KR100667262B1 - Waste landfill site preventing landfill gas escape by using waterproof mat - Google Patents

Abstract

A landfill for preventing a buried gas leakage by using a waterproof mat is provided to minimize buried gas generation leaking out through a crack of a covering layer, to thereby improve ecological effects, to utilize the buried gas as a resource by enhancing efficiency in gathering the buried gas, and to initially stabilize the structure of the landfill by facilitating anaerobic decomposition in a waste buried layer. A landfill for preventing a buried gas leakage by using a waterproof mat comprises at least one waste buried layer(42a,42b) reduced of the size toward the upper end and formed with a covering layer(44a,44b) thereon; a bank(30b) formed at the edge of the waste buried layer to provide a space for burying the wastes; inner road formed at the inner side of the bank to partition each step of the waste region; a V-type soil side gutter(46) formed on a border between the bank and the covering layer to exclude rainwater; an extraction water vertical extrusion well disposed through the waste buried layer and the covering layer to transfer extraction water generated at the waste buried layer toward an extraction water treating place disposed at outside, and formed around a perforation pipe exposed outside to gather extraction water; a waste gas gathering well having a guide wall disposed through the waste buried layer and the covering layer, a perforation pipe disposed in the guide wall to gather waste gas, a waste gas transfer conduit connected with the perforation pipe to transfer the waste gas to the waste gas treating facility, and a supporting base formed around the guide wall exposed outside; and a waterproof mat(50) formed on a crack(52a) of the covering layer formed on the waste buried layer.

Description

Waste landfill site using land mat to prevent landfill gas leakage {Waste landfill site preventing landfill gas escape by using waterproof mat}

1 is a plan view of a conventional landfill.

2 is a cross-sectional view taken along the line A-A of the waste landfill shown in FIG.

Figure 3 is a plan view of a waste landfill that can prevent landfill gas leakage by utilizing the degree mat according to an embodiment of the present invention.

Figure 4 is a view for explaining the order mat used for the cover layer in the landfill according to an embodiment of the present invention.

5 is a view for explaining the degree of mat used in the boundary between the interior road and the cover layer in the landfill according to an embodiment of the present invention.

FIG. 6 is a view for explaining a degree mat used for leachate vertical disposal in a landfill of waste according to an embodiment of the present invention. FIG.

FIG. 7 is a view for explaining a degree mat used for a landfill gas collection well in a landfill of waste according to an embodiment of the present invention; FIG.

The present invention relates to a waste landfill, and more particularly, to a landfill that can prevent landfill gas leakage by utilizing a degree mat.

Waste landfills are places where landfills of industrial waste generated by people live and industrial waste generated by industrial sites are operated by the government and local governments, and vary in size depending on the amount of waste received.

In general, a waste disposal method using 'landfill' is a process of stacking waste to a certain height, and then repeating the process of covering the stacked waste with soil or a similar shield (hereinafter referred to as a 'soil layer'). It is a waste treatment method that naturally decomposes wastes stacked for years. In the landfill site, the landfill final plan is not piled up at one time and is not landfilled.In general, several stages are stacked at a height of about 5m, but the waste is landfilled at a height of about 4.5m, and about 50cm At a height, soils, such as soils with low permeability, solidified materials or construction wastes recycled, are covered to prevent odor emission, waste flying, pests and rodents. Since the stacked wastes themselves contain a certain amount of water, leachate is generated during natural decomposition, and the leachate generated is collected through the leachate vertical drainage, sent to a leachate treatment facility, and purified. Discharged or reused. In the rainy season, when a large amount of rainwater flows into the landfill, not only the amount of leachate is excessively increased, but also the landfill becomes brittle, so that the soil layer covering the waste is sufficiently compacted, and the surface of the soil layer is excellent. After draining, a rainwater drainage system is installed and discharged to a river or the like outside the landfill. In addition, the landfill gas is generated during the natural decomposition process, and in order to discharge the generated landfill gas to the outside, a landfill gas collection well for collecting and discharging the landfill gas is formed inside the waste landfill layer, and the landfill gas collection well is The landfill gas is discharged to the landfill gas treatment facility in connection with the gas transport facility installed outside.

