KR102584153B1 - Equipment for reinforcing tanks for storing liquefied gas - Google Patents

Abstract

A liquefied gas storage tank reinforcement device is disclosed. The liquefied gas storage tank reinforcement device according to an embodiment of the present invention includes a wire structure that provides tension for reinforcing the liquefied gas storage tank between opposing inner surfaces of the liquefied gas storage tank.

Description

Liquefied gas storage tank reinforcement device {Equipment for reinforcing tanks for storing liquefied gas}

The present invention relates to a liquefied gas storage tank reinforcement device.

Generally, natural gas is transported in a gaseous state through gas pipelines on land or at sea, or is stored in an LNG transport ship in the form of liquefied liquefied natural gas (LNG) and transported to distant consumers. Liquefied natural gas is obtained by cooling natural gas to extremely low temperatures (approximately -163°C), and its volume is reduced to approximately 1/600 compared to gaseous natural gas, making it suitable for long-distance transportation by sea.

For this purpose, an LNG transport ship that carries liquefied natural gas and sails on the sea to unload the liquefied natural gas to a destination on land, or an LNG carrier that carries liquefied natural gas and sails on the sea to arrive at a land destination and regasifies the stored liquefied natural gas. LNG RV (Regasification Vessel), which is unloaded as natural gas, is equipped with a storage tank (cargo hold) that can withstand the extremely low temperatures of liquefied natural gas.

These storage tanks are designed and manufactured to withstand high internal pressure due to the risk of explosion. However, if pressure stability is excessively considered, excessive design and manufacturing of the storage tank may occur, leading to increased costs. On the other hand, if cost reduction is excessively considered, the safety of the storage tank may be problematic.

An embodiment of the present invention seeks to provide a liquefied gas storage tank reinforcement device to effectively improve the safety of the liquefied gas storage tank.

According to one aspect of the present invention, a liquefied gas storage tank reinforcement device including a wire structure that provides tension for reinforcing the liquefied gas storage tank between opposing inner surfaces of the liquefied gas storage tank may be provided.

At least a portion of the wire structure may be made of a shape memory alloy that relaxes not to provide the tension at a temperature exceeding the set temperature and contracts to provide the tension at a temperature below the set temperature.

The wire structure includes a first fixing member fixed to one inner surface of the liquefied gas storage tank; a second fixing member fixed to another inner surface of the liquefied gas storage tank facing the inner surface to which the first fixing member is fixed; a first coupling member coupled to the first fixing member; a second coupling member coupled to the second fixing member; and a wire having one end coupled to the first coupling member and the other end coupled to the second coupling member, wherein at least one of the first coupling member, the second coupling member, and the wire is made of a shape memory alloy. It can be produced.

The first fixing member and the first coupling member may be coupled to each other using a screw coupling method, and the second fixing member and the second coupling member may be coupled to each other using a screw coupling method.

The first coupling member and the second coupling member each have a hook shape and may be hooked and supported by the first fixing member and the second fixing member.

The wire structures are provided in plurality, some of the wire structures among the plurality of wire structures each extend in the horizontal direction and are spaced apart from each other in the vertical direction, and some of the wire structures among the plurality of wire structures each extend in the vertical direction. and can be spaced apart from each other in the horizontal direction.

According to an embodiment of the present invention, the wire structure provides tension to reinforce the liquefied gas storage tank between the opposing inner surfaces of the liquefied gas storage tank, thereby not only improving the safety of the liquefied gas storage tank, but also improving the liquefied gas storage tank. Unlike in the past, where the stability of the liquefied gas storage tank was increased by increasing the thickness of the storage tank itself, the cost of liquefied gas reinforcement can be significantly reduced.

Furthermore, at least a portion of the wire structure that provides tension for reinforcing the liquefied gas storage tank between the inner surfaces of the liquefied gas storage tank facing each other is relaxed so as not to provide tension at a temperature exceeding the set temperature, and is relaxed so as not to provide tension at a temperature exceeding the set temperature. By being made of a shape memory alloy that contracts to provide tension at a temperature of Installation work on wire structures becomes easier at exceeding temperatures.

