KR20030047497A - Reclamation Gas Sampler to be stabilized sampling - Google Patents

Abstract

PURPOSE: Provided is a landfill gas collector which is easily controlled by connecting a plurality of vertical collecting wells to one manifold. CONSTITUTION: The collector comprises a plurality of vertical collecting wells(1) installed all over a landfill for extracting landfill gas, a condensate water eliminating well(2) for discharging condensate water in a landfill gas transportation pipe(6) through which the landfill gas extracted from the vertical collecting wells(1) passes, a manifold(3) connected to the plurality of vertical collecting wells(1) for collecting the landfill gas, a booster station(4) for gathering the landfill gas collected in the manifold(3) through the landfill gas transportation pipe(6), and a power plant for using the landfill gas transported through the pipe(6) as fuel.

Description

Reclamation Gas Sampler to be stabilized sampling

The present invention relates to a collecting device for stably collecting landfill gas in a landfill, and more particularly, in order to supply a landfill gas generated from landfill as a fuel of a power plant, a schedule for high-quality stable methane concentration and continuous supply flow rate. Landfill gas power generation facilities using booster station to collect the landfill gas collected from multiple manifolds by collecting a plurality of vertical collection wells and extracted landfill gas from a manifolder The present invention relates to a collection device for the stable collection of landfill gas supplied to the.

In general, the main component of landfill gas is 45-55% methane (CH ₄ ) and 35-45% carbon dioxide (CO ₂ ) and other minor components are contained.

The trace component in the landfill gas is a gas harmful to the environment, such as generating odors, and methane and carbon dioxide are greenhouse gases causing global warming.

Therefore, the landfill gas generated from the landfill should be properly treated by high temperature combustion or the like, but methane gas, which occupies about half of the landfill gas, is a combustible gas. It can be used as.

In most cases, the methane component of landfill gas generated from landfill shows good quality of 55% or more. However, these are measured at the landfill itself, and when investigating the components of landfill gas collected by improper collection system, the concentration of methane is more than 10% and oxygen concentration is very high due to the inflow of external air into the collection system. do.

In general, in the case of a gas engine capable of supplying landfill gas as a fuel, the engine cannot be operated because the heat of landfill gas is insufficient when the methane concentration is 40% or less. I recommend doing it. The output of the gas engine can be maintained at 100% only if the methane concentration of the landfill gas supplied is maintained at 50% or more.

Most landfills in Korea are not equipped with a landfill gas collection device, and the landfill gas is incinerated by simply installing a collection collection well and installing a simple incinerator at the upper portion thereof.

In addition, even when a collecting device is installed, the landfill gas is collected through a horizontal collecting pipe, which is connected to a ring-pipe which circulates around the landfill, and the ring pipe is connected to an incineration facility to incinerate the two-stage collection. As a system, all the horizontal collecting pipes installed in the entire landfill are connected to one ring pipe line, so when the methane concentration of the collected landfill gas decreases, the entire horizontal collecting pipe is controlled to control the horizontal collecting pipe in which the low methane concentration of landfill gas is collected. There was a problem that control is not easy, such as the need to investigate.

At this time, the leachate flows into the horizontal collection pipe and the external air inflow blocking facility of the facility for excluding the leachate does not work properly, and at a high suction pressure, a considerable amount of external air flows into the collecting device to reduce the methane concentration of the landfill gas collected. Lowering the oxygen concentration.

Such a collecting device is not a problem when the landfill gas is simply incinerated. However, as described above, when the landfill gas is recycled using a gas engine or the like, the landfill gas generates sufficient heat, that is, sufficient thermal energy. Since the methane concentration in the landfill gas is not maintained more than 50% because it must be supplied to the engine there was a problem that can not be used as fuel.

An object according to the present invention is to connect the plurality of vertical collection wells to one manifold to grasp and control the state of the landfill gas of the vertical collection well connected to the manifold and if 4 to 5 horizontal collection pipes are installed throughout the landfill Since the manifold can be installed, the control operation according to the change of landfill gas state can be performed in 4 to 5 manifolds to provide a collection device for stable collection of landfill gas that can be easily controlled.

