KR20210142500A - Liquefaction cargo storage tank and ship - Google Patents

Abstract

The present invention is to provide a liquefied cargo storage tank and a ship that can reduce manufacturing costs while safely storing liquefied cargo by manufacturing it as an atmospheric cylindrical tank with a vapor pressure of 0.7 bar(g) or less, rather than a pressurized cylindrical tank with a vapor pressure of 2.0 bar(g) or more. The present invention relates to a liquefied cargo storage tank comprising: a tank shell having a cylindrical shape and forming a space for storing liquefied cargo; an insulating unit formed to surround the tank shell; first and second saddle units for supporting and fixing one side and the other side of the tank shell; an annular space formed between the tank shell and the insulating unit and divided into first, second, and third spaces by the first and second saddle units; and a leak protection device for collecting and storing the liquefied cargo leaking into at least one among the first, second, and third spaces.

Description

Liquefied cargo storage tank and ship {LIQUEFACTION CARGO STORAGE TANK AND SHIP}

The present invention relates to a liquefied cargo storage tank and a ship.

As small and medium-sized LNG carriers such as LNG bunkering vessels are commercialized, the demand for small-sized LNG liquid tanks of ^{50,000m 3 or less is increasing.} These LNG carriers apply a horizontal cylindrical pressure tank of 2.0 barg or more.

In the case of small and medium-sized gas vessels (including the Bunkering Vessel), it is difficult to install a membrane tank due to the problems of increased quay air and facility investment. Designing above the minimum design vapor pressure has disadvantages in that the weight of the tank increases and the cost increases.

If a Type-B tank is installed instead of a pressurized tank, the cost can be reduced because it can be designed to 0.7 barg or less. am.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to safely store liquefied cargo by producing an atmospheric cylindrical tank with a vapor pressure of 0.7 barg or less, rather than a pressurized cylindrical tank with a vapor pressure of 2.0 barg or more. It is to provide a liquefied cargo storage tank and a ship that can reduce manufacturing costs while still maintaining the manufacturing cost.

A liquefied cargo storage tank according to an aspect of the present invention, forming a space for storing liquefied cargo, the tank shell having a cylindrical shape; an insulating portion formed to surround the tank shell; first and second saddle parts for supporting and fixing one side and the other side of the tank shell; an annular space formed between the tank shell and the heat insulating part and divided into first, second, and third spaces by the first and second saddle parts; and a leak protection device for collecting and storing the liquefied cargo leaking into at least one of the first, second, and third spaces.

Specifically, the tank shell may be designed to have a vapor pressure of 0.7 barg or less.

Specifically, the leak protection device includes a first pipe communicating with the first space between the first saddle part and the second saddle part, and a second communicating with the second space outside the first saddle part. a drain pipe part comprising a pipe and a third pipe communicating with the third space outside the second saddle part; and a drip tray unit for collecting and storing the liquefied material discharged from the drain pipe unit.

Specifically, each of the first, second, and third pipes extends downward from each of the first, second, and third spaces to form a shape protruding to the outside, and the drip tray part is disposed under the first space and the a first drip tray connected to the first pipe; a second drip tray arranged under the second space and connected to the second pipe; and a third drip tray arranged under the third space and connected to the third pipe. It may consist of a drip tray.

Specifically, each of the first, second, and third pipes extends downward in each of the first, second, and third spaces to form a shape protruding to the outside, and the drip tray part is located below the first, second, and third spaces. and one drip tray disposed on the wall and connected to the first, second, and third pipes, and the single drip tray may be configured to pass through each of the first and second saddle parts.