Landfill gas is generated from the combined reaction of organic matter and water, which are wastes, such as ammonia (NH ₃ ), carbon dioxide (CO ₂ ), carbon monoxide (C0), hydrogen (H ₂ ), hydrogen sulfide (H ₂ S), and methane (CH _4). ), Nitrogen (N ₂ ), oxygen (O ₂ ), and methane and carbon dioxide are the main components. In particular, while methane and carbon dioxide are substances that cause global warming, they can be used as landfill gas power to be used as an alternative energy, and ammonia and hydrogen sulfide are odor causing substances. Therefore, landfill gas, such as methane, carbon dioxide, ammonia, and hydrogen sulfide, which leaks from the cracked portion of the landfill cover layer, promotes global warming and induces a bad smell, thereby adversely affecting the environment of the landfill and the surrounding affected area. In addition, the landfill gas is easily dissipated through the cover layer even in the case of gas that is heavier than air due to the temperature increase due to anaerobic reaction, and the landfill through the cracks of the surrounding soil layer due to the uneven settlement due to the compression settlement and decomposition of the waste. Moving outside or in contact with groundwater can affect the surrounding environment in many ways, including melting into water and causing groundwater contamination. Hazardous forms of landfill gas include fire, explosion hazards, health hazards, impacts on vegetation, groundwater contamination, and global climate impacts. In particular, due to the implementation of the odor prevention law in 2005, air pollution such as the generation of odor caused by landfill gas has become a serious social problem.In particular, when a landfill site is designated as a odor management area, landfill gas is operated when operating a landfill site. Is a very important factor in terms of economics and management. For the treatment of the landfill gas, in order to block the exposure of the waste landfill layer in a large landfill site, a cover layer is formed on the landfill layer extensively, and a landfill gas collection well is formed inside the landfill layer to form landfill gas. It is sent to the gas removal facility for processing. However, when a crack occurs in the waste landfill, landfill gas may leak to the outside through the crack, and appropriate measures are required.

1 and 2 are a plan view and a cross-sectional view taken along line A-A of a conventional waste landfill, with reference to FIGS. 1 and 2 to describe cracks that may occur inside the landfill and the landfill. The waste landfill is disposed on the banks 10a and 10b surrounding the edges of the waste landfill layers 20a and 20b at each stage, the waste landfill layers 20a and 20b embedded inside the banks, and the waste landfill layers 20a and 20b. It includes a cover layer (22a, 22b), the outermost end of the bank (10a) is formed with a flow path 16, such as an artificial river, the outside of the flow path 16 for the entry and exit of the work vehicle 18 ) Is formed, and a leachate drainage layer 25c is formed below the lowest waste landfill layer 20a. In addition, the rainwater discharge facility 14 is installed on the slopes of the dikes 10a and 10b, and the earth and sand outlets 23 are formed at the boundary between the dike 10b and the cover layer 22b to remove rainwater. Inside the banks 10a and 10b, internal roads 12 are formed to partition the embedding sections of the waste embedding layers 20a and 20b at each stage. In addition, a leachate vertical discharge well 24 for leachate exclusion and a landfill gas collecting well 26 for burying gas are formed to penetrate through the waste landfill layers 20a and 20b and the cover layers 22a and 22b.

Looking at the cracks that may occur in the waste landfill site, first, since the composition ratio of the landfilled waste is very diverse, an unequal sedimentation occurs in the landfill layer (20a, 20b), the crack occurs on the surface of the cover layer (22b), Since the inner road 12 and the waste layers 20a and 20b are made of different materials, cracks occur between the boundary of the inner road 12 and the waste layers 20a and 20b due to uneven settlement. In addition, a support base 25b is formed around the perforated pipe 25a exposed to the outside of the leachate vertically disposed tablet 24, and the support hole 25b, the support base 25b, and the cover layer 22b are formed. Cracks occur at the boundary. Similarly, a support base 27d is formed around the guide wall 27a exposed to the outside of the landfill gas collecting well 26, and the guide wall 27a, the support base 27d and the cover layer 22b are formed. A crack occurs at the boundary of Therefore, in the waste landfill, there are many places where cracks may occur, and since landfill gas leaks through the cracked portion, leakage of landfill gas through the cracked portion is an important problem in the waste landfill.

Accordingly, an object of the present invention is to provide an environment-friendly waste landfill by minimizing the generation of landfill gas leaking through cracks such as cover layer in the landfill layer.

It is another object of the present invention to provide a waste landfill that blocks landfill gas leakage and improves landfill gas collection efficiency to promote landfill gas resources.

Another object of the present invention is to effectively control the landfill gas leakage portion, to promote anaerobic decomposition inside the waste landfill layer to stabilize the landfill early to provide a structurally stable waste landfill.