1 is a schematic view showing a landfill gas collection device according to the present invention.

Figure 2 is a plan view schematically showing a landfill gas collection device according to the present invention.

Figure 3 is a schematic cross-sectional view showing a vertical collection well of the landfill gas collection device according to the present invention.

Figure 4 is a schematic cross-sectional view showing the condensate drainage of the landfill gas collecting device according to the present invention.

Figure 5 is a schematic cross-sectional view showing the manifold of the landfill gas collecting device according to the present invention

Figure 6 is another embodiment showing a vertical collection well of the landfill gas collection device according to the present invention.

Explanation of symbols on the main parts of the drawings

1: vertical collecting well 11: high density resin connection

111 roller 12 air pipe

13: collection pipe upper structure 131: upper connection

132: fixed pipe 2 ring: condensate drainage

21: manhole 22: pump

23: condensate transfer pipe 24: leachate transfer pipe

25: sensor connection part 3: manifold

31: gas collection header 32: blocking valve

33 gas pressure regulator 34 measuring instrument

35: suction pressure transmission tube 4: booster station

5: power generation equipment 6: gas transfer pipe

61: flexible pipe 62: horizontal collecting pipe

7: covering layer 71: collecting well sealing layer

8: high density resin shielding film 9: buried layer

91: crushed stone filling layer 92: perforated pipe

As a means to achieve this purpose, a vertical collection well designed for unequal settlement of landfills and a vertical collection pipe which can continuously extract landfill gas from the horizontal collection pipe installed at the initial stage by continuously connecting even when the landfill height is increased Manifolder that can adjust the pressure of the entire collection system by automatically adjusting the valve opening degree according to the suction pressure of the collecting well and the booster, and installed at the drooping part of the gas delivery pipe and pumps through the sensor when water is accumulated in the pipe. It consists of condensate drainage well designed to discharge condensate and leachate accumulated in the pipe to the leachate pipeline and to prevent external air from entering the landfill gas collection system.

Referring to the drawings, the most preferred embodiment according to the present invention, the present invention is composed of a collecting device for collecting the landfill gas in a state that there is no inflow of outside air and methane component is good.

1 is a schematic cross-sectional view of the entire collection system.

The landfill gas is first extracted from the vertical collection well 1, and the extracted landfill gas is transferred to the manifold 3 by the gas transfer pipe 6 embedded in the landfill cover surface.

At this time, the gas transfer pipe 6 should be constructed so that there is no deflection site, but inevitably, if a deflection site occurs due to a terrain, etc., a condensate drainage well (2) is installed at the point to leach condensate without inflow of outside air. Discharge to (24).

Meanwhile, the landfill gas transferred to the manifold folder 3 is transferred to the booster station 4 connected to the other manifold folder 3.

In addition, the booster station 4 includes a booster that provides suction pressure to the entire collection device, a facility for treating landfill gas, and a condenser and demister facility for finally removing water in the landfill gas. Is installed.

At this time, the landfill gas sucked from the booster station 4 is supplied to the landfill gas power generation facility 5 in which the gas engine and the generator are installed and used as fuel, and the power generation facility 5 generates electric power using the landfill gas power generation facility 5.

As shown in FIG. 2, a schematic plan view of the landfill gas collection device according to the present invention is illustrated, and vertical collection wells 1 are installed in the upper portion of the landfill in consideration of the radius of influence.

At this time, it is appropriate to install a maximum of 10 vertical collection wells in one manifold (3).

In addition, a ring-shaped gas transfer pipe 6 connecting each manifold folder 3 is connected to the booster station 4, and the landfill gas of the booster station 4 is supplied to the power generation facility 5. Lose.

3 is a schematic cross-sectional view showing a vertical collecting well of the collecting device.

As shown in FIG. 3, the landfill is a landfill gas is decomposed to generate landfill gas, and as the generated landfill gas is extracted, the landfill gas is gradually settled.

The design life of the landfill gas power generation facility is more than 20 years, and therefore, the landfill gas collecting device will also need to be designed in consideration of uneven settlement.