Specifically, each of the first, second, and third pipes extends downward from each of the first, second, and third spaces to form a shape protruding to the outside, and the drip tray part is disposed under the first space and the a first drip tray connected to the first pipe; a second drip tray arranged under the second space and connected to the second pipe; and a third drip tray arranged under the third space and connected to the third pipe. Consisting of a drip tray, each of the second and third drip trays is a small-capacity auxiliary drip tray for temporarily storing a predetermined amount of the liquefied cargo leaking into the second and third spaces, and the first drip tray includes: It can be a large-capacity main drip tray connected to the second drip tray and the first connecting pipe, and connected to the third drip tray and the second connecting pipe to collect and store the liquefied cargo leaked into the first, second, and third spaces. have.

Specifically, the first pipe extends downward from the first space to protrude to the outside, and each of the second and third pipes extends downward from each of the second and third spaces to protrude to the outside and then bends to extend toward the first pipe, and the drip tray part may be formed of a single drip tray disposed under the first space and connected to the first, second, and third pipes.

Specifically, each of the first, second, and third pipes extends downward in each of the first, second, and third spaces to form a shape protruding to the outside, and is connected by a common pipe, and the drip tray part includes the It may consist of one drip tray disposed under at least any one of spaces 1, 2, and 3 and connected to the cavity pipe.

Specifically, the leak protection device may include: a drain pipe part made of a pipe communicating with a first space between the first saddle part and the second saddle part; a drip tray part comprising a single drip tray connected to the pipe of the drain pipe part; and a leakage path hole providing a passage through which the liquefied cargo leaked into the second and third spaces can flow into the first space.

Specifically, the leakage path hole portion may include: a first leakage path hole formed so that the second space and the first space communicate through the wood block of the first saddle unit; and a second exit path hole formed to pass through the wood block of the second saddle part so that the third liver and the first space communicate with each other.

The liquefied cargo storage tank according to the present invention can reduce the manufacturing cost compared to the pressure tank while safely storing the liquefied cargo by manufacturing the tank shell in the atmospheric pressure cylinder type of the vapor pressure of 0.7 barg or less, rather than the pressurized cylinder type tank of 2.0 barg or more.

In addition, the liquefied cargo storage tank according to the present invention can secure stability from leakage of liquefied cargo by optimizing the liquefied cargo leakage protection device.

1 is a cross-sectional view for explaining a liquefied cargo storage tank according to an embodiment of the present invention.
2 is a view for explaining another embodiment of the leak protection device according to the present invention.
3 is a view for explaining another embodiment of the leak protection device according to the present invention.
4 is a view for explaining another embodiment of the leak protection device according to the present invention.
5 is a view for explaining another embodiment of the leak protection device according to the present invention.
6 is a view for explaining another embodiment of the leak protection device according to the present invention.
7 is a cross-sectional view taken along line A-A' of FIG. 6 .

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In the present specification, in adding reference numbers to the components of each drawing, it should be noted that only the same components are given the same number as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

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

Hereinafter, in the present specification, liquefied cargo may be used to encompass all gas fuels generally stored in a liquid state, such as LNG or LPG, ethylene, ammonia, ethane, liquid nitrogen, liquid hydrogen, and the like. However, the liquefied gas may mean including not only the liquefied gas in a liquid state but also the vaporized liquefied gas.

Figure 1 is a cross-sectional view for explaining a liquefied cargo storage tank according to an embodiment of the present invention, Figure 2 is a view for explaining another embodiment of the leak protection device according to the present invention, Figure 3 is according to the present invention It is a view for explaining another embodiment of the leak protection device, Figure 4 is a view for explaining another embodiment of the leak protection device according to the present invention, Figure 5 is another view of the leak protection device according to the present invention It is a view for explaining the embodiment, Figure 6 is a view for explaining another embodiment of the leak protection device according to the present invention, Figure 7 is a cross-sectional view taken along the line A-A' of Figure 6 .

As shown in FIGS. 1 and 7 , the liquefied cargo storage tank 1 according to an embodiment of the present invention may be provided on a ship, and is not a pressurized cylindrical tank having a vapor pressure of 2.0 barg or more, but a vapor pressure of 0.7 barg or less. It may be a cylindrical tank.