In order to achieve the above object, the present invention is reduced in size toward the top, one or more stages of landfill layer having a cover layer formed thereon; A dike formed at an edge of said landfill layer to provide a landfill space; An inner road formed inside the embankment and partitioning a waste landfill section of each stage; A "V" -shaped earth and sand outlet formed at the boundary between the embankment and the cover soil layer to exclude rainwater; Located through the waste landfill layer and cover soil layer to transfer the leachate generated in the waste landfill layer to the leachate treatment plant located outside, and includes a support base formed around the perforated pipe to collect the leachate and exposed to the outside Leachate vertical distillation; A guide wall located through the waste landfill layer and the cover soil layer to transfer the landfill gas generated from the waste landfill layer to a landfill gas processing facility located outside, a perforated pipe located inside the guide wall and collecting landfill gas; And a landfill gas collection well connected to the oil hole pipe, the landfill gas transfer pipe configured to transfer the collected landfill gas to the landfill gas processing facility, and a support base formed around a guide wall exposed to the outside. And an order mat formed at a crack portion of the cover layer formed on the waste landfill layer.

Hereinafter, with reference to the accompanying drawings will be described in detail the waste landfill site that can prevent the landfill gas leakage by utilizing the degree mat according to an embodiment of the present invention.

3 is a plan view of a waste landfill site that can prevent landfill gas leakage by using the order mat according to an embodiment of the present invention, Figure 4 is a cover layer 44b in the waste landfill site according to an embodiment of the present invention As a view for explaining the order mat 50 to be used, with reference to Figures 3 and 4, it will be described in the waste landfill according to an embodiment of the present invention.

The waste landfill is reduced in size toward the top, and at least one waste landfill layer (42a, 42b) in which cover layers (44a, 44b) are formed thereon; Dikes (30a, 30b) formed at the edges of the landfill layers (42a, 42b) to provide a waste landfill space; An internal road 32 formed inside the embankments 30a and 30b and partitioning the waste landfill section of each stage; For better exclusion, it includes a "V" shaped earth and sand side opening 46 formed at the boundary between the embankment 30b and the cover layer 44b. In addition, the waste landfill is located through the waste landfill layer (42a, 42b) and the cover layer (44a, 44b) to transfer the leachate water generated in the waste landfill layer (42a, 42b) to the leachate treatment plant located outside, A leachate vertically disposed 54 including a perforated pipe 55a (see FIG. 6) for collecting leachate and a support base 55c formed around the perforated pipe 55a exposed to the outside; And guide walls 57a, which penetrate through the waste landfill layers 42a and 42b and the cover layers 44a and 44b to transfer the landfill gas generated from the waste landfill layers 42a and 42b to a landfill gas treatment facility located outside. 7, a landfill gas 57b disposed in the guide wall 57a and connected to the oil hole pipe 57b for collecting the landfill gas and the oil hole pipe 57b, and transferring the collected landfill gas to the landfill gas treatment facility. A landfill gas collecting well 56 includes a conveying pipe 57c and a supporting base 57d formed around the guide wall 57a exposed to the outside.

First, with reference to FIG. 4, the order mat 50 used for the cover layer 44b is demonstrated. Since the landfill layers 42a and 42b are embedded in several stages, and the composition ratio of the landfilled wastes is different, due to uneven settlement of the landfill layers 42a and 42b, in some sections, the landfill layer 42b and the top of the cover layer 44b are disposed. A crack 52a occurs, and the landfill gas leaks into the outside atmosphere through the crack 52a. Therefore, by utilizing the order mat 50, the leakage of the landfill gas through the crack portion 52a of the cover layer 44b is prevented. Looking at the formation process of the order mat 50, first, after confirming the crack portion 52a formed in the cover layer 44b, and then cut the cover layer layer 44b in which the crack portion 52a is formed a predetermined section, After placing and fixing the order mat 50 in the crack 52a formed in the cut layer 44b, the laid cover 44b is again laid and compacted on the laid order mat 50 to cover the cover layer 44b. Is formed again. The cutting of the cover layer 44b uses equipment such as a bulldozer or a back-hoe, followed by a stop operation after cutting, and the cutting thickness of the cover layer 44b is about 20-50 cm, About 30-40 cm is preferable. If the thickness is less than 20cm, it is disadvantageous in fixing the order mat 50, and if it exceeds 50cm, it is economically disadvantageous compared to the effect. The installation of the order mat 50 is performed on the stationary cover layer 44b, and the length and width of the order mat 50 vary depending on the size of the crack 52a. The fixing is performed by fixing the corner portion of the order mat 50 to the stationary cover layer 44b by using a long nail, a fixing pin, high quality earth and sand. Alternatively, by placing the order mat 50 in the crack portion 52a formed in the cover layer 44b to reinforce the cover layer 44b to reduce the external leakage of the landfill gas, the next stage of landfill can proceed. have. When proceeding with the landfill of the next stage, the earth and sand of the buried cover layer 44b can be cut out and recycled when forming the cover layer of the next stage. In addition, the order mat 50 is a material that can block rain penetration, mainly impermeable synthetic resin, for example, polypropylene (polypropylene: PP), polyethylene (polyethylene: PE), ethylene propylene diene polymer (ethylene propylene diene) terpolymer: EPDM), and polyvinyl chloride (PVC).

