KR100948027B1 - Gas discharging apparatus for waste reclaimed land having a gas gathering apparatus in the uppest layer - Google Patents

Abstract

PURPOSE: A gas discharge device for waste landfill sites is provided to stably collect landfill gas, and to prevent environmental damage around the waste landfill through a top gas collecting pipe while maintaining effectiveness of the landfill gas. CONSTITUTION: A gas discharge device for waste landfill sites includes the following: a vertical gas collecting pipe(110) collecting landfill gas and built in a waste landfill layer; a guide pipe(120) blocking leakage of the landfill gas; a landfill gas transfer pipe(170) discharging the landfill gas collected in the vertical gas collecting pipe; and a top gas collecting pipe(130) consisting of a perforated drain pipe(132), a pinholeless pipe(134) and a connection part(136).

Description

Gas discharging apparatus for waste reclaimed land having a gas gathering apparatus in the uppest layer}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas discharge device for a landfill, and more particularly, to a gas discharge device for a landfill having a top gas collection pipe for collecting landfill gas of a top landfill layer.

In general, a method of treating waste, waste, etc. using a landfill site is to stack the waste to a certain height, and then repeat the process of covering the stacked waste with soil or a similar shield (commonly referred to as a "soil layer"). It is a garbage disposal method that decomposes garbage for several decades. Therefore, in the waste landfill site, the landfill final plan is not piled up and landfilled at once, and in general, several stages are stacked at a height of about 5 m, and the waste is buried at a height of about 4.5 m. At a height, soils, such as soils with low permeability, solidified materials or construction wastes recycled, are covered, thereby preventing malodorous emissions, flying of waste, and infestation of pests and rodents. In addition, the cover layer may be classified into an intermediate cover layer formed between the waste landfill layer and a final cover layer formed on top of the waste landfill layer, and the final cover layer includes a gas exclusion layer, a barrier layer, a drainage layer, and a vegetation layer for landscaping and other uses. Can be made.

In addition, in a conventional landfill site, it takes a long time to bury the waste, and after a waste landfill of each stage, the next landfill operation takes a long time. In this way, the stacked waste and waste are spontaneously decomposed to generate flammable landfill gas. Therefore, a method of reducing the risk of fire or explosion in the landfill by installing a plurality of gas discharge pipes having gas inlet holes in the landfill and discharging the landfill gas generated from the waste to the outside is commonly used. The landfill gas discharged to the outside of the landfill is usually disposed of by incineration, but recently, the landfill gas is used to produce electricity by power generation, and researches on eco-friendly and low-cost energy production methods are actively conducted. .

1 is a view for explaining a conventional waste landfill gas discharge device, as shown in Figure 1, the landfill layer 54 is composed of a plurality of landfill layer, between the landfill layer 54, intermediate cover layer ( 56) is formed. In addition, the gas collecting tube 10 is embedded in the waste landfill layer 54 to a predetermined depth to collect the landfill gas generated in the waste landfill layer 54. In addition, the landfill gas transfer pipe 40 is connected to the upper portion of the gas collecting pipe 10, the landfill gas collected by the gas collecting pipe 10 is a condensate drainage device (40) through the landfill gas delivery pipe (40) 200 to be separated to condensate contained in the landfill gas. In addition, the upper layer of the landfill layer 54, the steel pipe to prevent deformation of the hole 50 of the landfill layer 54, and to extend the length of the gas discharge device in the future when the landfill height rises 82 is formed. Therefore, the gas collecting pipe 10 of the uppermost layer of the landfill layer 54 is located inside the steel pipe 82, and the gas collecting pipe 10 located at the uppermost layer of the waste landfill layer 54 Disconnected, the landfill gas generated in the uppermost layer is released to the surface of the buried layer. Therefore, due to the surface leakage of the landfill gas, environmental damage around the landfill site is severe, and eventually causes environmental problems such as global warming, and it becomes difficult to collect useful landfill gas, thereby reducing the recycling efficiency of landfill gas. This is a problem in terms of recycling resources.

Accordingly, it is an object of the present invention to provide a gas discharge device for a landfill having a top gas collection pipe for collecting the top landfill gas of a landfill layer.