The liquefied cargo storage tank (1), which is such an atmospheric pressure cylindrical tank, may include a tank shell (10), a thermal insulation part (20), an annular space part (30), a saddle part (40), and a leak protection device (50). have.

The tank shell 10 forms a space for storing liquefied goods, and may have a cylindrical shape.

The tank shell 10 of this embodiment is similar in shape to the pressurized cylindrical tank, but in this embodiment, since the heat insulating part 20 surrounding the tank shell 10 is provided, unlike the pressurized cylindrical tank, vapor pressure (vapor) pressure) 0.7 barg or less can be designed. That is, the tank shell 10 may be formed to be thinner than the thickness of the pressurized cylindrical tank having a vapor pressure of 2.0 barg or more.

The heat insulating part 20 may be formed to surround the tank shell 10 , and may block heat from penetrating into the tank shell 10 from the outside.

The annular space part 30 may be formed between the tank shell 10 and the heat insulating part 20 .

In this annular space 30, since the tank shell 10 of this embodiment is an atmospheric cylinder type with a vapor pressure of 0.7 barg or less, it is necessary to monitor the occurrence of penetration cracks according to the fatigue crack progress of the tank according to the IGC code, and also for leakage ( When leakage) occurs, the leaked liquefied cargo should flow and collect at a desired place, for example, a leak protection device 50 to be described later, so it should be configured between the tank shell 10 and the insulator 20 .

The annular space 30 may be divided into a first space 31 , a second space 32 , and a third space 33 by a saddle part 40 to be described later. Spaces 31, 32, and 33 were defined and divided as spaces in which leaked liquefied cargo was isolated. That is, the first space 31 is a space between the first saddle part 41 and the second saddle part 42 , the second space 32 is a space outside the first saddle part 41 , and the third space Reference numeral 33 denotes an outer space of the second saddle part 42 . Of course, the second and third spaces 32 and 33 extend from one side of the tank shell 10 to the other side through the upper part, but the leaked liquefied cargo flows down into any one of the second and third spaces 32 and 33. Since it becomes an isolated state, it is divided into two spaces instead of one space.

The saddle part 40 may support and fix the tank shell 10 , and may include a wood block 40a and a saddle support 40b.

The saddle part 40 has at least two or more first saddle parts 41 and the first saddle part 41, since the liquefied cargo storage tank 1 of this embodiment has a normal pressure cylindrical shape of the tank shell 10 with a vapor pressure of 0.7 barg or less. It may consist of two saddle parts 42 . That is, the first saddle part 41 may support and fix one side of the cylindrical tank shell 10 , and the second saddle part 42 may support and fix the other side of the tank shell 10 . In this embodiment, although the case in which two saddle parts 40 are installed is described, it is of course not limited thereto and may be installed more than that.

Since each of the first and second saddle parts 41 and 42 supports one side and the other side of the tank shell 10, the wood block 40a between the tank shell 10 and the saddle support 40b is the tank shell 10. It has no choice but to support the tank shell 10 through the lower insulating part 20 and the annular space part 30 .

This wood block 40a, as shown in FIG. 7, has a shape that surrounds the lower portion of the tank shell 10 by about 120°, whereby the annular space 30 is blocked by the wood block 40a, and the annular space The unit 30 is divided into first, second, and third spaces 31 , 32 , and 33 .

The leak protection device 50 may collect and store the liquefied cargo leaking into the annular space 30 through the tank shell 10 . The leak protection device 50 may collect and store the liquefied cargo leaking into at least one of the first, second, and third spaces 31 , 32 and 33 of the annular space 30 .

The leakage protection device 50 may be implemented in various ways, and the leakage protection device 50 will be described for each embodiment with reference to FIGS. 1 to 7 .

Referring to FIG. 1 , the leak protection device 50 may include a drain pipe part 51 and a drip tray part 52 .

