KR100459077B1 - A Method for construction of Waste landfills - Google Patents

Abstract

In the method of constructing a waste landfill according to the present invention, a groundwater exclusion layer including rubble and a perforated pipe is installed on the bottom surface after digging the landfill site on the ground, restraining the passage of leachate on the groundwater exclusion layer, When the leachate is to be installed, the order purification mat to clean the leachate is installed, the order layer and the protective soil layer consisting of a mixed order layer or clay order layer is sequentially stacked on the order purification mat to build a landfill floor, the bottom surface of the landfill A solidified soil layer, an order purification mat, and a high-density polyethylene are sequentially stacked on the inclined wall located at the periphery to construct a landfill slope wall so that the leachate is ordered and purified by the bottom surface and the order purification mat installed on the slope wall.

Therefore, even if leachate is generated and flows into the river, sea, soil, etc., leachate is a leachate purified according to the present invention does not cause environmental pollution.

Description

A method for construction of waste landfills

The present invention relates to a method for constructing a waste landfill, and more particularly, to a method for constructing a waste landfill, which does not allow leachate from the landfill to leak into soil and reinforcement, and enables purification of the leachate.

Recently, as interest in environmental pollution has increased, countries around the world have raised waste disposal as a large social problem as an anti-pollution measure for waste disposal, which accounts for a large proportion of the causes of environmental pollution.

In the past, incineration and landfill methods have been used as waste disposal methods.

However, in the incineration method, there was a problem of causing air pollution due to the dust generated during incineration, and in the case of the landfill method, there was a problem of pollution of soil, river, river, etc. due to selection of landfill and leachate generated from landfill. .

In addition, the landfill method has had many difficulties in selecting landfill sites because most people are reluctant to be located due to odors and environmental pollution caused by landfills.

In general, landfills are constructed using a cage-type garbage landfill method that proceeds to excavation in a normal and subsoil type, and landfills the garbage. This cage-type garbage landfill method is a contaminated waste caused by corrosion and rain of landfilled waste. Treatment facilities are essential to prevent leachate.

However, although most landfills have facilities for preventing leachate, there is a problem in that the leachate, which is an environmental pollution factor generated from landfills, cannot be completely purified.

Conventionally, in forming a water repellent facility at the bottom of the landfill, as shown in FIG. 1, the groundwater exclusion layer 12 formed by simply installing the perforated pipe 12a and the rubble 12b together on the base 10; The clay order layer 16 and the protective soil layer 18 were sequentially stacked. Therefore, the leachate generated from the landfill was ordered by the clay order layer.

In addition, as a complementary method, a high density polyethylene (HDPE) 20 is laid on the clay order layer 16 as shown in FIG. 2, or as shown in FIG. There is a method of using the mixed order layer 22 in which bentonite is mixed.

The order simply by the clay order layer 16 should be formed to a thickness of about 100 cm in this case it takes a lot of time and money to obtain the clay, there is a fear of damage to the natural environment due to the collection in a separate place. In addition, since most of the landfills are soft grounds with poor ground and soil properties, the supporting capacity of the lower clay layer is insufficient and floating settlement occurs, so that the joints between the high-density polyethylene (20) sheets are frequently damaged, and during construction or construction. Later, the sheet itself may be damaged by construction equipment, etc., and there are many problems in stability, such as leachate from later wastewater penetrating underground.

In addition, when the order wall is formed on the inclined surface of the landfill, the order layer such as the clay order layer 16 or the mixed order layer 22 is not fixed to the landfill wall, and thus, such order facility is generally not used, and as shown in FIG. Bentonite mat and high-density polyethylene are installed on the layer and ordered, and a protective earth layer is formed to protect the lower layer.

Accordingly, an object of the present invention is to provide a method for constructing a waste landfill, which can order the leachate generated from the landfill.