Another object of the present invention is to provide a gas discharge device for a landfill having a structurally stable top gas collecting tube.

In order to achieve the above object, the present invention is buried in the landfill layer, the vertical gas collecting pipe for collecting the landfill gas generated in the landfill layer; A guide tube formed around a vertical gas collecting tube positioned at the top of the landfill layer; A landfill gas transfer pipe connected to an upper portion of the vertical gas collecting pipe to draw out the landfill gas collected in the vertical gas collecting pipe; And it is formed on the outside of the guide tube, and provides a gas discharge device for landfills including a top gas collecting pipe for collecting the landfill gas generated from the top of the landfill layer. Here, the uppermost gas collection pipe is located at the top of the landfill layer, the air pipe to collect the landfill gas generated from the top of the landfill layer, a non-air pipe connected to the upper end of the air pipe, and connected to the top of the air pipe And, it is preferable to include a connecting portion connected to the landfill gas transfer pipe.

The landfill gas discharge device according to the present invention includes a top gas collecting pipe for collecting landfill gas at the top end of the landfill layer, thereby preventing surface leakage of the top landfill gas and preventing environmental damage around the landfill site. As a result, the landfill gas can be stably collected. In addition, the gas discharge device for landfills according to the present invention is provided with a top gas collection pipe that can be reused even when the landfill layer is raised, so that it can be used for a long time and has economic advantages. In addition, the gas discharge device for landfills according to the present invention, because the various construction methods using the geotextile itself, ridge net-circulating aggregate and geotextile-circulating aggregate dike around the top gas collection pipe, it is stably of the top landfill layer There is a characteristic that can collect landfill gas.

Hereinafter, with reference to the accompanying drawings will be described in detail the gas discharge device for landfill in accordance with a preferred embodiment of the present invention.

2 is a view for explaining a gas discharge device for landfills according to an embodiment of the present invention. As shown in FIG. 2, the gas collecting device for a landfill having a top gas collecting pipe according to an embodiment of the present invention includes a vertical gas collecting pipe 110, a guide pipe 120, and a landfill gas conveying pipe ( 170), the top gas collecting tube 130 is included.

The vertical gas collecting pipe 110 is embedded in the landfill layers 54 and 55 to collect landfill gas generated in the landfill layers 54 and 55, and collects the collected landfill gas in the vertical gas collecting pipe 110. As a means for transporting to the upper portion, as shown in FIG. 2, the landfill gas generated through the natural decomposition of the landfilled waste is embedded in the top end 55 of the landfill layer as well as the bottom end 54 of the landfill layer. Done. The vertical gas collecting pipe 110 has a plurality of gas inlets formed on the surface to collect the landfill gas, it may be made of a thermoplastic resin, for example, high density polyethylene (HDPE), the inner diameter Is typically 15 to 35 cm. The gas inlet is typically formed in 10 to 14 per circumference of the vertical gas collecting tube 110, the outer diameter is 10 to 14mm, preferably 11 to 13mm, horizontal spacing is 20 to 40mm, preferably 25 to 35 mm. When the buried layer rises, the vertical gas collecting pipe 110 additionally connects the vertical gas collecting pipe 110 to raise the height of the buried gas in the raised landfill layer. In this case, the vertical gas collecting pipe 110 having the same inner diameter as the outer diameter of the vertical gas collecting pipe 110 may be alternately connected to extend its length.