The drain pipe part 51 provides a passage through which the liquefied material leaking into each of the first, second, and third spaces 31 , 32 , and 33 of the annular space 30 can be discharged to the drip tray part 52 . can do.

The drain pipe part 51 penetrates the heat insulating part 20 between the first saddle part 41 and the second saddle part 42 to communicate with the first space 31 of the annular space part 30 . The first pipe 51a, the second pipe 51b passing through the heat insulating part 20 outside the first saddle part 41 and communicating with the second space 32 of the annular space part 30, and the second It may be formed of a third pipe 51c passing through the heat insulating part 20 on the outside of the saddle part 42 and communicating with the third space 33 of the annular space part 30 .

Each of the first, second, and third pipes 51a, 51b, and 51c may extend downward in each of the first, second, and third spaces 31, 32, and 33 to form a shape protruding to the outside.

Here, each of the first, second, and third pipes 51a, 51b, and 51c can be independently and short in length, which can be advantageous from heat shrinkage stress that may be generated when the liquefied product is a cryogenic liquefied product.

The drip tray part 52 may collect and store the liquefied material discharged from the drain pipe part 51 .

The drip tray part 52 includes a first drip tray 52a connected to the first pipe 51a of the drain pipe part 51 and a second pipe 51b connected to the drain pipe part 51 . It may include a second drip tray 52b and a third drip tray 52c connected to the third pipe 51c of the drain pipe part 51 .

In the above, the first drip tray 52a may be disposed under the first space 31 between the first saddle part 41 and the second saddle part 42, and the second drip tray 52b is The first saddle part 41 may be disposed under the second space 32 , and the third drip tray 52c may be disposed under the third space 33 outside the second saddle part 42 . .

Referring to FIG. 2 , the leak protection device 50 may include a drain pipe part 51 and a drip tray part 52 .

The drain pipe part 51 provides a passage through which the liquefied material leaking into each of the first, second, and third spaces 31 , 32 , and 33 of the annular space 30 can be discharged to the drip tray part 52 . can do.

The drain pipe part 51 penetrates the heat insulating part 20 between the first saddle part 41 and the second saddle part 42 to communicate with the first space 31 of the annular space part 30 . The first pipe 51a, the second pipe 51b passing through the heat insulating part 20 outside the first saddle part 41 and communicating with the second space 32 of the annular space part 30, and the second It may be formed of a third pipe 51c passing through the heat insulating part 20 on the outside of the saddle part 42 and communicating with the third space 33 of the annular space part 30 .

Each of the first, second, and third pipes 51a, 51b, and 51c may extend downward in each of the first, second, and third spaces 31, 32, and 33 to form a shape protruding to the outside.

Here, each of the first, second, and third pipes 51a, 51b, and 51c can be independently and short in length, which can be advantageous from heat shrinkage stress that may be generated when the liquefied product is a cryogenic liquefied product.

The drip tray part 52 may collect and store the liquefied material discharged from the drain pipe part 51 .

The drip tray part 52 may be formed of a single drip tray connected to the first, second, and third pipes 51a, 51b, and 51c of the drain pipe part 51 .

In the above, one drip tray includes a first space 31 between the first saddle part 41 and the second saddle part 42 in which the outlet of the first pipe 51a is located, and the second pipe 51b. The second space 32 outside the first saddle part 41 in which the outlet of the can be placed.

In addition, one drip tray may be configured to pass through the saddle support 40b of each of the first and second saddle parts 41 and 42 .

Referring to FIG. 3 , the leak protection device 50 may include a drain pipe part 51 and a drip tray part 52 .

The drain pipe part 51 provides a passage through which the liquefied material leaking into each of the first, second, and third spaces 31 , 32 , and 33 of the annular space 30 can be discharged to the drip tray part 52 . can do.

