JP6180060B1 - Waste disposal methods - Google Patents

Abstract

An object of the present invention is to provide a waste disposal method that is highly technically reliable and does not require ocean dumping. A waste disposal method according to the present invention is a disposal method for a waste D that disposes the waste D inside the earth, and includes a first plate 1 and a second plate that sinks under the first plate 1. In the vicinity of the convergent boundary B with the plate 2, a tunnel forming step for forming a tunnel T 1 that extends from the ground surface GS of the first plate 1 to the upper part of the convergent boundary B, and an underground work place A is formed above the convergent boundary B An underground work area forming step, a hole forming step for forming a hole T2 that reaches the second plate 2 from the underground work area A toward the second plate 2, and below the convergent boundary B. A waste disposing step of disposing the waste D at the lowermost end in the hole T2. [Selection] Figure 1

Description

  The present invention relates to a waste disposal method.

Conventionally, as a method for disposing of waste, there is a method in which waste is dropped into a recess formed on the ocean plate side of a trough on the seabed and disposed (Patent Document 1).
However, since the above method is a method of dropping waste into the seabed and disposing of it, in order to implement it, in addition to obstacles due to laws and regulations, the reliability of construction technology and the container itself that contains the waste There are problems with reliability.

JP 2014-62881 A

  Therefore, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a technically reliable waste disposal method that does not require ocean dumping.

In order to achieve the above object, the following configuration is used.
(1) The waste disposal method of the present invention is a waste disposal method for disposing of waste inside the earth, and is a convergence type of a first plate and a second plate that sinks under the first plate. In the vicinity of the boundary, a tunnel forming step for forming a tunnel connecting from the ground surface of the first plate to the upper part of the convergent boundary, an underground work place forming step of forming an underground work place above the convergent boundary, and the underground work place A hole forming step of forming a hole reaching the second plate over the convergent boundary toward the second plate, and the waste at the lowermost end in the hole below the convergent boundary And a waste placement step.

(2) In the configuration of (1), a sealing step of filling and sealing the upper portion of the waste in the hole with a filler is included.

(3) In the above configuration (1) or (2), the seabed is above the convergent boundary.

(4) In the configuration according to any one of (1) to (3), in the tunnel formation step, the tunnel is formed along the seabed and close to the seabed.

(5) In the configuration of (1) or (2) above, the surface above the convergent boundary is a ground surface.

  According to the present invention, it is not necessary to dump in the ocean, and it is possible to provide a technically reliable waste disposal method.

It is a figure showing the cross section of the plate of the trench type convergence type boundary vicinity. (A) is a detailed view of the vicinity of the underground work place, and (b) is a cross-sectional view of the vicinity of the underground work place as viewed from the arrow C. It is a figure showing the cross section of the plate near the convergence type boundary of a land type.

(First embodiment)
Hereinafter, a first mode for carrying out the present invention (hereinafter referred to as a first embodiment) will be described in detail with reference to the drawings.

  FIG. 1 is a view showing a cross section of a plate near a trench-type convergent boundary, FIG. 2 (a) is a detailed view of the vicinity of an underground work place, and FIG. It is.

As shown in FIG. 1, in the vicinity of a trench-type convergent boundary B, for example, in the suburbs of Japan, a continental plate (first plate) 1 and a marine plate (second plate) having a higher density than the continental plate 1 are used. ) 2 touches at the convergent boundary B.
Above the convergent boundary B, there is an ocean OC having a sea bottom SB and a sea surface SS.
The upper surface of the continental plate 1 is composed of the ground surface GS and the seabed SB, the upper surface of the oceanic plate 2 is mainly composed of the seabed SB, and the seabed SB of the continental plate 1 and the seabed SB of the oceanic plate 2 are connected.
A mantle M exists below the continental plate 1 and the oceanic plate 2.
Then, according to the plate tectonics theory, on such terrain, the second plate 2 moves so as to sink below the first plate 1 as indicated by the arrow in FIG.