The guide tube 120 is formed around the vertical gas collecting tube 110 positioned at the top end 55 of the landfill layer to protect the vertical gas collecting tube 110. In particular, the guide tube 120, when installing the vertical gas collecting pipe 110 for the first time in the landfill layer, after boring the landfill layer to make a hole, the guide tube 120 is inserted into the hole As a result, the vertical gas collecting pipe 110 performs a function of securing a space in which the vertical gas collecting pipe 110 can be located. In addition, when one end of the landfill is finished, and the next stage of landfilling is started, first, the vertical gas collecting pipe 110 is additionally connected and installed, and then the embedded guide pipe 120 is raised to raise the next stage. It also induces the discharge of landfill gas at the lower end during landfilling. Therefore, the guide tube 120 is located at the top of the landfill layer, and as shown in FIG. 2, is formed to protrude upward from the landfill layer 55 so as to be connected to the landfill gas transfer pipe 170. The guide pipe 120 not only protects the vertical gas collecting pipe 110, but also blocks air leakage of the landfill gas collected in the guide pipe 120, and prevents inflow of rainwater outside the guide pipe 120. It blocks and performs a function to protect the vertical gas collecting facility from the vehicle related to the landfill operation, so it is formed in the form of a hollow pipe, and steel pipe is usually used. In order to facilitate the lifting of the guide tube 120 during the lifting operation by a crane, two or more connecting rings 121 are formed on both sides of the upper end of the guide tube 120 to be integrated with the guide tube 120. The connection ring 121 may be manufactured at the factory to be integrated with the guide tube 120 or may be installed at the site. Between the guide tube 120 and the vertical gas collecting tube 110, a breathable filler 92 such as crushed stone or aggregate is formed, and even after the guide tube 120 is raised, the breathable filler 92 Foreign matter is blocked by the, the position of the vertical gas collecting pipe 110 is fixed. In addition, by forming the filling portion 58 to the upper end of the guide pipe 120 with high quality soil, to prevent the outflow of landfill gas, rain water flows into the landfill through the vertical gas collecting pipe 110 during the rainy season. It is prevented, and at the same time the access of the landfill vehicle is blocked. In addition, the guide pipe 120 is buried in the guide pipe 120, unlike the vertical gas collecting pipe 110 is used through the continuous connection, when one stage of the filling is completed, and the next stage is buried. It raises and reuses. Therefore, when the plan height of the buried end is changed in the future, the height of the guide tube 120 may be short. In this case, after the completion of the landfill, the guide pipe 120 is located below the cover surface, the landfill gas transfer line 170 is impossible to connect, rainwater inflow is induced, and the blind flange (not shown) Installation becomes difficult, and many complaints are caused by bad smell. Figure 3 is a perspective view of the extension tube of the guide tube of the gas discharge device for landfills according to an embodiment of the present invention. As shown in FIG. 3, in order to solve various problems caused when the height of the guide tube 120 is low, the extension tube 122 may be connected to the upper end of the guide tube 120. The extension tube 122 includes a main body 124a, upper and lower flanges 123a and 123b and an impression ring 124b for connection with the guide tube 120, and penetrates the buried gas transfer pipe 170. It may include a connection hole 125 that can be. The main body 124a is formed in the same pipe as the guide tube 120, the upper and lower flanges 123a, 123b is formed around the hole for fastening the bolt, the impression ring ( 124b) performs the same function as the connecting ring 121 of the guide tube 120. The length of the extension tube 122 is usually 1 to 5m, preferably 2 to 4m. Therefore, when the height of the guide tube 120 is shortened due to the change of the planned landfill in the future, the extension tube 122 is fastened to the end of the guide tube 120 through the lower flange 123b to be integrated. To form a, it is possible to perform the function of the guide tube 120. In this case, a flange portion may be formed at an upper end of the guide tube 120 to be connected to the lower flange 123b.

In addition, the guide pipe 120 is completed when the end of the buried, the next stage is buried, the steel wire is connected to the two or more connecting rings 121, it is raised by the lifting device such as a crane. In this case, the guide tube 120 and the upper gas collecting tube 130 are integrally integrated in consideration of the frictional resistance of the uppermost landfill layer 55 and the lifting ability of the crane during the pulling operation. After being formed to behave, the guide tube 120 and the uppermost gas collecting tube 130 can be simultaneously raised in parallel. In this case, in order to integrally form the guide tube 120 and the uppermost gas collecting tube 130, the guide tube 120 and the uppermost gas collecting tube 130 are bent using a wire or steel wire. can do. Therefore, the uppermost gas collection tube 130 is improved to be fixed or to maintain the vertical degree so as to stand directly on the guide tube 120. In addition, in order to minimize frictional resistance of the guide tube 120 and the uppermost gas collecting tube 130 and to smoothly raise the work, the uppermost gas collecting tube 130 is first raised, and the guide tube 120 is later raised. Can be.