5 is a view for explaining the order mat 50 used in the boundary between the interior road 32 and the cover layer 44b in the waste landfill according to an embodiment of the present invention. The inner road 32 partitions the waste landfill section in detail, and is a traffic road of the waste transport vehicle and the earth and sand transport vehicle. The internal structure includes an inner layer 33c, a furnace body 33b, and an auxiliary base layer 33a. The inner layer 33c is made of waste (about 65%), the furnace body 33b is made of earth and sand (about 30%), and the auxiliary base layer 33a is made of recycled aggregate (about 5%). have. The construction of the inner road 32 is to construct and compact the construction waste using earthwork equipment such as bulldozer, compactor, etc. to build the inner layer 33c to a height of about 3.5m, where, The inclined surface of the inner layer 33c may cover the soil to 0.5m thickness in order to prevent odor and blowing out of the waste, and then may be compacted. And laying and compacting the earth and sand to the top of the inner layer (33c) about 1m to form a furnace 33b, and finally to the recycled aggregate on the top surface of the furnace (33b) 0.5m thick and Compaction is performed to form the packaging auxiliary base layer 33a.

The material of the inner road 32 is a good quality earth and sand, and since the inner road 32 and the waste buried layer 42b are made of different materials from each other, an uneven settlement occurs, so that the inner road 32 and the cover layer 44b The crack 52b is generated at the boundary portion. Therefore, the order mat 50 is installed to prevent external leakage of the landfill gas through the crack 52b. Looking at the process of forming the order mat 50, first, after confirming the crack portion 52b formed on the cover layer 44b, the cut layer 44b and the furnace body 33b on which the crack portion 52b is formed are cut out for a predetermined period. Thereafter, after placing and fixing the order mat 50 on the cut layer 52b formed in the cut layer 44b and the furnace body 33b, the cut coat 44b cut on the laid order mat 50. Is re-established and compacted to form the cover layer 44b and the furnace body 33b again. Cutting of the cover layer 44b and the furnace body 33b is performed using equipment such as a bulldozer or a back-hoe, followed by a stop operation after cutting, and the cover layer 44b and the furnace body 33b. The cutting thickness of is about 20-50cm, preferably about 30-40cm. If the thickness is less than 20cm, it is disadvantageous in fixing the order mat 50, and if it exceeds 50cm, it is economically disadvantageous compared to the effect. The order mat 50 is laid on the stationary cover layer 44b and the furnace body 33b. The length and width of the order mat 50 depend on the size of the crack 52b, and the order mat ( The fixing of the 50 is performed by fixing the corner portion of the order mat 50 to the stationary cover layer 44b and the furnace body 33b using a long nail, a fixing pin, or the like. Alternatively, by placing the order mat 50 in the crack portion 52b formed in the cover layer 44b to reinforce the cover layer 44b to reduce external leakage of the landfill gas, the next stage of landfill can proceed. have.

