JP2003227595A - Gas stockpiling facility and manufacturing method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas stockpiling device which stockpiles gas, suppresses the generation of BOG at a small degree, has high safety and cost efficiency, and prevents environmental disruption. <P>SOLUTION: A dry-excavated hole 22 is made by digging the ground 21, and a dry-excavated storage tank 1 constructed by ice is formed by covering the surface of the hole 22 with ice. The storage tank 1 is filled with a gas hydrate a, and the storage tank 1 is sealed by a cover 3 of ice. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas storage facility for storing gas hydrate in an underground storage tank constructed of ice and a method for manufacturing the same.

[0002]

2. Description of the Related Art Although the consumption of natural gas in Japan is about 10 to 12% of total energy, the demand for natural gas tends to expand. Therefore, from the viewpoint of energy security, natural gas is the same as natural gas. Stockpiling is also essential.
In addition, gas demand is seasonal and diurnal, so gas storage is essential.

However, it is difficult to store natural gas as LNG (liquefied natural gas). The reason is L
This is because when NG is stored, it is necessary to keep LNG at −162 ° C., and vaporization (generation of BOG) due to heat input to the storage tank is unavoidable even if the heat retention is perfect.

By the way, the biggest problems in converting natural gas to LNG are that the operating temperature is low, the coefficient of performance of the refrigerator is extremely low, and it is difficult to use ice and snow energy, and the manufacturing energy is large. It is in. Also, LN
Equipment costs and operating costs of G tanks are very high.

Although it is possible to compress and store natural gas, it is difficult to secure safety against explosion or the like in a large pressure tank. Moreover, the equipment cost of the pressure tank is high. In addition, storage in underground tanks using underground rock is considered, but it is difficult to ensure safety. Moreover, the equipment cost of the pressure tank is high.

[0006]

On the other hand, NGH (gas hydrate) is an ice-like substance that encloses a gas such as natural gas at a high density, but even if it is completely burned, the combustion flame temperature is 800 It is below ℃, and it does not have the ability to maintain self-combustion. Therefore, it does not burn explosively and is safe.

[0007] In addition, by converting natural gas into NGH (gas hydrate), a large amount of natural gas is stored (stored).
It is possible to That is, by using natural gas as a gas hydrate, it is possible to store (store) natural gas in an amount about 170 times the volume of the gas hydrate. Further, since the gas hydrate can be produced near 0 ° C., a refrigerator having a high coefficient of performance can be used. In addition, ice and snow energy can be used, and manufacturing energy can be significantly reduced.

The present invention was accomplished by paying attention to the advantages of NGH (gas hydrate), which can be stockpiled, that is, the amount of BOG generated is small, and safety and economy are high.
In addition, the main purpose is to provide a gas storage facility that does not cause environmental damage and a manufacturing method thereof.

[0009]

In order to solve such problems, the present invention is constructed as follows.

(1) Dig the ground to make an empty hole,
A gas storage facility in which the surface of the hole is covered with ice to form an empty moat-shaped storage tank, the storage tank is filled with gas hydrate, and the storage tank is sealed with an ice lid. .

(2) The gas storage facility according to (1), wherein a barrier for preventing intrusion of geothermal heat is provided around at least a storage tank constructed of ice.

(3) The gas storage facility according to (1), wherein a support is provided in the storage tank constructed of ice, and the support supports the inner wall surface and the lid of the storage tank.

(4) The gas storage facility according to (1), wherein a heat supply pipe line and a gas recovery pipe line are provided in a storage tank constructed of ice.

(5) When recovering the gas in the storage tank constructed of ice, the temperature and pressure in the storage tank are measured according to the temperature-pressure equilibrium curve of the gas hydrate. It is the gas storage facility according to (1), which is maintained under conditions in which the ice formed does not melt.

(6) A step of making an empty hole in the ground,
A step of burying a geothermal intrusion prevention cooling pipe on the surface of the hole, a step of covering the surface of a hollow-hole-shaped hole in which the cooling pipe is buried with ice to form a hollow-shaped storage tank constructed of ice, It is a method for manufacturing a gas storage facility, which comprises a step of filling a gas hydrate in a storage tank and a step of sealing the storage tank filled with the gas hydrate with an ice lid.