The landfill gas transfer pipe 170 is connected to an upper portion of the vertical gas collecting pipe 110 and is a means for drawing out the landfill gas collected in the vertical gas collecting pipe 110. It may be directly connected to the top, or pass through the guide tube 120, it may be connected to the vertical gas collecting pipe (110). In addition, the landfill gas transfer line 170 is connected to a condensate drainage device (not shown) for separating the condensate contained in the landfill gas from the landfill gas, and the collected landfill gas removes condensed water and utilizes landfill gas. Connected to a recycling device (not shown), the collected landfill gas is transferred to the recycling device is recycled.

The uppermost gas collecting tube 130 is formed outside the guide tube 120 and collects the landfill gas generated at the uppermost end 55 of the landfill layer, as shown in FIG. , Non-empty tube 134 and connecting portion 136. The hole pipe 132 is located at the top end of the landfill layer 55, and is a means for collecting landfill gas generated at the top end of the landfill layer 55, so that the landfill gas can be collected. Is formed. The hole pipe 132 may be equal to or smaller than the length of the top end 55 so as to be positioned at the top end 55 of the landfill layer, and may be made of a thermoplastic resin, for example, high density polyethylene (HDPE). The inner diameter is usually 10 to 30 cm, preferably 20 to 25 cm. 10 to 14 gas inlets formed in the hole tube 132 are formed per circumference of the hole tube 132, and are disposed at intervals of 2 to 4 cm. The air pipe 134 is connected to the upper end of the oil pipe, and is located in the fill portion 58 of the top end of the landfill layer 55 to block the inflow of soil, water, gas and the like. One end of the connection part 136 is connected to the upper end of the non-hole tube 134, and the other end thereof is connected to the landfill gas transfer pipe 170 so that the landfill gas collected from the oil hole 132 is connected to the connection part 136. Through, the landfill gas transfer pipe 170 is transferred. The connecting unit 136 may be a commonly used reducer (reducer). The perforated tube 132, the non-perforated tube 134 and the connecting portion 136 may be manufactured integrally in the factory, and may be manufactured by assembly, riveting, welding, or the like in the field so as to be integrally behaved.

When the uppermost gas collecting tube 130 is filled with one end, the uppermost gas collecting tube 130 is pulled up to the next stage alone or in parallel with the rise of the guide tube 120 to fill the next stage. 4 is a view for explaining the uppermost gas collection pipe of the gas discharge device for landfills according to an embodiment of the present invention. As shown in FIG. 4, a fixing bar 133a penetrating horizontally is formed at an upper portion of the perforated tube 132. The fixing bar 133a is a device to which the catching portion 133c of the pulling device (not shown) is fixed when the uppermost gas collecting pipe 130 is pulled, and the gas inlet 133b formed in the hole pipe 132 is fixed. It penetrates and is fixed to the hole tube 132. The high tension bolt 133a may be used as the fixing bar 133a, and the high tension bolt 133a is fastened and fixed to the perforated oil hole 132 by a nut. The lifting device is typically a crane is used, since the hook is formed on the end of the crane, the hook serves as a locking portion (133c). Therefore, when the uppermost gas collecting pipe 130 is pulled up, the hook 133c of the crane enters through the connection part 136 of the uppermost gas collecting pipe 130 to fix the bar formed in the perforated pipe 132. That is, it is fixed to the high tension bolt 133a. That is, since the hook 133c is lifted while the hook 133c is fixed to the high tension bolt 133a, the uppermost gas collection pipe 130 is pulled up to the next stage.

In addition, the perforated pipe 132 may be fixed to the guide tube 120, the periphery of the perforated pipe 132 and the guide tube 120 may be formed at fixed intervals, such as a fixing band 138 at a predetermined interval. . In addition, around the perforated pipe 132, geotextiles (139, geotextile) is formed in order to block foreign matter, such as waste, soil flowing into the perforated pipe 132. As the geotextile 139, a knitted fabric, a fabric, a nonwoven fabric, and the like are used. The raw material of the geotextile 139 is a material having high chemical stability, such as acid and alkali, and excellent durability. It may be made of thermoplastic fibers such as polypropylene or polyester having uniform and excellent water permeability and breathability and excellent chemical and physical resistance as well as chemical resistance. The geotextile 139 may be formed on the entire surface of the perforated tube 132, for example, to surround the perforated tube 132 or to produce a pocket of the outer diameter of the perforated tube 132, the perforated tube 132 Can be coated). As a result, the landfill gas generated from the top layer 55 of the waste landfill layer is collected into the hole pipe 132 while the foreign matter is filtered by the geotextile 139.

