JP5763980B2 - Final disposal site structure - Google Patents

Description

  The present invention relates to the structure of a final disposal site, and more particularly to the final disposal site of a semi-aerobic landfill structure.

The semi-aerobic landfill structure is a Japanese standard method that was put into practical use in Fukuoka in 1975.
This is a structure in which a degassing pipe b is connected to a leachate collecting / draining pipe a as shown in FIG.
When the temperature of the landfill becomes higher than the outside air due to the heat of fermentation of waste, the landfill gas is exhausted due to the chimney effect of the gas vent pipe b, and the inside of the gas vent pipe b becomes negative pressure.
Then, the effect of sucking out the landfill gas from the waste layer and the force of sucking the gas from the leachate collection drain pipe a are generated, and fresh outside air is sucked from the outlet through the leachate collection drain pipe a. By this air circulation, air (oxygen) is taken into the waste layer.
Aerobic biodegradation can be performed by the aeration effect by this natural convection, and the BOD of leachate can be rapidly reduced in the same manner as aerobic landfill.

JP-A-62-189212 JP 63-142111 A

The conventional quasi-aerobic landfill structure as shown in FIG. 6 has the following problems.
<1> As shown in FIG. 7, when the exit of the leachate collection drain pipe a is in the deep water collection pit c, the warm leachate accumulates at the bottom of the water collection pit c, and the bottom of the water collection pit c is Since it warms up, a chimney effect is produced also in the water collection pit c, and it attracts the chimney effect of the degassing pipe b. For this reason, there exists a problem that the possibility that a semi-aerobic structure may not function well arises. In such a state, anaerobic decomposition occurs, and harmful gases such as hydrogen sulfide gas are generated, which may impair the health of landfill workers.
If the <2> semi-aerobic structure does not function, an anaerobic state is obtained, so that stabilization inhibition occurs, and it takes a long time for the landfill waste to stabilize.
<3> An aerobic landfill structure in which a vent pipe or the like is installed in a landfill waste layer and air is forcibly sent by a compressor or the like is also known. However, in this structure, it is necessary to operate the compressor for many years, so that the amount of power and management costs are enormous, which is economically disadvantageous.

In order to solve the problems as described above, the structure of the final disposal site according to the present invention is a landfill with a still water structure formed in the ground, and a leachate collecting pit formed in the ground adjacent to the landfill. And a perforated pipe placed on the bottom of the landfill, with one end open to the leachate collection pit, one end attached to the leachate collection drain, and the other open to the ground An air supply pipe that is a pipe, a degassing pipe that is a perforated pipe with one end attached to the leachate collection drain pipe and the other end opened to the ground, and a blower that supplies compressed air and negative pressure air to the air supply pipe At least one of the oxygen concentration detection sensor, temperature sensor, combustible gas sensor, and CO2 sensor is installed in the leachate collecting pit, and this detection sensor is connected to the drive unit of the blower with a signal line. The value of this detection sensor is It is characterized in sending a detection signal for operating the blower reaches the value in the signal line.
Moreover, the structure of the final disposal site of the present invention is characterized in that, in the above structure, a movable lid that is opened by the pressure from the gas vent pipe is attached to the ground opening portion of the gas vent pipe.

Since the structure of the final disposal site of the present invention is as described above, at least one of the following effects can be obtained.
<1> The inside of the landfill waste layer can be improved to an aerobic state by ventilating air to the leachate collection drain pipe or exhausting the air through the leachate collection drain pipe.
<2> As described above, in the semi-aerobic landfill structure that is common in Japan, if the function is incomplete, the landfill tends to become anaerobic, and harmful gas is generated due to anaerobic decomposition of hydrogen sulfide gas and the like. Workers may suffer health problems. However, since the configuration of the present invention is unlikely to be in an anaerobic state, such a problem does not occur.
<3> If a lid that automatically closes when sucking is installed at the tip of the gas vent pipe, the flow of air when it is fed into the leachate collection / drain pipe can be changed, and the entire landfill waste layer In addition, the air can function smoothly.
<4> If an oxygen concentration sensor or the like is installed in the leachate collecting pit, it can be determined whether the semi-aerobic landfill structure is functioning normally. And if it is configured to supply or exhaust air to the leachate collection / drainage pipe only when it is not functioning normally, early stabilization can be achieved efficiently and efficiently.