(7) The method of manufacturing a gas storage facility according to (6), wherein a heat supply pipe line and a gas recovery pipe line are installed during the step of forming an empty moat storage tank constructed of ice.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a storage tank constructed of ice, which is buried in the cold area A such as Hokkaido. This storage tank 1 comprises an empty moat-shaped storage tank main body 2 and a lid 3.
It is composed of. And the earth and sand 4 are piled up on the lid 3. The shape of this storage tank is not particularly limited, and examples thereof include a cylindrical shape, a rectangular tube shape, a truncated cone shape, and a truncated pyramid shape.

Further, at least around the storage tank main body 2,
A barrier 5 is provided to prevent the entry of geothermal heat. For example, a heat pump pipe 6 is provided in the barrier 5. A heat pump pipe (not shown) may be laid not only around the storage tank body 2 but also on the lid 3 to prevent outside heat from entering.

Further, the storage tank 1 is provided with a heat supply pipe line 7 and a natural gas recovery pipe line 8. A plurality of these lines 7 and 8 are arranged as needed. Further, the natural gas recovery piping line 8 has a small-diameter hole (not shown) in a portion inside the storage tank body 2. Further, a column-shaped or beam-shaped support body 9 is provided in the storage tank main body 2 to support the lid 3 and the inner wall surface 10 of the storage tank main body. Then, natural gas hydrate a is stored (stored) in this storage tank 1.
Has been done.

Although various methods can be considered for making this storage tank, for example, it can be constructed relatively easily by following the steps described below.

The storage tank 1 constructed of this ice is installed in a cold region such as Hokkaido, but the construction is preferably carried out during the winter when the temperature is below 0 degrees Celsius.

(A) First, as shown in FIG.
1 is dug to form a truncated pyramid-shaped hole 22 (for example, the depth of the hole is about 1 m), and the heat pump pipe 6 is provided on the slope. The dug soil 4 is piled up around the hole 22.

(B) As shown in FIG. 3, after covering the heat pump pipe 6 with the earth and sand 4, the wall surface 23 is covered with snow on it.
make. Water is sprayed on the snow wall surface 23, and after waiting for a while, it freezes and becomes the ice wall surface 24.

(C) The above (a) and (b) are repeated,
An empty hole 25 having a predetermined size and depth is formed (see FIG. 4). Further, the heat supply pipe line 7 and the natural gas recovery pipe line 8 are installed during the construction of the above (a) and (b).

(D) Next, as shown in FIG. 5, after laying the heat pump pipe 6 on the bottom 26 of the hollow-shaped hole 25, the bottom surface 27 of ice is made according to the step (b).

(E) As shown in FIG. 6, a heat pump (not shown) is operated to freeze the water contained in the formation around the heat pump pipe 6 to form the barrier 5.

(F) As shown in FIG. 7, after supporting bodies 9 such as columns and beams to support the inner wall surface 10 of the storage tank main body 2 inside the storage tank main body 2, natural gas hydrate a is filled,
Store.

(G) Then, as shown in FIG.
A plate-shaped lid 3 made of ice is placed on the natural gas hydrate a, and water is poured into the gap between the storage tank body 2 and the lid 3 to seal the lid. After that, earth is placed on the ice lid 3.

When recovering the natural gas b from the storage tank 1, as shown in FIG. 9, the warm heat supply pipe line 7 is supplied with warm heat c of hot water, steam, seawater, hot air or the like. Then, the natural gas hydrate a is decomposed into natural gas b and water, and the natural gas b is extracted from the natural gas recovery piping line 8 as needed and used. The remaining water is
It may be left as it is in the storage tank 1, or may be discharged from the storage tank 1 through a drain line (not shown) as needed. If natural gas recovery is continued, the storage tank will eventually contain only water.

At this time, a part of the storage tank 1 may melt, but if it is desired to prevent this, the temperature and pressure in the storage tank are controlled, and in the temperature-pressure equilibrium curve of natural gas hydrate, Natural gas hydrate decomposes but keeps conditions under which ice does not melt (0 ° C or lower). For example, in the case of methane hydrate, the temperature and pressure are set within the hatched range in FIG.

As described above, according to the present invention, since the storage tank constructed of ice is installed in the ground, the manufacturing cost of the storage tank is low. In addition, the operating cost is low and the economy is high.

Further, the storage tank constructed of ice has a self-repairing ability due to the infiltration of groundwater and the freezing of the groundwater even if a crack should occur due to an earthquake or the like.

Further, since natural gas hydrate is produced only with water and natural gas, there is no environmental damage even if it leaks to the outside. Moreover, since the storage tank equipment is made of ice, no substances that damage the environment are generated even if it is not used.