The drain pipe part 51 penetrates the heat insulating part 20 between the first saddle part 41 and the second saddle part 42 to communicate with the first space 31 of the annular space part 30 . The first pipe 51a, the second pipe 51b passing through the heat insulating part 20 outside the first saddle part 41 and communicating with the second space 32 of the annular space part 30, and the second A third pipe 51c passing through the heat insulating part 20 on the outside of the saddle part 42 and communicating with the third space 33 of the annular space part 30, and the first and second drip trays 52a and 52b It may be formed of a first connection pipe 51e connecting the , and a second connection pipe 51f connecting the first and third drip trays 52a and 52c.

Each of the first, second, and third pipes 51a, 51b, and 51c may extend downward in each of the first, second, and third spaces 31, 32, and 33 to form a shape protruding to the outside.

Here, each of the first, second, and third pipes 51a, 51b, and 51c can be independently and short in length, which can be advantageous from heat shrinkage stress that may be generated when the liquefied product is a cryogenic liquefied product.

The drip tray part 52 may collect and store the liquefied material discharged from the drain pipe part 51 .

The drip tray part 52 includes a first drip tray 52a connected to the first pipe 51a of the drain pipe part 51 and a second pipe 51b connected to the drain pipe part 51 . It may include a second drip tray 52b and a third drip tray 52c connected to the third pipe 51c of the drain pipe part 51 .

In the above, the first drip tray 52a may be disposed under the first space 31 between the first saddle part 41 and the second saddle part 42, and the second drip tray 52b is The first saddle part 41 may be disposed under the second space 32 , and the third drip tray 52c may be disposed under the third space 33 outside the second saddle part 42 . .

Here, the first drip tray 52a is connected to the second drip tray 52b and the first connection pipe 51e, and is connected to the third drip tray 52c and the second connection pipe 51f to form an annular space. It can be said that it is a large-capacity main drip tray for collecting and storing liquefied cargo that has leaked into the first, second, and third spaces 31, 32, and 33 of the unit 30, and the second and third drip trays 52b and 52c, respectively. Silver, rather than a function of collecting and storing liquefied cargo leaking into the second and third spaces 32 and 33, can be called a small-capacity auxiliary drip tray that temporarily stores a certain amount.

That is, when the liquefied material is filled in the small capacity second and third drip trays 52b and 52c by a certain amount or more. The liquefied material is discharged to the large-capacity first drip tray 52a through the first and second connection pipes 51e and 51f. To this end, the large-capacity first drip tray 52a may be disposed at a lower position than the small-capacity second and third drip trays 52b and 52c.

In this way, the large-capacity first drip tray 52a and the small-capacity second and third drip trays 52b and 52c shorten the length of the first, second, and third pipes 51a, 51b, and 51c to liquefy This is to be advantageous from heat shrinkage stress that may occur when the cargo is a cryogenic liquefied cargo.

Referring to FIG. 4 , the leak protection device 50 may include a drain pipe part 51 and a drip tray part 52 .

The drain pipe part 51 provides a passage through which the liquefied material leaking into each of the first, second, and third spaces 31 , 32 , and 33 of the annular space 30 can be discharged to the drip tray part 52 . can do.

The drain pipe part 51 penetrates the heat insulating part 20 between the first saddle part 41 and the second saddle part 42 to communicate with the first space 31 of the annular space part 30 . The first pipe 51a, the second pipe 51b passing through the heat insulating part 20 outside the first saddle part 41 and communicating with the second space 32 of the annular space part 30, and the second It may be formed of a third pipe 51c passing through the heat insulating part 20 on the outside of the saddle part 42 and communicating with the third space 33 of the annular space part 30 .

In the above, the first pipe 51a may extend downward from the first space 31 to protrude to the outside, and the second and third pipes 51b and 51c, respectively, may be formed in the second and third spaces 32 , 33) may extend downward from each, protrude to the outside, and then be bent to extend horizontally to the vicinity of the first pipe (51a). Here, each of the second and third pipes 51b and 51c may extend toward the first pipe 51a while having a downward inclination at a predetermined angle.