The perspective view of the Example of the structure of the final disposal site of this invention. Explanatory drawing of the state which supplied the negative pressure to the air pipe. Explanatory drawing of the state which attached the movable lid to the open part of the gas vent pipe, and supplied the negative pressure to the air supply pipe. Explanatory drawing of the state which attached the movable lid to the open part of the gas vent pipe, and supplied compressed air to the air feed pipe. Explanatory drawing of the Example which installed the sensor in the leachate collecting pit. Explanatory drawing of the Example of the structure of the conventional final disposal site. Explanatory drawing of the problem of the final disposal site shown in FIG.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

<1> Landfill.
A landfill 1 with a still water structure is formed in the ground.
Thus, since the structure of the landfill 1 which excavated the ground or raised the circumference and laid the water-impervious sheet on the slope is well known, explanation of construction methods and members will be omitted.

<2> The leachate collecting pit.
A leachate collecting pit 2 that is an underground structure is constructed in the ground adjacent to the landfill 1.
The bottom of the leachate collecting pit 2 is located deeper than the lowest part of the landfill 1 and the leachate collected by installing a submersible pump in the deepest part is assembled to an external treatment facility. Discharge.
The leachate collecting pit 2 is a space in which the periphery and bottom surface are surrounded by concrete, but the ceiling portion is not a sealed structure but a structure in which outside air can be taken in freely.

<3> Leachate collection drainage pipe.
The leachate collection drain pipe 3 is arranged on the bottom of the landfill 1.
Since piping is provided at the bottom of the landfill 1, that is, at the lowest part of the landfill 1, it is usually arranged in a substantially horizontal direction slightly inclined toward the leachate collecting pit 2 side.
The leachate collecting / draining pipe 3 is a perforated pipe body, and can take in water in the waste thrown into the landfill 1 and permeated water due to rain water.
One end of the leachate collecting / draining pipe 3 is opened to the leachate collecting pit 2, and the introduced permeated water is discharged into the leachate collecting pit 2.
The other end of the leachate collecting / draining pipe 3 is closed.
A crushed stone layer is formed around the leachate collection drainage pipe 3 to facilitate water collection and protect it from breakage.

<4> Air pipe.
One end of the air supply pipe 4 is attached to the leachate collecting / draining pipe 3, and the other end is opened on the ground.
The air supply pipe 4 is a perforated or non-porous pipe body, and a blower 41 is attached to an open end on the ground.
By driving the blower 41, pressurized air or reduced pressure negative air can be supplied to the inside of the air supply pipe 4.
The air pipe 4 can be laid along the slope prior to the dumping of waste.
Then, as the height of the waste increases gradually, a crushed stone layer can be formed around the air pipe 4 to facilitate ventilation into the waste layer.

<5> Gas vent pipe.
One end of the gas vent pipe 5 is attached to the leachate collecting / draining pipe 3 and the other end is opened on the ground.
This degassing pipe 5 is a perforated pipe, and the height of the waste is gradually raised by dumping, but with the rise, the air feeding pipe 4 is connected, and a crushed stone layer is formed around it. Ensure breathability.

<6> Operation.
Next, the operation will be described.
Negative pressure air is supplied to the air supply pipe 4 from the blower 41 attached to the ground part of the air supply pipe 4.
Then, the flow of air toward the blower 41 is generated inside the leachate collection / drainage pipe 3 connected to the air supply pipe 4, the gas vent pipe 5 connected to the leachate collection / drainage pipe 3, and the leachate collection pit 2. . (Figure 2)
Thus, when air circulation does not occur in the semi-aerobic landfill structure, air circulation can be surely formed inside the landfill 1.
At the same time, since the air inside the leachate collection pit 2 also circulates, safety can be ensured even if an operator enters the leachate collection pit 2 for inspection or the like.
When pressurized air is supplied from the blower 41, air circulation opposite to that in FIG. 2 can be generated.

<7> Attaching the movable lid. (Figs. 3 and 4)
In the above structure, the movable lid 51 can be attached to the ground opening portion of the gas vent pipe 5.
The movable lid 51 closes the gas vent pipe 5 by its own weight when there is no exhaust from the gas vent pipe 5 to the outside. On the other hand, when a weak exhaust pressure is generated from the inside of the gas vent pipe 5. Install in the open state.
The degassing pipe 5 is configured by connecting a plurality of short pipes, and is connected and extended upward according to the rise of the surface due to the dumping of waste, but if a movable lid 51 is always attached to the tip, Occurrence of an accident in which waste enters the gas vent pipe 5 and becomes clogged can be prevented.