6 is a view for explaining the order mat (50a, 50b) used in the leachate vertical disposal well 54 in the waste landfill according to an embodiment of the present invention. The leachate vertical drainage 54 is a leachate discharge device for collecting leachate from the waste landfill layer 42b and flowing it into a leachate pumping station and finally transporting it to a leachate treatment plant. The waste landfill layer 42b and the cover layer 44b It is located through), and includes a perforated pipe (55a) in which a plurality of holes are formed to collect the leachate, the lower end of the perforated pipe (55a) is connected to the leachate drainage layer (not shown) to the leachate pumping station (not shown) H). Since the hole tube 55a is continuously connected to the upper portion, a part thereof is exposed to the outside, and a support base 55c is formed around the exposed hole tube 55a, and the support base 55c is made of high quality earth and sand. Is formed. A crack 52c may occur between the exposed hole pipe 55a and the boundary of the cover layer 44b, and the landfill gas leaks through the crack 52c, and the landfill gas may eventually have a support base 55c. It is discharged to the outside through the outer surface. Therefore, in order to prevent the leakage of the landfill gas through the crack 52c, the order mat 50a, 50b is used, the order mat 50 is installed vertically around the perforated pipe 55a exposed to the outside It is divided into an order mat 50a and a horizontal order mat 50b which penetrates through the hole pipe 55a and is formed horizontally in the buried layer 44b.

Since the waste landfill is composed of one or more stages of landfill, when one stage of landfilling is completed, the next stage of landfilling proceeds, and the next stage of landfilling proceeds after the leachate vertical drainage 54 is installed. do. Looking at the extension installation of the leachate vertical excrement (54), first dismantle the support base, dismantle the cap for the air pipes, and then dig a part of the cover layer (44a) and the buried layer (42a), and then the After filling the rubble (not shown) in the reclamation layer 42a and the cover layer 44a, the vertical excavation wells 54 are extended to the upper portion, aggregates (not shown) are formed in the lower portion, Rip proceeds. After the landfill of the next stage 42b is completed, the installation mats 50a and 50b are installed, and the cover layer 44b and the support base 55c are installed. The vertical order mat 50a is formed by surrounding the perforated pipe 55a exposed to the outside of the order mat 50a having a width of about 0.5-3 m after the completion of the filling of the waste 42b. The upper and lower ends of the order mat 50a are fixed to the perforated pipe 55a using rubber bands, cords, wires, and the like. The width of the order mat 50a is specifically determined according to the diameter and length of the leachate vertically disposed 54. In addition, the horizontal order mat 50b forms a lower cover layer of about 20 cm, horizontally installs the order mat 50b on the lower cover layer, and then fixes the lower cover layer using nails, pins, etc., at the corners. It is formed by. In addition, an upper covering layer of about 30 cm is formed on the installed order mat 50b to complete the covering layer 44b. Here, a hole through which the hole pipe 55a is formed is formed in the center of the horizontal degree mat 50b, and the size of the horizontal degree mat 50b is about 4m in width and 4m in length, and specifically, the leachate It is determined according to the diameter of the vertical excavation tablet 54. Alternatively, the horizontal order mat 50b may be formed directly on the waste layer 42b, and the cover layer 44b may be formed on the horizontal order mat 50b. The lower cover layer may be generally made of low soil permeability (cohesive soil), the upper cover layer may be made of high quality soil. After the cover layer 44b is formed, the air pipe sealing cap 55b is installed, and a support base 55c is formed to complete the installation of the leachate vertically disposed 54.

7 is a view for explaining the order mat (50c, 50d) used in the landfill gas collecting well 56 in the waste landfill according to an embodiment of the present invention. The landfill gas collecting well 56 is a device for collecting the landfill gas generated from the waste landfill layer 42b and finally transporting the landfill gas to a landfill gas treatment (power generation) facility through a landfill gas transport pipe. And a guide wall (57a) located through the cover layer (44b), the guide wall (57a), the hole pipe (57b) for collecting the landfill gas, and is connected to the hole pipe (57b) In addition, the landfill gas transfer pipe 57c for transferring the collected landfill gas to a landfill gas processing facility (not shown). In addition, since the guide wall 57a is continuously connected to the upper portion, a part of the guide wall 57a is exposed to the outside, and a support base 57d is formed around the exposed guide wall 57a, and the support base 57d is provided. ) Is formed of high quality earth and sand. A gap (not shown) and a crack 52d are generated between the boundary of the guide wall 57a and the cover layer 44b or between the guide wall 57a and the base 57d, and are buried through the gap and the crack 52d. The gas leaks and is eventually discharged to the outside through the outer surface of the supporting base 57d. Therefore, in order to prevent the leakage of the landfill gas through the gaps and cracks 52d, the order mats 50c and 50d are used, and the order mats 50c and 50d are guide walls 57a exposed to the outside. It is divided into a vertical degree mat 50c installed at the periphery and a horizontal degree mat 50d which penetrates the guide wall 57a and is formed horizontally in the buried layer 44b.