Figure 1 is a diagram showing a liquefied gas storage tank reinforcement device according to an embodiment of the present invention.
Figure 2 is an enlarged view of part A of Figure 1.
Figure 3 is a cross-sectional view of Figure 2.
Figure 4 is an enlarged view of part B of Figure 1.
Figure 5 is a cross-sectional view of Figure 4.
FIG. 6 is a diagram showing a modification of the first fixing member and the first coupling member shown in FIG. 2.
FIG. 7 is a diagram showing a modification of the second fixing member and the second coupling member shown in FIG. 4.

Since the present invention can be modified in various ways and can have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description with reference to the accompanying drawings, identical or corresponding components will be assigned the same drawing numbers and overlapping descriptions thereof will be omitted. do.

Figure 1 is a diagram showing a liquefied gas storage tank reinforcement device according to an embodiment of the present invention, Figure 2 is an enlarged view of portion A of Figure 1, Figure 3 is a cross-sectional view of Figure 2, and Figure 4 is a diagram of Figure 1 This is an enlarged view of part B, and Figure 5 is a cross-sectional view of Figure 4. Referring to FIGS. 1 to 5, the liquefied gas storage tank reinforcement device according to this embodiment includes a wire structure 100.

For reference, the liquefied gas storage tank 10 in which the liquefied gas storage tank reinforcement device is installed may be formed on the ship 1. At this time, a plurality of liquefied gas storage tanks 10 may be formed on the ship. The liquefied gas may be, but is not limited to, liquefied natural gas.

1 to 5, the +X direction represents the front of the ship 1 or the liquefied gas storage tank 10, and the +Y direction represents the left direction of the ship 1 or the liquefied gas storage tank 10, The +Z direction represents the vertical or height direction of the ship (1) or the liquefied gas storage tank (10).

The wire structure 100 provides tension to reinforce the liquefied gas storage tank between opposing inner surfaces of the liquefied gas storage tank 10.

The tension provided by the wire structure 100 strengthens the liquefied gas storage tank 10 in a state in which liquefied gas is stored and improves the safety of the liquefied gas storage tank 10.

In relation to this, in the past, in order to increase the safety of the liquefied gas storage tank, a method of increasing the thickness of the liquefied gas storage tank itself was used, resulting in a problem of excessively increasing the manufacturing cost of the liquefied gas storage tank.

However, since the reinforcement device according to this embodiment reinforces the liquefied gas storage tank 10 through the wire structure 100 while leaving the liquefied gas storage tank 10 as is, reinforcement costs can be reduced.

In this embodiment, the wire structure 100 is provided in plural numbers.

Some of the wire structures 100 among the plurality of wire structures 100 each extend in the horizontal direction and are spaced apart from each other in the vertical direction. The wire structure 100 having such a shape and arrangement structure extends in the vertical direction and is located on the inner side of the liquefied gas storage tank 10 facing each other (ex. inside the left and right sides of the liquefied gas storage tank 10 as seen in Figure 1). Provides tension between the sides).

And among the plurality of wire structures 100, some of the wire structures 100 extend in the vertical direction and are spaced apart from each other in the horizontal direction. The wire structure 100 having such a shape and arrangement structure extends in the horizontal direction and creates tension between the inner surfaces of the storage tank facing each other (ex. the upper and lower inner surfaces of the liquefied gas storage tank 10 as seen in FIG. 1). provides.

The wire structure 100 extending in the upper horizontal direction and the wire structure 100 extending in the vertical direction are arranged at a distance (e.g., a gap in the front-back direction (X-axis direction) as seen in FIG. 1) so as not to contact each other. do.