[0035]

As described above, in the gas storage facility of the present invention, the ground is dug to make a hollow hole, and the surface of the hole is covered with ice to form a hollow storage tank made of ice. Since the storage tank is filled with gas hydrate and the storage tank is closed with an ice lid, the storage tank has the following advantages.

That is, according to the present invention, since the storage tank constructed of ice is installed in the ground, the manufacturing cost of the storage tank is low. In addition, the operating cost is low and the economy is high. In addition, a storage tank constructed of ice has the ability to self-repair due to infiltration of groundwater and freezing, even if a crack should occur due to an earthquake or the like. No explosive combustion will occur. Further, since natural gas hydrate is produced only with water and natural gas, there is no environmental damage even if it leaks to the outside. Moreover, since the storage tank equipment is made of ice, no substances that damage the environment are generated even if it is not used.

On the other hand, the manufacturing method of the gas storage facility of the present invention is as follows.
The step of digging an empty hole in the ground, the step of burying a cooling pipe for preventing geothermal intrusion on the surface of the hole, and the surface of the empty hole in which the cooling pipe is embedded is covered with ice and constructed with ice. Since it is composed of a step of forming a hollow moat-shaped storage tank, a step of filling the storage tank with a gas hydrate, and a step of sealing the storage tank filled with the gas hydrate with an ice lid, Even gas stockpiling equipment can be built relatively easily.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a natural gas storage device according to the present invention.

FIG. 2 is an explanatory view of work for digging a hole.

FIG. 3 is an explanatory diagram of a work for making a wall surface of ice.

FIG. 4 is an explanatory diagram of work for digging a hole having a predetermined size and depth.

FIG. 5 is an explanatory diagram of an operation for forming an ice bottom on the bottom of a hole.

FIG. 6 is an explanatory diagram of a work for forming a barrier around the tank body.

FIG. 7 is an operation explanatory view of filling an ice tank with natural gas hydrate.

FIG. 8 is an explanatory view of the work for covering the ice tank.

FIG. 9 is an explanatory diagram of a natural gas recovery work.

FIG. 10 is a temperature / pressure equilibrium curve diagram of methane hydrate.

[Explanation of symbols]

a gas hydrate 1 An empty moat-shaped storage tank constructed with ice 3 ice lid 21 ground 22 Hollow hole

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) F17C 11/00 C10L 3/00 A (72) Inventor Tatsuya Takaoki 5-6-4 Tsukiji, Chuo-ku, Tokyo No. Mitsui Shipbuilding Co., Ltd. (72) Inventor Hajime Kanda 5-6-4 Tsukiji, Chuo-ku, Tokyo F-term inside Mitsui Shipbuilding Co., Ltd. (reference) 3E070 AA02 AB32 BH01 CA01 CB03 DA20 EA04 PA06 QA04 SA01 SA04 VA08 3E072 EA10 3E073 AB03 BB17

Claims (7)

[Claims] 1. A hollow-shaped hole is formed by digging the ground, the surface of the hole is covered with ice to form a hollow-shaped storage tank constructed of ice, and the storage tank is filled with gas hydrate, and
A gas storage facility in which the storage tank is sealed with an ice lid. 2. The gas storage facility according to claim 1, wherein a barrier for preventing infiltration of geothermal heat is provided around at least a storage tank constructed of ice. 3. A support is provided in a storage tank constructed of ice,
The gas storage facility according to claim 1, wherein the support supports the inner wall surface and the lid of the storage tank. 4. The gas storage facility according to claim 1, wherein the storage tank constructed of ice is provided with a heat supply pipe line and a gas recovery pipe line. 5. When recovering the gas in the storage tank constructed with ice, the temperature and pressure in the storage tank are determined by the temperature-pressure equilibrium curve of the gas hydrate, although the gas hydrate decomposes to form the storage tank. The gas storage facility according to claim 1, wherein the stored ice is kept under a condition that the ice does not melt. 6. A step of digging an empty hole in the ground, a step of embedding a geothermal heat preventing cooling pipe in the surface of the hole, and a step of covering the surface of the empty hole in which the cooling pipe is embedded with ice. Gas storage comprising the steps of forming an empty moat-shaped storage tank constructed with ice, filling the storage tank with gas hydrate, and sealing the storage tank filled with gas hydrate with an ice lid. Equipment manufacturing method. 7. The method of manufacturing a gas storage facility according to claim 6, wherein a heat supply pipe line and a gas recovery pipe line are installed during the step of forming an empty moat-shaped storage tank constructed of ice.