KR102243710B1 - Liquified gas storage tank having sloshing reduction device - Google Patents

Abstract

A liquefied gas storage tank includes a body portion having a space for storing liquefied gas, a first pipe disposed in the body portion, a pump connected to the first pipe, and a first rotating plate disposed inside the body portion, and being rotatable using the first pipe as a rotary shaft.

Description

Liquefied gas storage tank equipped with a sloshing reduction device {LIQUIFIED GAS STORAGE TANK HAVING SLOSHING REDUCTION DEVICE}

The present invention relates to a liquefied gas storage tank having a sloshing reduction device, and more particularly, to a liquefied gas storage tank having a sloshing reduction device capable of reducing the sloshing phenomenon that may occur in the liquefied gas storage tank. About.

Liquefied gas is a liquid when the gas is cooled or compressed, and its volume is relatively reduced compared to the gaseous state, so it is easy to store and store or transport in a container. For example, Liquefied Natural Gas (LNG), a representative liquefied gas, is liquefied after being cooled to -163℃ when natural gas containing methane as its main component is atmospheric pressure. It is only one-third.

In general, the liquefied gas is transported using a ship, and the liquefied gas may be stored in a pressure vessel capable of withstanding a certain level of pressure. These pressure vessels are formed in a cylindrical or spherical shape to effectively withstand internal pressure, and such pressure vessels consist of a single vessel and a single structure vessel consisting of a single vessel and an insulating material surrounding it, and a double vessel consisting of an inner vessel, an outer vessel, and an insulating material provided therebetween. There is a rescue vessel.

If a storage tank storing liquefied gas is installed on land, it is not a problem because sloshing of the fluid does not occur significantly. However, when a liquefied gas storage tank is applied at sea, 6 degrees of freedom of the ship Due to the motion, the fluid fluctuates, that is, a sloshing phenomenon occurs. At this time, the dynamic load of the fluid is transmitted to the liquefied gas storage tank, causing structural loss therein. In addition, when the fluid is a fluid that is easily vaporized, vaporization occurs more actively, thereby increasing the pressure inside the storage tank, thereby causing fatal damage to the function of the storage tank. Liquefied gas storage tanks and devices have been proposed to solve this problem.

Republic of Korea Patent Publication No. 10-2018-0060238

Accordingly, the technical problem of the present invention is conceived in this respect, and an object of the present invention is to provide a liquefied gas storage tank having a sloshing reduction device that enables the liquefied gas storage tank to reduce the risk of damage due to the sloshing phenomenon. will be.

A liquefied gas storage tank according to an embodiment for realizing the object of the present invention includes a body portion having a space for storing liquefied gas, a first pipe disposed in the body portion, and the first pipe as a rotation axis. It includes a first rotatable rotating plate.

In one embodiment of the present invention, the first pipe may be connected to an upper end and a lower end of an inner peripheral surface of the body part.

In one embodiment of the present invention, a through hole may be formed in the first pipe.

In one embodiment of the present invention, the through hole may be formed adjacent to the lower end of the body part.

In one embodiment of the present invention, an opening may be formed in the first rotating plate.

In one embodiment of the present invention, the first rotating plate may be installed by dividing into a plurality of plates in a vertical direction.

In an embodiment of the present invention, the liquefied gas storage tank may further include a connection part to connect the first rotating plate and the first pipe.

In one embodiment of the present invention, the connection part connecting the first rotation plate and the first pipe may have a connection part for easy rotation using a ball or a round bar.

In one embodiment of the present invention, the rotation angle of the first rotation plate may be limited by using an additional member at a connection portion connecting the first rotation plate and the first pipe.

In one embodiment of the present invention, the liquefied gas storage tank includes a second pipe disposed in the body part parallel to the first connection pipe, a first connection pipe connecting the first pipe and the second pipe, And a second rotation plate disposed inside the body part and rotatable using the second pipe as a rotation axis.

In one embodiment of the present invention, both ends of the second pipe may be connected to upper and lower ends of the inner circumferential surface of the body part.

In one embodiment of the present invention, the first connection pipe may be disposed adjacent to the upper end of the body part.

In an embodiment of the present invention, the liquefied gas storage tank includes a third pipe disposed in parallel with the first and second connection pipes in the body, and a third pipe connecting the second pipe and the third pipe. 2 The connection pipe may further include a third rotation plate disposed inside the body part and rotatable using the third pipe as a rotation axis.

According to embodiments of the present invention, the liquefied gas storage tank includes a body portion having a space for storing liquefied gas, a first pipe disposed in the body portion, a pump connected to the first pipe, and an interior of the body portion. It is disposed in, and includes a first rotation plate rotatable using the first pipe as a rotation axis. Since the first rotating plate rotates according to the flow of the liquefied gas and can reduce an internal impact due to a sloshing phenomenon, it is possible to safely store the liquefied gas without additional reinforcement of the body part.