In another embodiment of the vertical collection well according to the present invention, the perforated landfill gas collection well is first installed in the perforated pipe 92 and filled with crushed stone (91), and combined with the perforated pipe 92 and the non-perforated pipe 12, but flow with each other It is appropriate to install so that it is possible.

The perforated tube 12 is sealed around the upper portion of the perforated tube 92 by pouring a trapping sealing layer 71 of concrete material with a predetermined radius and thickness.

At this time, when constructing the high-density resin shielding film (8) to form a through-hole through which the hollow tube 12 can pass through the high-density resin shielding film (8) and the cylindrical high-density resin connector 11 up and down the high-density resin shielding film (8) ) Is sandwiched between flanges and the like so that the high-density resin shielding film 8 is no longer damaged.

In addition, it is preferable to install a roller 111 between the high-density resin connector 11 and the non-empty tube 12 so that the high-density resin shielding film 8 can flow to prevent breakage.

On the other hand, the non-conduit tube 12 and the high-density resin connector (11), the non-conduit tube 12 and the hole tube 92 are constructed so that they can flow with each other, even if the non-conduit tube 92 is moved to the bottom due to the uneven settlement of the landfill The breakage of the vertical collection well (1) can be prevented.

At this time, the connection of the air pipe (12) and the gas transfer pipe (6) by using a flexible pipe 61 that can move up, down, left, and right with the shut-off valve (31) according to the vertical movement of the bottom of the pipe (12) ( The damage of 1) can be prevented.

The coupling portion of the upper portion of the vertical collecting well 1 and the gas transfer pipe 6 should be protected by a protective container (not shown) made of a material of the FRP series, and the shutoff valve 31 of the vertical collecting well 1. The upper part of the protective container is sealed with a cover so that it can be used when adjusting the pressure and a separate small lid is installed.

Figure 4 shows the condensate drainage (2) according to the present invention, the condensate drainage (2) is connected to the deflection portion of the gas transfer pipe (6) or the gas collection header 31 of the manifold (3) to install the condensate Remove

In addition, the condensate drainage (2) is appropriate to protect the damage, such as by using a container of the FRP series material.

On the other hand, the condensate drainage (2) is connected to the gas transfer pipe 6 and the sensor connection portion 25 is installed in the upper portion of the gas transfer pipe (6) and the condensate transfer pipe 23 is installed in the lower portion.

At this time, the pump 22 is installed in the condensate transfer pipe 23 and connected to the manhole 21 which is a sealed condensate and leachate storage container.

The manhole 21, which is a condensate storage container, is connected to the leachate transport pipe 24.

As described above, the operation principle of the condensate discharging tablet 2 is that when the condensate accumulates at a predetermined level in the gas transfer pipe 6, the pump 22 is operated by the sensor to discharge the accumulated condensate into the manhole 21, which is a condensate storage container.

At this time, when the condensed water of the gas transfer pipe 6 is removed, the operation of the pump 22 is stopped.

The manhole 21 connected to the leachate transport pipe 24 is installed at the lower portion of the gas transport pipe line 6 so that even if air flows into the leachate transport pipe 24, the air is transferred to the gas transport pipe path 6 by the height difference. Is to prevent the inflow.

As shown in FIG. 5, the manifold 3 according to the present invention serves to collect the landfill gas collected in the vertical collection well 1 and transfer the collected landfill gas to the booster station 4. By increasing the suction pressure of the booster by increasing the suction pressure of the booster, the collection flow rate can be increased without significantly increasing the suction pressure of the vertical collecting well (1) and the gas transfer pipe (6).

In addition, the measuring section 34 is installed at the connection portions of the vertical collection wells 1 and the manifolds 3 to measure the state of the landfill gas collected in each vertical collection well 1.

At this time, the gas pressure regulator 33 and the shutoff valve 32, and the suction pressure transfer pipe 35 connecting the lower portion of the shutoff valve 32 and the gas pressure regulator 33 are installed.

The connecting portion of each vertical collecting well 1 is connected to the gas collecting header 31 of the manifold 3, and the gas collecting header 31 is installed to have a slight inclination to the gas collecting header 31. This allowed the condensate to move easily to the condensate drainage (2).