In the vicinity of the trench-type convergent boundary B having such topography, the waste D is disposed inside the earth by the following procedure.
(1) First, as shown in FIG. 1, in the vicinity of the convergent boundary B between the continental plate 1 and the oceanic plate 2, excavation of a shield machine or the like is appropriately performed from the opening in provided on the surface GS of the continental plate 1. by utilizing the apparatus, a tunnel T ₁ leading from convergent boundary B to the top (tunnel formation step). In this case, the orientation of the tunnel T ₁ may be a vertical or may be oblique. By making the direction of the tunnel T ₁ vertical, the length of the tunnel T ₁ reaching the underground work place A can be shortened, and by making the direction of the tunnel T ₁ diagonal, the opening that is the excavation start point of the tunnel T ₁ The degree of freedom of the place where in is provided increases.
(2) The underground work place A is formed above the convergent boundary B that is the arrival point of the tunnel T ₁ (underground work place forming step).
(3) from the underground workplace A towards the ocean plate 2, beyond the convergent boundary B to form a hole T ₂ that reaches oceanic plate 2 (hole forming step). In this case, the orientation of the holes T ₂ are, may be vertical or may be perpendicular to the convergent boundary B. By making the direction of the hole T ₂ vertical, it becomes easy to install the excavating machine for forming the hole T ₂ in the underground work place A, and the direction of the hole T ₂ is made perpendicular to the convergent boundary B. in, it can shorten the length of the hole T ₂ that reaches oceanic plate 2.
(4) Next, as shown in FIG. 2 (a) and (b), the lowermost end of the lower portion of the bore T ₂ than convergent boundary B, and disposed waste D stored in the container (waste Object placement step).
(5) at the top of the waste D in the bore T _2, sealed and filled with a filling material S, such as cement and bentonite or mortar (sealing step). Thus, there is no risk of leakage of waste D disposed in the bore T _2.

By disposing the waste D in the steps as described above, when the waste D is disposed in the vicinity of the convergent boundary B between the continental plate 1 and the oceanic plate 2, the convergent type is based on the continental plate 1. As the ocean plate 2 sinks over the boundary B over the years, the waste D disposed in the hole T ₂ together with the filler S 1 year later, as shown in FIG. Moves to the position indicated by 1y, moves to the position indicated by 2y, 3y after 2 years, and after 3 years, moves to the position indicated by nky after thousands of years, and is eventually in the lower layer of the continental plate 1 The mantle M will be reached, and the waste D can be disposed of.
In addition, since the underground work place A is provided on the continental plate 1 above the convergent boundary B, once the tunnel T ₁ is formed to form the underground work place A, the underground work place A is laterally (horizontal). by extending the can increase the space for forming holes T _2. Thus, formed by adding sequentially a hole T ₂ in the space, by arranging the waste D and fillers S into the hole T _2, it can be disposed in succession waste D.

Further, when forming the tunnel T _1, the tunnel T _1, it is preferable to form in proximity to the seabed SB along the seabed SB. Thus, the space of the tunnel T ₁ and groundwater workplace A is Since the cooled by ocean OC, easily work by machine or the like.

(Second Embodiment)
Hereinafter, a second mode for carrying out the present invention (hereinafter referred to as a second embodiment) will be described in detail with reference to the drawings.

  FIG. 3 shows a cross section of the plate in the vicinity of the land-type convergent boundary.

As shown in FIG. 3, the continental plate (first plate) 1 and the ocean plate (second plate) having a higher density than the continental plate 1 are also present in the vicinity of the land-type convergent boundary B, for example, in the suburbs of Chile. ) 2 touches at the convergent boundary B.
At the upper part of the convergent boundary B, there is no ocean OC, there is a surface GS of the continental plate 1, and the upper surface of the oceanic plate 2 mainly consists of the surface GS, the surface GS of the continental plate 1 and the surface of the oceanic plate 2. It is connected with GS.
A mantle M exists below the continental plate 1 and the oceanic plate 2.
According to the plate tectonics theory, the second plate 2 moves so as to sink below the first plate 1 as shown by the arrow in FIG.

In the vicinity of the land-type convergent boundary B having such a topography, the waste D is disposed inside the earth in the following procedure in the same manner as the disposal of the waste in the vicinity of the trench-type convergent boundary B. .
(1) First, as shown in FIG. 3, in the vicinity of the converging boundary B between the continental plate 1 and the oceanic plate 2, excavation of a shield machine or the like is appropriately performed from the opening in provided on the surface GS of the continental plate 1. by utilizing the apparatus, a tunnel T ₁ leading from convergent boundary B to the top (tunnel formation step).
(2) The underground work place A is formed above the convergent boundary B that is the arrival point of the tunnel T ₁ (underground work place forming step).
(3) from the underground workplace A towards the ocean plate 2, beyond the convergent boundary B to form a hole T ₂ that reaches oceanic plate 2 (hole forming step).
(4) Next, as shown in FIG. 2 (a) and (b), the lowermost end of the lower portion of the bore T ₂ than convergent boundary B, and disposed waste D stored in the container (waste Object placement step).
(5) at the top of the waste D in the bore T _2, sealed and filled with a filler S (sealing step).