Looking at the installation of the order mat (50c, 50d), first, the landfill gas collecting well 56 is installed for the next stage of landfill, and then the waste 42b of the next stage is buried. After the landfill of the next stage 42b is completed, the installation mats 50c and 50d are installed, and the cover layer 44b and the support base 57d are installed. The vertical order mat 50c is formed by surrounding the guide wall 57a exposed to the outside of the order mat 50c having a width of about 0.5-3 m after the completion of the filling of the waste 42b. The upper end and the lower end of the order mat 50c are fixed to the guide wall 57a by using a rubber band, a rope, a wire, or the like. The width of the order mat 50c is determined according to the diameter and length of the guide wall 57a. In addition, the horizontal order mat 50d forms a lower cover layer of about 20 cm, and then installs the order mat 50d horizontally on the lower cover layer, and then uses a nail, pin, or the like on the corner portion of the lower cover layer 50d. ) Is fixed to the lower cover layer. In addition, an upper covering layer of about 30 cm is formed on the installed order mat 50b to complete the covering layer 44b. Here, a hole through which the guide wall 57a is formed is formed in the center portion of the horizontal degree mat 50d, and the size of the horizontal degree mat 50d is about 4m in width and about 4m in length. It is determined according to the diameter of the guide wall 57a. Alternatively, the horizontal order mat 50d may be formed directly on the waste layer 42b, and the covering layer 44b may be formed on the horizontal level mat 50d at all times. The lower cover layer may be generally made of low soil permeability (cohesive soil), the upper cover layer may be made of high quality soil. After the cover layer 44b is formed, the support base 57d is formed to complete the installation of the landfill gas collecting well 56.

As described above, the waste landfill according to the present invention can easily block the crack portion using the order mat, thereby minimizing the external leakage of landfill gas to form an environmentally friendly waste landfill, contributing to the prevention of global warming. In addition, by improving landfill gas collection efficiency, it contributes to energy resources such as landfill gas power generation, and by preventing the leakage of odor-causing substances, it can improve the air quality in the affected area around the landfill and provide a pleasant environment for local residents. In addition, the waste landfill according to the present invention guides the landfill gas to the landfill gas discharge device formed inside the landfill, it is possible to form a structurally stable waste landfill.

Claims (6)

One or more stages of landfill layers having a reduced size towards the top, wherein a cover layer is formed thereon; A dike formed at an edge of said landfill layer to provide a landfill space; An inner road formed inside the embankment and partitioning a waste landfill section of each stage; A "V" -shaped earth and sand outlet formed at the boundary between the embankment and the cover soil layer to exclude rainwater; Located through the waste landfill layer and cover soil layer to transfer the leachate generated in the waste landfill layer to the leachate treatment plant located outside, and includes a support base formed around the perforated pipe to collect the leachate and exposed to the outside Leachate vertical distillation; A guide wall located through the waste landfill layer and the cover soil layer, a perforated pipe located inside the guide wall, and collecting the landfill gas so as to transfer the landfill gas generated from the waste landfill layer to a landfill gas processing facility located outside; A landfill gas collection well connected to the air hole and including a landfill gas transfer pipe configured to transfer the collected landfill gas to the landfill gas processing facility, and a support base formed around a guide wall exposed to the outside; And Waste landfill comprising an order mat formed in the crack portion of the cover layer formed on the waste landfill layer. The waste material according to claim 1, wherein after cutting the cover layer having the cracks formed thereon, the order mat is laid and fixed to the cut layer, and the cover layer is laid and compacted to form the cover layer again on the laid order mat. Landfill. According to claim 1, It includes an order mat formed in the crack formed on the boundary between the cover layer and the inner road, After cutting a part of the cover layer and the inner road in which the cracks are formed, after installing and fixing the order mat on the cut cover layer and the inner road, the cover layer is laid and compacted on the laid order mat to form the cover layer and the inner road again. Waste landfill to be. The waste landfill site of claim 1, further comprising a vertical order mat formed around the perforated tube exposed to the outside of the vertical leachate and a horizontal order mat penetrating the perforated tube and formed horizontally in the buried layer. The landfill of claim 1, further comprising a vertical order mat formed around the guide wall exposed to the outside of the landfill gas collection well and a horizontal order mat penetrating the guide wall and formed horizontally in the buried layer. The landfill of claim 1, wherein the order mat is made of an impermeable synthetic resin selected from the group consisting of polypropylene, polyethylene, ethylene propylene diene polymer, and polyvinyl chloride.

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