In addition, since the first rotating plate can be installed without adding a separate structure by using the first pipe connected to the pump as a shaft, damage to the container due to sloshing can be prevented through a simple structure.

However, the effects of the present invention are not limited to the above effects, and may be variously extended without departing from the spirit and scope of the present invention.

1 is a side cross-sectional view of a liquefied gas storage tank according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the liquefied gas storage tank taken along line II′ of FIG. 1.
3 is a detailed perspective view illustrating the first pipe and the first rotating plate of FIG. 1. And,
4A and 4B are cross-sectional and perspective views illustrating another embodiment of the first rotating plate of the liquefied gas storage tank of FIG. 3.

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

In the present invention, various modifications may be made and various forms may be applied, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

1 is a side cross-sectional view of a liquefied gas storage tank according to an embodiment of the present invention.

Referring to FIG. 1, the liquefied gas storage tank includes a first rotating plate 110, a second rotating plate 120, a third rotating plate 130, and a connection part 112, 122, 132 inside the body part 10. ), a first pipe 210, a second pipe 220, a third pipe 230, and a connection pipe 240.

The body portion 10 may have a space for accommodating liquefied gas such as liquefied natural gas therein. The body portion 10 has various shapes such as a spherical, cylindrical cylinder type, a hexahedral prismatic type, and a peanut-shaped Bi-lobe type that combines two cylindrical sides. Although it may be formed, in the present embodiment, the body portion 10 will be described as an example of a cylindrical shape. The body portion 10 may have a cylindrical shape extending in the first direction D1.

The pump 300 is disposed above the body portion 10 and is configured to pump and discharge liquefied gas in the space inside the body portion 10, and may be a deep well pump.

First to third rotation plates 110, 120, and 130 for preventing a sloshing phenomenon may be disposed inside the body part 10. Meanwhile, in the present embodiment, the first to third rotating plates 110, 120, and 130 are each formed as one plate, but the present embodiment is not limited thereto. For example, the first to third rotating plates 110, 120, and 130 may be installed by dividing into a plurality of plates in the direction of the first to third pipes 210, 220, and 230. (Figures 4a and 4b illustrate a case where the first rotation plate is divided into two plates) The first to third rotation plates 110, 120, and 130 are each liquefied inside the body part 10 It rotates based on the first to third pipes 210, 220, 230 according to the flow of gas, and reduces the dynamic load of the fluid due to sloshing.

The first pipe 210, the second pipe 220, and the third pipe 230 may be disposed inside the body part 10. The first pipe 210 may be connected to the pump 300. The first pipe 210 extends in the body part 10 along a direction perpendicular to the ground (see D3 in FIG. 2), and has an upper end and a lower end, respectively, an upper end 10a of the inner circumferential surface of the body part 10 and It may be connected to and fixed to the lower end 10b of the inner circumferential surface of the body 10.

The first rotation plate 110 may be rotatably coupled to the first pipe 210 with the first pipe 210 by the connection part 112. The connection part 112 facilitates rotation using a ball or a round bar, and an additional member may be used to limit the rotation angle. The first pipe 210 is not only a connection passage of the pump 300 for discharging the liquefied gas stored in the body 10, but also of a rotating shaft for rotating the first rotating plate 110. Can play a role.

At this time, the upper and lower ends of the first pipe 210 are connected to the upper end 10a of the inner circumferential surface of the body part 10 and the lower end 10b of the inner circumferential surface of the body part 10, respectively, so that the liquefied gas Even if the first rotating plate 110 rotates due to the flow of, the internal structure such as the first pipe 210 may be supported without damage.

The second pipe 220 and the third pipe 230 are spaced apart from the first pipe 210 and disposed in parallel in the first direction D1, and the first pipe 220 It may be connected to the pipe 210. Specifically, the connection pipe 240 includes a first connection pipe 240a and a second connection pipe 240b, and the first pipe 210 and the second pipe 220 are the first connection pipe It is connected by 240a, and the second pipe 220 and the third pipe 230 may be connected by the second connection pipe 240b. A plurality of through holes (refer to 214 in FIG. 2) may be formed in the first to third pipes 210, 220, and 230. Accordingly, as the pump 300 is operated, the liquefied gas may be discharged through the pipe inlet 212 through the first to third pipes 210, 220, and 230.

FIG. 2 is a cross-sectional view of the liquefied gas storage tank taken along line II′ of FIG. 1. 3 is a detailed perspective view illustrating the first pipe and the first rotating plate of FIG. 1.

1 to 3, the first pipe 210 of the liquefied gas storage tank may be disposed inside the body part 10. The first pipe 210 is in a direction perpendicular to the first direction D1 and a second direction D2 perpendicular to the first direction D1, that is, a third direction D3 that is perpendicular to the ground. It may be a hollow pipe extending along the ). The lower end 216 of the first pipe 210 is connected to the lower end 10b of the inner circumferential surface of the body 10, and the pipe inlet 212 formed at the upper end of the first pipe 210 is It may be connected to the pump 300 by passing through the upper end 10a of the inner circumferential surface of the body 10.