5 is a view for explaining a gas discharge device for landfills according to another embodiment of the present invention, as shown in Figure 5, the landfill gas discharge device according to another embodiment of the present invention, the vertical gas It includes a collecting pipe 110, a guide pipe 120, a landfill gas conveying pipe 170 and the top gas collecting pipe 130, the vertical gas collecting pipe 110, a guide pipe 120, a landfill gas conveying pipe 170 and the uppermost gas collecting tube 130 has the same structure and function as the gas discharge device for landfills according to an embodiment of the present invention shown in FIG. In addition, the uppermost gas collection pipe 130 includes a hole pipe 132, a non-hole pipe 134, a connecting portion 136 and a fixing bar 133a, the hole pipe 132, a non-porous pipe 134, a connecting portion ( 136 and the fixing bar 133a perform the same function as the uppermost gas collection pipe 130 of the gas discharge device for landfill according to one embodiment of the present invention shown in FIGS. 2 and 3. In addition, the periphery of the perforated pipe 132 is formed with a ridge net (142, 菱 形 網), the circulation aggregate 144 is filled between the perforated pipe 132 and the ridge net 142. The ridge network 142 is a rectangular network, located around the perforated pipe 132, the circulating aggregate, crushed aggregate or recycled aggregate is sufficiently filled between the ridge network 142 and the perforated pipe 132, The foreign material is caught, and the perforated pipe 132 is protected so that the landfill gas is easily collected. The material of the ridge net 142 may be a vinyl chloride (PVC) coated iron wire, hot dip galvanized iron wire, etc., the length of one side of the square hole of the ridge net 142 is typically 20 to 40mm, It can be produced by adjusting the size according to the size. The distance from the hole tube 132 is 30 to 40 cm, preferably 25 to 35 cm. The ridge net 142 stably supports the circulation aggregate 144 and performs the function of fixing the circulation aggregate 144. The circulating aggregate 144 is located in the ridge net 142 to perform a function of allowing the landfill gas of the uppermost landfill layer 55 to smoothly flow into the oil hole 132 without foreign matter. The circulating aggregate 144 may be used aggregate or crushed aggregate, in particular, recycled aggregate or recycled aggregate recycled construction waste, in particular, circulating coarse aggregate as well as circulating aggregate may be used, the size is 20mm to 40mm Is smaller than the size of the square hole of the ridge net 142. In addition, for the firmness and molding of the ridge net 142 and the circulation aggregate 144, it is necessary to perform a compaction operation. That is, in order to compact the circulation aggregate 144 filled between the hole pipe 132 and the ridge net 142, a filling frame (not shown) surrounds the ridge net 142 on the outer circumferential surface of the ridge net 142. ) May be formed. That is, in the gas discharge device for landfills according to another embodiment of the present invention, the filling frame is located around the perforated pipe 132, and after filling the circulating aggregate 144 inside the ridge net 142 After the compaction operation is completed, the filling frame is dismantled. Therefore, the filling frame performs the function of the temporary material, it is preferable to have a structure that can be disassembled. In addition, the filling frame may be recycled to the extension tube 122 of the guide tube 120 to recycle resources. 6 is a view for explaining a filling frame of the gas discharge device for landfills according to another embodiment of the present invention. As shown in FIG. 6, the filling frame 146 may be recycled to the extension tube 122 shown in FIG. 3. That is, the filling frame 146 vertically cuts the extension tube 122 along one or more vertical surfaces 148a and 148b, and cuts the cut extension tube 122 into a circle through two or more locking devices 147a. It is formed by holding. Therefore, the filling mold 146 is positioned around the perforated pipe 132 in a disassembled state, and after forming a circle through the locking device 147a, the ridge net 142 inside the filling mold 146. ) And fill the circulation aggregate 144, thereby maintaining the molding and firmness of the ridge net 142 and the circulation aggregate 144.

