breakage position of the impermeable sheet to flood into the underground, so that underground contamination can be prevented. When the bentonite-mixed soil in which bentonite and earth and sand are mixed is used as the clayey soil layer, the swelling function and the self-healing function of the bentonite can reduce the water leakage area, and the bentonite-mixed soil and the impermeable sheet Since the material properties such as elongation and deformation are different, there is little possibility of simultaneous breakage due to the weight of waste or the load of heavy equipment, etc. A waste disposal site is obtained. In addition, when a water-impermeable nonwoven fabric is provided between the water-impervious sheet and the viscous soil layer, a swelling function and a self-healing function by using bentonite are provided. The function of increasing the adhesion to the soil layer can further reduce the water leakage area. Further, when a nonwoven fabric is provided between the electrode disposed above the water-impervious sheet and the water-impervious sheet, the water-impervious sheet can be protected from loads such as waste and heavy equipment. Also,
If a groundwater blocking sheet is installed under the surface electrode placed under the water blocking sheet, the groundwater with respect to the viscous soil layer will be generated at the waste treatment plant created in a place with high groundwater pressure. (Spring water) can be prevented, and outflow of cohesive soil such as bentonite mixed soil and uneven settlement due to load can be prevented.

[Brief description of the drawings]

FIG. 1 is a sectional view of a waste disposal site according to an embodiment of the present invention.

FIG. 2 is an enlarged sectional view of a waste disposal site according to the embodiment.

FIG. 3 is a diagram showing a situation when a seepage control sheet is broken in a waste disposal site according to an embodiment.

FIG. 4 is a sectional view of a conventional waste disposal site.

FIG. 5 is a diagram showing a situation when a seepage control sheet is broken in a conventional waste disposal site.

FIG. 6 is a diagram showing a leak detection screen by a leak detection unit.

[Explanation of symbols]

Ga recess, 1 impermeable sheet, 2 leak detecting means, 2A
Surface electrode, 2B electrode, 4 viscous soil layer, 5 nonwoven fabric with bentonite, 5A impermeable nonwoven fabric, 6 nonwoven fabric, 7
Impermeable sheet for blocking groundwater.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Naoto Hamada 2-1 Tsukudocho, Shinjuku-ku, Tokyo Kumagaya Gumi Tokyo Head Office (72) Inventor Masaru Hatae 2-1 Tsukudocho, Shinjuku-ku, Tokyo Stock Company Kumagai Gumi Tokyo Head Office (72) Inventor Tadashi Otsuka 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo Kumagaya Gumi Tokyo Head Office (72) Inventor Tsuyoshi Shintani 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo Kumagaya Co., Ltd. Gumi Tokyo head office F term (reference) 4D004 AA46 BB05 BB06

Claims (5)

[Claims] 1. A disposal device comprising: a water-impervious sheet provided on a concavely shaped surface of a ground; and a leak detecting means having electrodes disposed above and below the water-impervious sheet to detect leakage of the water-impervious sheet. A waste disposal site, wherein a viscous soil layer is provided between a surface electrode disposed below the water-impervious sheet and the water-impervious sheet. 2. The waste disposal site according to claim 1, wherein a nonwoven fabric with bentonite or a water-impermeable nonwoven fabric is provided between the water impermeable sheet and the clayey soil layer. 3. The waste disposal site according to claim 1, wherein the viscous soil layer is composed of bentonite mixed soil obtained by mixing bentonite, earth and sand, and the like. 4. The disposal according to claim 1, wherein a nonwoven fabric is provided between the electrode disposed above the water-impervious sheet and the water-impervious sheet. Disposal site. 5. A groundwater blocking sheet for blocking groundwater is provided below a surface electrode disposed below the waterblocking sheet. The waste disposal site according to claim 4.