According to the present invention, a method for constructing a waste landfill according to the present invention provides a groundwater exclusion layer including rubble and a perforated pipe on a bottom surface after digging the landfill site on the original ground, and the leachate on the groundwater exclusion layer. If there is a leachate that is partially passed through, a degree purification mat is installed to purify the leachate, and the ordered layer and protective soil layer consisting of mixed order layer or clay order layer are sequentially stacked on the level of the landfill. And constructing a landfill slope wall by sequentially stacking a solidified soil layer, an order purification mat, and a high density polyethylene on an inclined wall located around the bottom surface of the landfill.

Therefore, even if leachate is generated and flows into the river, sea, soil, etc., leachate is a leachate purified according to the present invention does not cause environmental pollution.

1 to 3 are schematic vertical cross-sectional views of the bottom surface of a landfill in accordance with the prior art.

4 to 5 are schematic vertical cross-sectional views of a landfill in accordance with the present invention.

* Description of the major symbols in the drawings *

100: ground plate 102: groundwater exclusion layer

104, 112: order purification mat 104a, 104d, 112a, 112d: water permeable sheet

104b, 112b: bentonite particles 104c, 112c: zeolite particles

104A: Order Purification Layer 104B: Bentonite Layer

104C: zeolite layer 106: mixed order layer or clay order layer

108, 116: protective soil layer 114: high density polyethylene sheet

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

Figure 4 is a schematic vertical cross-sectional view of the landfill according to the present invention. The landfill according to the present invention after digging the landfill for the ground 100 as shown, rubble (102b) and on the bottom (I) Install the groundwater exclusion layer 102 including the perforated pipe 102a, and install a water purification mat that suppresses the passage of the leachate on the groundwater exclusion layer 102 and purifies the leachate when there is some leachate that passes. And sequentially stacking the mixed order layer 106 and the protective soil layer 108 on the order purification mat 104 to construct a landfill bottom. Then, the solidified soil layer 110, the degree of purification mat 112, and the high density polyethylene 114 are sequentially stacked on the inclined wall surface II located around the bottom of the landfill land I, and the insulated wells provided on the inclined wall surface II. The leaching mat 112 allows the leachate to be ordered and purified.

The groundwater exclusion layer 102 formed on the bottom surface installs a hole hole 102a having a plurality of holes together with the rubble 102b. The perforated pipe 102a in the groundwater exclusion layer 102 provides a path for the leaked leachate to move to a sewer or other collection site when the leachate generated from the landfill waste is leaked out by the ordered layers.

The mixed order layer 106 is a mixture of soil and bentonite particles in a predetermined ratio so that the leachate is ordered by filling the pores between the soil particles.

And the soil layer 110 and the high-density polyethylene sheet 114 formed on the inclined wall surface (II) is to order the leachate generated from the landfill waste, and the soil layer 110 is generally a field soil generated when dig It is formed by mixing and applying cement.

In addition, the degree of purification mats 104 and 112 formed on the bottom surface I and the inclined wall surface II, respectively, are intended to purify the leachate and at the same time.

The order purification mats 104 and 112 surround the order purification layers 104A and 112A formed from the bentonite particles 104b and 112b and the zeolite particles 104c and 112c and the order purification layers 104A and 112A on the upper and lower surfaces thereof. And water-permeable sheets 104a, 104d, 112a, and 112d for passing water therethrough.

Bentonite is a type of mud and is widely used as a lining material because it absorbs moisture when in contact with water and expands several times.

Zeolite is a silicate mineral of aluminum that contains alkali metal and alkaline earth metal and also contains crystal water. It is widely used in various fields such as ion exchanger, waste water treatment agent, soil improver, etc. because it has characteristics such as adsorption, moisture absorption and cation exchangeability. .

Here, the order purification layers 104A and 112A are formed as a single layer in which bentonite particles 104b and 112b and zeolite particles 104c and 112c are mixed. Alternatively, as shown in FIG. 5, the bentonite particles and the zeolite particles may be separated from each other. The bentonite layers 104B and 112B including the bentonite particles 104b and 112b and the zeolite layers 104C and 112C including the zeolite particles may be formed. The nonwoven fabrics 104e and 112e are interposed between the bentonite layers 104B and 112B and the zeolite layers 104C and 112C.