7 is a view for explaining a gas discharge device for landfills according to another embodiment of the present invention, as shown in Figure 7, the landfill gas discharge device according to another embodiment of the present invention, vertical Gas collecting pipe 110, the guide pipe 120, the landfill gas transfer pipe 170 and the uppermost gas collecting pipe 130, the vertical gas collecting pipe 110, guide pipe 120, landfill gas transfer The pipe line 170 and the uppermost gas collection pipe 130 have the same structure and function as the gas discharge device for landfill according to the embodiment of the present invention shown in FIG. 2. In addition, the uppermost gas collection pipe 130 includes a hole pipe 132, a non-hole pipe 134, a connecting portion 136 and a fixing bar 133a, the hole pipe 132, a non-porous pipe 134, a connecting portion ( 136 and the fixing bar 133a perform the same function as the uppermost gas collection pipe 130 of the gas discharge device for landfill according to one embodiment of the present invention shown in FIGS. 2 and 3. In addition, around the perforated tube 132, geotextiles are formed in order to block foreign substances such as moisture and soil introduced into the perforated tube 132. The geotextile 159 has the same function, material, structure, and role as the geotextile 139 shown in FIG. 2. In addition, a circulation aggregate dike 152 is formed at the lower portion of the perforated pipe 132. The circulation aggregate dike 152 is a means for fixing the position of the perforated tube 132, the height of the circulation aggregate dike 152 is 1.0 to 2.5m, preferably 1 to 2m. Since the diameter of the circulation aggregate dike 152 is formed around the perforated tube 132, it is 2 to 5 times the diameter of the perforated tube 132, preferably 3 to 4 times. As the circulating aggregate 152, aggregate or crushed aggregate, in particular, recycled aggregate or recycled aggregate recycled construction waste may be used. In particular, circulated fine aggregate as well as circulated coarse aggregate may be used.

The operation of the gas discharge device for landfills according to the present invention will be described. 8 is a view for explaining a state before the landfill of the gas discharge device for landfills according to an embodiment of the present invention. Referring to FIG. 8, when the top stage gas collection tube 130 is installed for the first time after the completion of the filling of one stage and before the filling of the next stage is started, one embodiment of the present invention is implemented. The operation of the gas discharge device for landfill according to the example will be described. First, before the lifting operation of the guide pipe 120, the gas valve of the landfill gas transfer pipe 170 is locked in a landfill gas collecting facility (not shown) to dismantle and extend the landfill gas transfer pipe 170. Next, dismantle the man flange (not shown) located in the upper portion of the guide pipe 120, connect the vertical gas collecting pipe 110, and install to the planned height of the next stage. Third, the guide tube 120 is raised to the planned height of the next stage, and after pulling up, a blind flange positioned on the upper portion of the guide tube 120 is fastened. Fourth, the uppermost gas collecting tube 130 is erected vertically, leaning against the raised guide tube 120. In this case, the uppermost gas collection pipe 130 may be manufactured integrally with the oil pipe 132, the air pipe 134, and the connecting portion 136 in the factory, can be assembled in the field to form an integral. Here, in the pulling up of the guide tube 120 and the installation of the uppermost gas collecting tube 130, a crane or a truck-mounted crane can be used. Fifth, the guide tube 120 performs a bending operation of fixing the uppermost gas collecting tube 130 vertically using a common iron wire, a fiber rope or a rubber bar. Sixth, at the same time, the hollow fiber 139 wraps the perforated pipe 132 of the uppermost gas collection pipe 130. Seventh, the connecting portion 136 of the uppermost gas collection pipe 130 is filled with a blind flange, to block the transfer of landfill gas. Eighth, the landfill gas transfer pipe 170 is connected so that the landfill gas in the guide pipe 120 is transferred. Ninth, waste is buried in the stage 55 (see FIG. 2). Tenth, after completion of the landfill of the corresponding step 55, to install the intermediate cover layer (56, see Fig. 2), to maintain and protect the verticality of the guide tube 120 and the top gas collecting tube 130, The landfill part 58 (refer FIG. 4) is constructed using earth and sand. Eleventh, the top flange of the connection part 136 of the uppermost gas collection pipe 130 is dismantled and connected to the landfill gas transfer pipe 170. Twelfth, after connecting the landfill gas delivery line 170, check the corresponding pipe function of the landfill gas collection facility, the guide pipe 120, the top gas collection pipe 130, the landfill gas delivery line 170 and fill The function of the unit 58 is comprehensively confirmed. Therefore, in the landfill having a plurality of stages, the landfill gas generated in the uppermost landfill layer is collected through the uppermost gas collecting pipe 130, and the landfill gas generated in the lower landfill layer is a vertical gas collecting pipe 110. It is collected through.