As shown in FIG. 6, FIG. 6 is a schematic cross-sectional view showing another embodiment of a horizontal collection well that can be installed in a landfill in which landfilling is in progress according to the present invention, and a horizontal collecting well 1 is drilled in the landfill stage in which the landfilling is completed. And filling (91) the hole tube 92 and crushed stone.

At this time, by using the flexible pipe 61 in the perforated pipe 92 and the horizontal collection pipe 62 is connected to the gas transfer pipe 12 is installed, the high density resin shielding film 8 or the high density resin shielding film 8 is not installed. In this case, the upper structure 13 is installed in the cover layer at the height of the predetermined landfill, and the perforated pipe 92 is installed therein.

In addition, the gas transfer pipe 6 is horizontally installed only to the landfill slope and connected to the manifold (3).

When the landfill is continued around the upper structure 13 and the landfilling is completed, the gas transfer pipe 6 is connected to the inner perforated pipe 92 and filled with crushed stone, and then the upper structure 13 is extracted to complete the landfill stage. Install on the top.

At this time, in the case of the final landfill stage, as shown in FIG. 6, the gas transfer pipe 6 is connected to the upper structure 13 itself so as to collect the landfill gas. Inside the upper structure is installed a hole pipe fixing ring 132 for fixing the hole pipe 92.

As described above, the landfill gas collecting devices according to the present invention can collect landfill gas generated in landfills with a higher energy value, that is, no inflow of external air, and collect methane component at a higher concentration. It is possible to protect the collecting device even if the sedimentation is settled, and even in the landfill where the landfill is in progress, the collecting facility is installed at the landfill stage which is completed in the first place, and the collecting facility can be used for a long time even if the landfill height is increased later.

In addition, it is possible to check and adjust the state of the landfill gas of the entire vertical collection well in a plurality of manifold, there is an effect that can extract the landfill gas while maintaining a more stable suction pressure state.

Claims (4)

A plurality of vertical collection wells (1) installed in the entire landfill and extracting landfill gas; A condensate drainer (2) for discharging the condensate in the gas transfer pipe (6) through which the gas collected in the vertical collecting well (1) is transferred; A manifold (3) connected to a plurality of vertical collection wells (1) and a gas transfer pipe (6) to collect landfill gas; Booster station (4) for collecting the landfill gas collected in the manifold (3) through the gas transfer pipe (6), A collection device for stable collection of landfill gas, characterized in that it comprises a power generation facility (5) for receiving the landfill gas collected from the booster station (4) to use as fuel. The method of claim 1, wherein the vertical collection well (1) is a perforated pipe 92 installed in the perforated landfill gas collection well, a non-porous pipe (12) installed to enable flow in the perforated pipe 92, the buried layer (9) and the cover layer High density resin shielding film (8) provided to block landfill gas (7) to be easily collected, high density resin connecting portion (11) provided so that the hollow tube (12) can pass through the high density resin shielding film (8), and high density resin It characterized in that the connecting portion 11 is composed of a roller 111 is installed so as to flow between the hollow tube 12, and the flexible pipe 61 is installed to facilitate the connection of the hollow tube 12 and the gas transfer pipe (6) Collector for stable collection of landfill gas. According to claim 1, The condensate basin (2) is installed on one side of the gas transfer pipe (6) penetrating the inside of the condensate drain (2) sensor connection portion 25 for sensing the level of condensate, and the gas transfer pipe (6) A manhole 21 for storing condensate and leachate, a pump 22 for storing the condensate of the gas transfer pipe 6 to the manhole 21, and a leachate transport tube 24 for storing the leachate formed in the landfill into the manhole 21. Collector for stable collection of landfill gas, characterized in that consisting of. According to claim 1, wherein the manifold (3) measures the pressure of the landfill gas on one side of the gas collecting header 31 and the gas transfer pipe 6 connected to the inside of the manifold (3) to collect the landfill gas of the appropriate pressure The measuring instrument 34, the pressure regulator 33 which prevents the pressure of the vertical collection well 1 and the gas transfer pipe 6 from changing rapidly, and the control of supply of the landfill gas to the gas collection header 31 are controlled. Collecting device for the stable collection of landfill gas, characterized in that consisting of a shut-off valve (32).