<7-1> When negative pressure is supplied.
In the above configuration, when negative pressure is applied from the blower 41 at the open end of the air supply pipe 4, the open end on the ground of the gas vent pipe 5 is closed by the movable lid 51 as shown in FIG. 3.
Therefore, since no outside air enters the gas vent pipe 5, more air can be introduced into the waste.
At that time, it is more effective if the air intake port 21 of the leachate collecting pit 2 is further made into a sliding door or the like to reduce the opening area and reduce the minimum necessary to maintain the environment in the pit 2.

<7-2> When air is supplied.
In the above configuration, when pressurized air is supplied from the blower 41 at the open end of the air supply pipe 4, the movable lid 51 at the open end of the vent pipe 5 is opened as shown in FIG.
Therefore, fresh air can be circulated to the air supply pipe 4, the leachate collection drain pipe 3, the gas vent pipe 5, and the leachate collection pit 2.
By alternately supplying such negative pressure and pressurized air, the air can be guided into the waste through different paths.
In comparison with the case of supplying only air supply or only negative pressure, an air passage is less likely to be formed, and as a result, air can be guided into the waste over a wider range.
Further, when the semi-aerobic landfill structure is functioning well, the movable lid 51 is automatically opened by the exhaust from the gas vent pipe 5 even if the blower 41 does not operate, and natural gas ventilation can be performed. .

<8> Attaching the sensor. (Fig. 5)
A structure in which the detection sensor 6 is installed in the leachate collecting pit 2 can be employed in a structure in which the movable lid 51 is attached or not attached.
This detection sensor 6 and the starting part of the blower 41 attached to the air pipe 4 are connected by a signal line.
As the sensor 6, for example, an oxygen concentration detection sensor 6, a temperature sensor 6, a combustible gas sensor 6, a CO ² sensor 6 or the like can be used.
These sensors 6 can also be used in combination.
These sensors 6 can be installed at positions other than the leachate collecting pit 2, for example, a gas vent pipe 5.
The sensor 6 is connected to the drive motor of the blower 41 by a signal line, and the blower 41 is operated by driving the motor when the value of the sensor 6 reaches a certain value.

<8-1> Sensor function.
When the blower 41 is stopped, if the oxygen concentration in the leachate collecting pit 2 is hardly different from the outside air, it indicates that the semi-aerobic landfill structure is functioning normally.
In this case, the operation of the blower 41 can be stopped to contribute to power saving.
However, if the semi-aerobic landfill structure does not function properly, the oxygen-depleted decomposition gas flows back into the leachate water collection pit 2, so that the oxygen concentration in the leachate water collection pit 2 decreases.
For example, the oxygen amount, which is usually 21%, is reduced to 19% or less.
If this is detected by the oxygen concentration sensor 6, it is determined that the semi-aerobic landfill structure is not functioning normally, a signal is sent to the drive unit of the blower 41, and the blower 41 is operated to perform forced ventilation.
By installing the sensor 6 in this way, energy can be saved to a minimum and the semi-aerobic landfill structure can function normally.

1: Landfill 2: Leachate collection pit 3: Leachate collection drainage pipe 4: Air supply pipe 41: Blower 5: Gas vent pipe 51: Movable lid 6: Sensor

Claims (2)

Landfill site of still water structure formed in the ground,
A leachate collecting pit formed in the ground adjacent to the landfill;
A perforated pipe placed at the bottom of the landfill, with one end open to the leachate collection pit,
An air supply pipe which is a pipe with one end attached to a leachate collection pipe and the other end opened on the ground,
The structure of the final disposal site is composed of a vent pipe that is a perforated pipe with one end attached to a leachate collection drain pipe and the other end open to the ground ,
Install a blower that supplies compressed air and negative pressure air to the air pipe,
Install at least an oxygen concentration detection sensor, temperature sensor, combustible gas sensor, or CO ² sensor in the leachate collection pit ,
The detection sensor and the drive unit of the blower are connected by a signal line, and when the value of the detection sensor reaches a certain value, a detection signal for operating the blower is sent by the signal line .
Structure of final disposal site. In the structure of the final disposal site according to claim 1,
In the ground release part of the vent pipe,
The structure of the final disposal site, which is equipped with an operating lid that is opened by the pressure from the degassing pipe.

Images