With reference to Figure 2, the operation of the gas discharge device for landfills according to an embodiment of the present invention in the next stage of the pulling operation will be described. First, before the lifting operation of the guide pipe 120, the valve of the landfill gas delivery line 170 is locked in the landfill gas collecting facility for dismantling and extending the landfill gas delivery line 170. Next, the flange of the connection part 136 of the uppermost gas collection pipe 130 is disassembled, and a blind flange is fastened. Third, in order to raise the guide tube 120 and the uppermost gas collecting tube 130, the lifting crane stationary and driving operation is performed, in this case, it is preferable to use a truck-mounted crane for the safety operation. Fourth, in the pulling of the guide tube 120 and the uppermost gas collecting tube 130, first, the uppermost gas collecting tube 130 is raised. Fifth, dismantle the man flange (not shown) located in the upper portion of the guide pipe 120, and connects the vertical gas collecting pipe 110 is installed to the planned height of the next stage. Sixth, after the pulling up of the uppermost gas collecting tube 130 is completed, the guide tube 120 is pulled up. In this case, due to the empty space (Hole) in which the uppermost gas collecting tube 130 is raised, the friction force is reduced around the guide tube 120 so that the pulling operation can be easily performed. Seventh, the guide tube 120 is raised to the planned height of the next stage, and after the pulling, the blind flange positioned at the upper portion of the guide tube 120 is fastened. Thereafter, the fifth to twelfth steps of the operation of the gas discharge device for landfill according to the embodiment described with reference to FIG. 8 are the same.

With reference to Figure 5, the operation of the gas discharge device for landfills according to another embodiment of the present invention during the next stage of the pulling operation will be described. First, before the lifting operation of the guide pipe 120, the valve of the landfill gas delivery line 170 is locked in a landfill gas collecting facility (not shown) to dismantle and extend the landfill gas delivery line 170. Next, the flange of the connection part 136 of the uppermost gas collection pipe 130 is disassembled, and a blind flange is fastened. Third, in order to raise the guide tube 120 and the uppermost gas collecting tube 130, the lifting crane stationary and driving operation is performed, in this case, it is preferable to use a truck-mounted crane for the safety operation. Fourth, in the guide tube 120 and the uppermost gas collecting tube 130, the uppermost gas collecting tube 130 is first raised. Fifth, dismantle the man flange (not shown) located in the upper portion of the guide tube 120, connects the vertical gas collecting pipe 110 is installed to the planned height of the next stage. Sixth, after completing the uppermost gas collecting tube 130, the guide tube 120 is raised. In this case, due to the empty space (Hole) in which the uppermost gas collection tube 130 is raised, frictional force is reduced around the guide tube 120, so that the pulling operation can be easily performed. Seventh, the guide tube 120 is raised to the planned height of the next stage, and after the pulling, the blind flange positioned at the upper portion of the guide tube 120 is fastened. Eighth, the bending operation of fixing the uppermost gas collecting tube 130 to the guide tube 120 vertically using a common iron wire, a fiber rope or a rubber bar is performed. Ninth, the ridge net 142 is molded around the uppermost gas collecting tube 130 and fixed to the guide tube 120. Tenth, the ridge aggregate 144 is formed so that the circulating aggregate 144 is appropriately filled, and the circulating aggregate 144 is filled between the ridge net 142 and the uppermost gas collecting tube 130. Subsequently, the eighth to twelfth steps of the operation of the gas discharge device for landfill according to the embodiment described with reference to FIG. 8 are the same.