In this way, when the waste D is disposed in the vicinity of the convergent boundary B between the continental plate 1 and the oceanic plate 2, the continental plate 1 is removed in the same manner as the waste disposed in the vicinity of the trench-type convergent boundary B. as a reference, the boundary of convergent boundary B, since oceanic plate 2 goes sinks over the years, as shown in FIG. 2 (b), waste disposed in the bore T ₂ D fillers S At the same time, it moves to the position indicated by 1y after one year, moves to the position indicated by 2y, 3y after two years, moves to the position indicated by nky after several years, and eventually moves to the position indicated by nky. The mantle M in the lower layer of 1 will be reached, and the waste D can be disposed.

  The preferred embodiment of the present invention has been described in detail above. However, the waste disposal method according to the present invention is not limited to the above-described embodiment, and the scope of the gist of the present invention described in the claims. Various modifications and changes can be made within.

According to the present invention, in the vicinity of the convergence type boundary between the first plate and the second plate that sinks below the first plate, a tunnel is formed that extends from the ground surface of the first plate to the upper part of the convergence type boundary. An underground work place is formed above the boundary, a hole is formed from the underground work place toward the second plate, reaching the second plate beyond the convergent boundary, and at the lowermost end in the hole below the convergent boundary. By disposing the waste, the waste is disposed of, so that the experience is accumulated and technical, without using the ocean as a work place, and without being restricted by the construction technology under the water pressure that acts on the seabed and legal restrictions. You can dispose of waste simply by using reliable land excavation technology.
In addition, since the underground work place is provided on the first plate above the convergent boundary, once the tunnel is formed and the underground work place is formed, the underground work place is expanded in the horizontal direction (horizontal direction), The space for forming the holes can be increased, and by sequentially adding holes to the spaces and forming the wastes and fillers in the holes, the wastes can be disposed of continuously.

  According to the present invention, since the upper part of the waste in the hole is filled with the filler and sealed, there is no possibility that the waste disposed in the hole leaks out.

  According to the present invention, since the sea floor is on the convergent boundary, the space of the tunnel and the underground work place is cooled by the ocean, the temperature becomes relatively low, and it is easy to work.

  According to the present invention, in the tunnel forming step, the tunnel is formed along the seabed and close to the seabed. Therefore, the space of the tunnel and the underground work place is cooled by the ocean, and the temperature is further lowered, so that it is easy to work. .

  According to the present invention, since the surface of the convergent boundary is the ground surface, waste can be disposed even in a place where there is no trench.

1 Continental plate (first plate)
2 Ocean plate (second plate)
A Underground workshop B Convergence type boundary D Waste GS Surface in opening M Mantle OC Ocean S Filling material SB Submarine SS Sea surface T ₁ tunnel T ₂ tunnel

Claims (2)

A waste disposal method for disposing of waste inside the earth,
In the vicinity of the convergent boundary between the first plate and the second plate sinking under the first plate,
Above the convergent boundary is a seabed,
A tunnel forming step of forming a tunnel having an oblique direction leading from the ground surface of the first plate to an arrival point above the convergent boundary , close to the sea floor along the sea floor ;
An underground work place forming step for forming an underground work place at an arrival point of the tunnel above the convergent boundary;
From the underground workplace, toward the second plate, wherein reaches the beyond the convergent boundary second plate, and the hole forming step of forming a vertical hole to the front Symbol convergent boundary,
A waste placement step of placing the waste at the bottom end in the hole below the convergent boundary;
A waste disposal method, comprising: expanding the underground work place in a lateral direction to increase a space for forming the hole and sequentially adding the hole to the space. 2. A sealing step of filling and sealing an upper portion of the waste in the hole with a filler from below the convergent boundary to above the convergent boundary. Disposal method of waste described in 1.

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