The second pipe 51b may be configured to pass through or bypass the saddle support 40b of the first saddle part 41 , and the third pipe 51c may be a saddle of the second saddle part 42 . It may be configured to penetrate or bypass the support 40b.

The drip tray part 52 may collect and store the liquefied material discharged from the drain pipe part 51 .

The drip tray part 52 may be formed of a single drip tray connected to each of the first, second, and third pipes 51a, 51b, and 51c of the drain pipe part 51 .

In the above, one drip tray has a first space 31 between the first saddle part 41 and the second saddle part 42 in which the outlets of each of the first, second, and third pipes 51a, 51b, and 51c are located. ) can be placed under

Referring to FIG. 5 , the leak protection device 50 may include a drain pipe part 51 and a drip tray part 52 .

The drain pipe part 51 provides a passage through which the liquefied material leaking into each of the first, second, and third spaces 31 , 32 , and 33 of the annular space 30 can be discharged to the drip tray part 52 . can do.

The drain pipe part 51 penetrates the heat insulating part 20 between the first saddle part 41 and the second saddle part 42 to communicate with the first space 31 of the annular space part 30 . The first pipe 51a, the second pipe 51b passing through the heat insulating part 20 outside the first saddle part 41 and communicating with the second space 32 of the annular space part 30, and the second The third pipe 51c passing through the heat insulating part 20 on the outside of the saddle part 42 and communicating with the third space 33 of the annular space part 30, and the first, second, and third pipes 51a and 51b , 51c) may be made of a cavity pipe (51d) connecting each.

Each of the first, second, and third pipes 51a, 51b, and 51c may extend downward in each of the first, second, and third spaces 31, 32, and 33 to form a shape protruding to the outside, and the cavity pipe (51d) may form a horizontally extending form.

The cavity pipe 51d has an outlet located below the first space 31 between the first saddle part 41 and the second saddle part 42 , and may be integral with the outlet port of the first pipe.

When the outlet of the cavity pipe 51d is integrated with the outlet of the first pipe, so that the liquefied material flowing from the second and third pipes 51b and 51c can easily flow to the outlet of the cavity pipe 51d, the cavity The pipe 51d may extend to the first pipe 51a while having a downward inclination at a predetermined angle from each of the second and third pipes 51b and 51c.

The cavity pipe 51d may be configured to pass through or bypass the saddle support 40b of each of the first and second saddle parts 41 and 42 .

The drip tray part 52 may collect and store the liquefied material discharged from the drain pipe part 51 .

The drip tray part 52 may be formed of a single drip tray connected to the cavity pipe 51d of the drain pipe part 51 .

In the above, one drip tray may be disposed under the first space 31 between the first saddle part 41 and the second saddle part 42 in which the outlet of the cavity pipe 51d is located. In the present embodiment, it has been described that one drip tray is disposed under the first space 31 , but it is not limited thereto, and one drip tray is disposed under the second space 32 outside the first saddle part 41 or Of course, it may be disposed in various free spaces such as under the third space 33 outside the second saddle part 42 .

6 and 7 , the leak protection device 50 may include a drain pipe part 51 , a drip tray part 52 , and a leak path hole part 53 .

The drain pipe part 51 provides a passage through which the liquefied material leaking into each of the first, second, and third spaces 31 , 32 , and 33 of the annular space 30 can be discharged to the drip tray part 52 . can do.

The drain pipe part 51 is a pipe communicating with the first space 31 of the annular space part 30 through the heat insulating part 20 between the first saddle part 41 and the second saddle part 42 . The liquefied cargo leaking into the first space 31 as well as the liquefied cargo leaking into the second and third spaces 32 and 33 may be discharged to the drip tray unit 52 .

The drip tray part 52 may collect and store the liquefied material discharged from the drain pipe part 51 .

The drip tray part 52 may be formed of a single drip tray connected to the pipe of the drain pipe part 51 .