At least a portion of the wire structure 100 is made of a shape memory alloy that relaxes so as not to provide tension to reinforce the liquefied gas storage tank at a temperature exceeding the set temperature and contracts to provide tension at a temperature below the set temperature. do.

The set temperature is determined to be lower than the internal temperature of the liquefied gas storage tank 10 when the wire structure 100 is installed inside the liquefied gas storage tank 10.

For example, when installing the wire structure 100 inside the liquefied gas storage tank 10, if the internal temperature of the liquefied gas storage tank 10 is 15 degrees, the set temperature may be determined to be 0 degrees, which is lower than 15 degrees.

The internal temperature of the liquefied gas storage tank 10 is maintained higher than the set temperature when installing the wire structure 100, and is set when the liquefied gas is stored in the liquefied gas storage tank 10 after installation of the wire structure 100 is completed. becomes lower than the temperature.

The wire structure 100 according to this embodiment does not provide tension to reinforce the liquefied gas storage tank by relaxing at a temperature exceeding the set temperature, and the part made of shape memory alloy does not provide tension. By contracting at a temperature below this set temperature, tension is provided to reinforce the liquefied gas storage tank.

In this regard, the wire structure 100 according to this embodiment is installed inside the liquefied gas storage tank 10 during the manufacturing process of the liquefied gas storage tank 10 or before storing the liquefied gas in the liquefied gas storage tank 10. do.

For example, the worker first fixes one end of the wire structure 100 to one inner surface of the liquefied gas storage tank at room temperature and then places the other end of the wire structure 100 facing the inner surface to which the one end is fixed. The wire structure 100 can be installed by secondary fixing to another inner surface.

If tension to reinforce the liquefied gas storage tank 10 is applied to the wire structure 100 in the process of secondary fixing the other end of the wire structure 100, the work of the worker performing the secondary fixing work will be It gets difficult. In other words, the worker must perform the secondary fixing work while overcoming the tension to reinforce the liquefied gas storage tank 10.

Therefore, the wire structure 100 according to this embodiment does not provide tension for reinforcement of the liquefied gas storage tank 10 because the portion made of shape memory alloy relaxes during the installation process at a temperature exceeding the set temperature. Workers can easily perform installation work on the wire structure 100.

2 to 5, the wire structure 100 includes a first fixing member 110, a second fixing member 120, a first coupling member 130, a second coupling member 140, Includes wire 150.

The first fixing member 110 is fixed to one inner surface of the liquefied gas storage tank 10. For example, the first fixing member 110 may be fixed to the inner surface of the liquefied gas storage tank 10 by welding.

The second fixing member 120 is fixed to the other inner surface of the liquefied gas storage tank 10, which faces the inner surface to which the first fixing member 110 is fixed. For example, the second fixing member 120 may be fixed to the inner surface of the liquefied gas storage tank 10 by welding.

The first coupling member 130 is coupled to the first fixing member 110. For example, the first coupling member 130 may be coupled to the first fixing member 110 by screwing as shown in FIG. 3 . At this time, a male thread portion is formed on the outer peripheral surface of the first fixing member 110, and a female thread portion that engages with the male thread portion of the first fixing member 110 is formed on the inner peripheral surface of the first coupling member 130.

The second coupling member 140 is coupled to the second fixing member 120. For example, the second coupling member 140 may be coupled to the second fixing member 120 by screwing as shown in FIG. 5 . In this case, a male thread portion is formed on the outer peripheral surface of the second fixing member 120, and a female thread portion that engages with the male thread portion of the second fixing member 120 is formed on the inner peripheral surface of the second coupling member 140.

One end of the wire 150 is coupled to the first coupling member 130, and the other end of the wire 150 is coupled to the second coupling member 140.

For example, one end of the wire 150 penetrates a part of the first coupling member 130 as shown in FIG. 3 and is located inside the first coupling member 130. At this time, the stopper 160 formed at one end of the wire 150 prevents the wire 150 from falling out of the first coupling member 130.