Bentonite particles 104b and 112b in the order-purifying layers 104A and 112A have an average of 16 meshes, and zeolite particles 104c and 112c have an average of 200 meshes. Bentonite particles 104b and 112b and zeolite particles are used. It is preferable to mix (104c, 112c) in the ratio of 6-12: 1.

The method of constructing a waste landfill site according to the present invention first proceeds to dig in a normal light down to the base 100.

The bottom surface is formed by sequentially stacking the groundwater exclusion layer and the order purification mat, and forming a clay order layer or a mixed order layer on the order purification mat to form a protective soil layer. In addition, the inclined wall surface integrally connected with the bottom surface form a solidified soil layer, the degree of purification mat, high-density polyethylene sequentially.

Here, the groundwater exclusion layer or the mixed order layer is formed thinner than the conventional mixed order layer. Even if the mixed order layer is formed thinner than the conventional one, since the order purification mat is additionally provided, the leachate generated can be sufficiently ordered.

Therefore, it is possible to save a lot of time and cost required to form a clay order layer and mixed order layer, it is possible to landfill a larger amount of waste.

In addition, when the leachate generated at the landfill reaches the order purification layers 104A and 112A, the leachate is ordered by the bentonite particles 104b and 112b and no longer descends to the lower layer and simultaneously to the zeolite particles 104c and 112c. Is purified by.

If the leachate is not ordered by the order purification mats 104 and 112 and passes through the degree purification mats 104 and 112, the leachate is already purified by the zeolite powder 112c even if the leachate flows into the soil or the river. It does not pollute soil or river in state.

As described above, when the landfill is formed according to the present invention, when leachate is generated in the landfill, the leachate is no longer leaked to the lower layer by the bentonite included in the water purification mat, and the leachate is purified by zeolite to prevent contaminants. This eliminates contamination of the soil and relegation due to leachate contamination, even if leachate flows out of the landfill.

In addition, the conventional high-density polyethylene is not formed, and the thickness of the clay order layer is reliably reduced, thereby increasing the amount of landfill in the landfill and reducing the time and additional costs for the formation of the clay order layer.

Claims (9)

After digging the landfill site in the ground, install a groundwater exclusion layer including rubble and perforated pipes on the bottom surface, On the groundwater exclusion layer, a water purification mat is installed to suppress the passage of the leachate and to purify the leachate if there is some leachate that passes. Constructing a landfill floor by sequentially laminating an order layer and a protective soil layer composed of a mixed order layer or a clay order layer on the order purification mat, Waste landfill construction method characterized in that to build a landfill slope wall by sequentially stacking a solidified soil layer, the degree of purification mat, high density polyethylene on the inclined wall located around the bottom of the landfill. delete delete The method of claim 1, And the water purifying mat comprises a water purifying layer formed of bentonite particles and zeolite particles, and a water-permeable sheet surrounding the water purifying layer. The method of claim 4, wherein The water-permeable sheet is a waste landfill construction method characterized in that consisting of a woven fabric and a non-woven fabric respectively attached to both sides of the water purification layer. The method of claim 4, wherein And the zeolite particles have a size smaller than that of the bentonite particles. The method of claim 4, wherein The order purification layer is a waste landfill construction method characterized in that formed of a mixed layer of mixed bentonite particles and zeolite particles. The method of claim 4, wherein The order purification layer comprises a bentonite layer including the bentonite particles, a zeolite layer including the zeolite particles, and a waste landfill construction method characterized in that a nonwoven fabric for separation is added between the bentonite layer and the zeolite layer. The method of claim 1, And the mixed order layer is mixed with soil and bentonite particles so that the bentonite particles fill the voids between the soil particles.