Referring to FIG. 7, a description will be given of the operation of the gas discharge device for landfills according to another embodiment of the present invention during the next lifting operation. First, before the lifting operation of the guide pipe 120, the valve of the landfill gas delivery line 170 is locked in a landfill gas collecting facility (not shown) to dismantle and extend the landfill gas delivery line 170. Next, the flange of the connection part 136 of the uppermost gas collection pipe 130 is disassembled, and a blind flange is fastened. Third, in order to raise the guide tube 120 and the uppermost gas collecting tube 130, the lifting crane stationary and driving operation is performed, in this case, it is preferable to use a truck-mounted crane for the safety operation. Fourth, when raising the guide tube 120 and the uppermost gas collecting tube 130, the uppermost gas collecting tube 130 is first raised. Fifth, dismantle the man flange (not shown) located in the upper portion of the guide tube 120, connects the vertical gas collecting pipe 110 is installed to the planned height of the next stage. Sixth, after completing the uppermost gas collecting tube 130, the guide tube 120 is raised. In this case, due to the empty space (Hole) in which the uppermost gas collection tube 130 is raised, frictional force is reduced around the guide tube 120, so that the pulling operation can be easily performed. Seventh, the guide tube 120 is raised to the planned height of the next stage, and after the pulling, the blind flange positioned at the upper portion of the guide tube 120 is fastened. Eighth, the bending operation of fixing the uppermost gas collecting tube 130 to the guide tube 120 vertically using a common iron wire, a fiber rope or a rubber bar is performed. Ninth, at the same time, the porous tube 132 of the top gas collecting tube 130 is wrapped with a geotextile 159. Tenth, the circulating aggregate dike 152 is fixed to the lower end of the uppermost gas collection tube 130 by fixing. Subsequently, the eighth to twelfth steps of the operation of the gas discharge device for landfill according to the embodiment described with reference to FIG. 8 are the same.

1 is a view for explaining a conventional gas discharge device for landfills.

Figure 2 is a view for explaining a gas discharge device for landfills according to an embodiment of the present invention.

Figure 3 is a perspective view of the extension pipe of the guide pipe of the gas discharge device for landfills according to an embodiment of the present invention.

Figure 4 is a view for explaining the uppermost gas collection pipe of the gas discharge device for landfills according to an embodiment of the present invention.

5 is a view for explaining a gas discharge device for landfills according to another embodiment of the present invention.

Figure 6 is a view for explaining the filling frame of the gas discharge device for landfills according to another embodiment of the present invention.

7 is a view for explaining a gas discharge device for landfills according to another embodiment of the present invention.

8 is a view for explaining the state before the landfill gas discharge device for landfill according to an embodiment of the present invention.

Claims (8)

A vertical gas collecting tube embedded in a waste landfill layer and collecting landfill gas generated in the waste landfill layer; A guide tube formed around the vertical gas collecting pipe positioned at the top of the landfill layer to protect the vertical gas collecting pipe and blocking air leakage of the landfill gas; A landfill gas transfer pipe connected to an upper portion of the vertical gas collecting pipe to draw out the landfill gas collected in the vertical gas collecting pipe; And Is formed on the outside of the guide tube, and comprises a top gas collecting pipe for collecting the landfill gas generated from the top of the landfill layer, The uppermost gas collecting pipe is located at the top of the landfill layer, and is connected to an oil pipe which collects landfill gas generated at the top of the landfill layer, an air pipe connected to an upper end of the air pipe, and an upper end of the air pipe. It includes a connecting portion connected to the landfill gas transfer pipe, geotextile to block the inflow of foreign matter so that the landfill gas flows into the hole pipe is formed around the hole pipe, The landfill gas discharge apparatus for a landfill site, when the filling of one stage of the landfill layer is completed, the uppermost gas collecting pipe is pulled up to the next stage together with the guide tube for the filling of the next stage. delete delete The method of claim 1, wherein the geotextile is knitted fabric, woven or non-woven fabric, the raw material of the geotextile is a landfill gas discharge device for landfill. The gas discharge device for a landfill according to claim 1, wherein a fixing bar penetrating horizontally is formed on the upper portion of the perforated pipe so that a locking portion of the pulling device is fixed when the uppermost gas collecting pipe is pulled up. delete delete delete

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