The other end of the wire 150 penetrates a part of the second coupling member 140 as shown in FIG. 5 and is located inside the second coupling member 140. At this time, the stopper 160 formed at the other end of the wire 150 prevents the wire 150 from coming off the second coupling member 140.

In the wire structure 100 having such a structure, at least one of the first coupling member 130, the second coupling member 140, and the wire 150 may be made of a shape memory alloy.

For example, the wire 150 may be made of shape memory alloy. In this case, the wire 150 relaxes at a temperature exceeding the set temperature and does not provide tension to reinforce the liquefied gas storage tank 10, but contracts at a temperature below the set temperature to strengthen the liquefied gas storage tank 10. Provides tension for reinforcement.

Alternatively, the first coupling member 130 and the second coupling member 140 may be manufactured from a shape memory alloy. In this case, the first coupling member 130 and the second coupling member 140 relax at a temperature exceeding the set temperature and do not provide tension to the wire 150 to reinforce the liquefied gas storage tank 10, It contracts at a temperature below the set temperature to provide tension to the wire 150 to reinforce the liquefied gas storage tank 10.

FIG. 6 is a view showing a modification of the first fixing member and the first coupling member shown in FIG. 2, and FIG. 7 is a view showing a modification of the second fixing member and the second coupling member shown in FIG. 4. am.

Referring to FIGS. 6 and 7 , the first coupling member 130' and the second coupling member 140' have a hook shape.

The first coupling member 130' having a hook shape is connected to the locking portion 113 of the first fixing member 110' while being coupled to one end of the wire 150'.

The second coupling member 140 having a hook shape is connected to the locking portion 123 of the second fixing member 120' while being coupled to the other end of the wire 150.

In the wire structure having such a structure, at least one of the first coupling member 130', the second coupling member 140', and the wire 150 may be made of a shape memory alloy.

Although the embodiments of the present invention have been described above, those skilled in the art can add, change, delete or add components without departing from the spirit of the present invention as set forth in the patent claims. The present invention may be modified and changed in various ways, and this will also be included within the scope of rights of the present invention.

1: Ship 10: Liquefied gas storage tank
100: wire structure 110: first fixing member
120: second fixing member 130: first coupling member
140: second coupling member 150: wire

Claims (6)

It includes a wire structure that provides tension to reinforce the liquefied gas storage tank between opposing inner surfaces of the liquefied gas storage tank,
At least a portion of the wire structure,
It is made of a shape memory alloy that relaxes not to provide the tension at a temperature exceeding the set temperature and contracts to provide the tension at a temperature below the set temperature,
The set temperature is determined to be lower than the internal temperature of the liquefied gas storage tank when installing the wire structure. delete According to paragraph 1,
The wire structure is,
A first fixing member fixed to one inner surface of the liquefied gas storage tank;
a second fixing member fixed to another inner surface of the liquefied gas storage tank facing the inner surface to which the first fixing member is fixed;
a first coupling member coupled to the first fixing member;
a second coupling member coupled to the second fixing member; and
It includes a wire whose one end is coupled to the first coupling member and the other end is coupled to the second coupling member,
At least one of the first coupling member, the second coupling member, and the wire is made of a shape memory alloy. According to paragraph 3,
The first fixing member and the first coupling member are coupled by a screw coupling method,
A liquefied gas storage tank reinforcement device, wherein the second fixing member and the second coupling member are coupled by a screw coupling method. According to paragraph 3,
The first coupling member and the second coupling member each include,
A liquefied gas storage tank reinforcement device having a hook shape and being hooked and supported by the first fixing member and the second fixing member. According to paragraph 1,
The wire structure is provided in plural,
Some of the wire structures among the plurality of wire structures each extend in the horizontal direction and are spaced apart from each other in the vertical direction,
Some of the wire structures among the plurality of wire structures each extend in the vertical direction and are spaced apart from each other in the horizontal direction.

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