A plurality of through holes 214 may be formed in the first pipe 210. As the pump 300 is operated, the liquefied gas inside the body part 10 passes through the through hole 214, the first pipe 210, and the pipe inlet 212 to the body part 10 It can be discharged to the outside. In this embodiment, the through hole 214 is shown to be formed in the entire first pipe 210 along the third direction D3, but in consideration of pump efficiency, the first pipe 210 It may be formed only in the lower part. In addition, for similar reasons, the first connection pipe 240a is preferably disposed adjacent to the upper end 10a of the body 10.

The first rotating plate 110 may be formed in a disk shape. In this embodiment, since the cross section of the body portion 10 is circular, the first rotating plate 110 may have a disk shape having a shape corresponding thereto. A plurality of openings may be formed in the first rotating plate 110. The opening prevents damage to the configuration of the first rotating plate 110 and the first pipe 110 by transmitting a dynamic load of a predetermined size or more to the first rotating plate 110 by the flow of the liquefied gas. It could be for. For example, large openings LH may be formed in the upper and lower portions of the first rotating plate 110, and a plurality of small openings SH may be formed in the middle portion.

The connection part 112 is for coupling the first rotation plate 110 to the first pipe 210 so as to be rotatable, and may be easily rotated using a ball or a ring tube. A first connection part 112a and a second connection part 112b are installed in the first pipe 210 and connected to the first rotating plate 110, so that the first rotating plate 110 is connected to the first pipe. It may be installed so as to be rotatable according to the flow of the liquefied gas using 110 as a rotating shaft (see arrow in FIG. 3).

The second pipe 220 and the second rotating plate 120, the third pipe 230 and the third rotating plate 230, the second and third pipes 210, 220 are the first And it may be substantially the same as the first pipe 210 and the first rotation plate 110 except for being connected to the pump 300 through the second connection pipes (240a, 240b). Therefore, repeated description will be omitted.

According to embodiments of the present invention, the liquefied gas storage tank includes a body portion having a space for storing liquefied gas, a first pipe disposed in the body portion, a pump connected to the first pipe, and an interior of the body portion. It is disposed in, and includes a first rotation plate rotatable using the first pipe as a rotation axis. Since the first rotating plate rotates according to the flow of the liquefied gas and can reduce an internal impact due to a sloshing phenomenon, it is possible to safely store the liquefied gas without additional reinforcement of the body part.

In addition, since the first rotating plate can be installed without adding a separate structure by using the first pipe connected to the pump as a shaft, damage to the container due to sloshing can be prevented through a simple structure.

Although described with reference to the above embodiments, those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: body part
110, 120, 130: first to third rotating plates
210, 220, 230: first to third pipes
300: pump

Claims (12)

A body portion having a space for storing liquefied gas;
A first pipe disposed in the body portion;
A pump connected to the first pipe; And
A first rotation plate disposed inside the body portion and rotatable using the first pipe as a rotation axis;
Including,
The pump is disposed above the body part,
A plurality of through holes for discharging the liquefied gas through the pipe are formed through the first pipe by the operation of the pump, and the plurality of through holes are formed adjacent to the lower end of the inner circumferential surface of the body part. Tank. The method of claim 1,
The first pipe is a liquefied gas storage tank, characterized in that connected to the upper end and the lower end of the inner circumferential surface of the body part. delete delete The method of claim 1,
Liquefied gas storage tank, characterized in that the opening is formed in the first rotating plate. The method of claim 1,
The first rotation plate is a liquefied gas storage tank, characterized in that it comprises a plurality of plates that are disposed along the rotation axis and individually rotatable. The method of claim 1,
A liquefied gas storage tank connecting the first rotating plate and the first pipe and including a connection part. The method of claim 7,
The liquefied gas storage tank, characterized in that the connection part uses a ball or a round bar to facilitate rotation of the first rotating plate with respect to the first pipe. The method of claim 7,
The connection portion is a liquefied gas storage tank, characterized in that using an additional member to limit the rotation angle of the first rotation plate within a predetermined angle. The method of claim 1,
A second pipe or a plurality of pipes disposed in the body part parallel to the first pipe;
A first connection pipe or a plurality of connection pipes connecting the first pipe and the second pipe; And
A second rotation plate or a plurality of rotation plates disposed inside the body portion and rotatable using the second pipe or a plurality of pipes as a rotation axis;
Liquefied gas storage tank, characterized in that it further comprises. The method of claim 10,
Both ends of the second pipe or the plurality of pipes are connected to upper and lower ends of the inner peripheral surface of the body portion. The method of claim 11,
The first connection pipe or the plurality of connection pipes is a liquefied gas storage tank, characterized in that disposed adjacent to the upper end of the body part.

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