The leakage path hole part 53 is a product of the annular space part 30 in which the drip tray part 52 is provided for the liquefied product leaking into the second space 32 and the third space 33 of the annular space part 30 . A passage that can flow into one space 31 may be provided, and may be provided in the wood block 40a of the saddle unit 40 .

The leakage path hole part 53 includes a first leakage path hole 53a and a second leakage path hole 53b.

The first leakage path hole 53a is formed to pass through the wood block 40a of the first saddle part 41 so that the second space 32 of the annular space part 30 and the first space 31 communicate with each other. can be The first leakage path hole 53a is a first space 31 of the annular space 30 in which the drip tray 52 is provided for the liquefied product leaking into the second space 32 of the annular space 30 . It can provide a passage for flow.

The second leakage path hole 53b is formed to pass through the wood block 40a of the second saddle part 42 so that the third space 33 of the annular space 30 and the first space 31 communicate with each other. can be The second leakage path hole 53b is the first space 31 of the annular space 30 in which the drip tray 52 is provided for the liquefied product leaked into the third space 33 of the annular space 30 . It can provide a passage for flow.

The present invention is not limited to the various embodiments of the leak protection device 50 described above, and may include a combination of the various embodiments or a combination of at least one of the embodiments and a known technology as another embodiment. can

In the above, the present invention has been described focusing on the embodiments of the present invention, but this is only an example and does not limit the present invention. It will be appreciated that various combinations or modifications and applications not illustrated in the embodiments are possible within the scope. Accordingly, descriptions related to variations and applications that can be easily derived from the embodiments of the present invention should be interpreted as being included in the present invention.

1: liquefied cargo storage tank 10: tank shell
20: thermal insulation unit 30: annular space unit
31: first space 32: second space
33: third space 40: saddle part
40a: wood block 40b: saddle support
41: first saddle part 42: second saddle part
50: leak protection device 51: drain pipe part
51a: first pipe 51b: second pipe
51c: third pipe 51d: cavity pipe
51e: first connecting pipe 51f: second connecting pipe
52: drip tray 52a: first drip tray
52b: second drip tray 52c: third drip tray
53: leak path hole 53a: first leak path hole
53b: second leakage path hole

Claims (10)

Forming a space for storing liquefied cargo, the tank shell having a cylindrical shape;
an insulating portion formed to surround the tank shell;
first and second saddle parts for supporting and fixing one side and the other side of the tank shell;
an annular space formed between the tank shell and the heat insulating part and divided into first, second, and third spaces by the first and second saddle parts; and
The liquefied cargo storage tank, characterized in that it comprises a leak protection device for collecting and storing the liquefied cargo that leaks into at least one of the first, second, and third spaces. According to claim 1, wherein the tank shell,
A liquefied cargo storage tank, characterized in that it is designed to vapor pressure (Vapor Pressure) 0.7 barg or less. According to claim 1, The leak protection device,
A first pipe communicating with the first space between the first saddle part and the second saddle part, a second pipe communicating with the second space outside the first saddle part, and an outer side of the second saddle part a drain pipe part formed of a third pipe communicating with the third space; and
Liquefied cargo storage tank, characterized in that it comprises a drip tray for collecting and storing the liquefied material discharged from the drain pipe portion. According to claim 3, wherein each of the first, second, and third pipes,
It extends downward in each of the first, second, and third spaces to form a shape protruding to the outside,
The drip tray unit,
a first drip tray disposed under the first space and connected to the first pipe; a second drip tray disposed under the second space and connected to the second pipe; and disposed under the third space; A liquefied cargo storage tank comprising a third drip tray connected to the third pipe. According to claim 3, wherein each of the first, second, and third pipes,
It extends downward in each of the first, second, and third spaces to form a shape protruding to the outside,
The drip tray unit,
It is arranged under the first, second, and third spaces and consists of a single drip tray connected to the first, second, and third pipes,
The one drip tray is a liquefied cargo storage tank, characterized in that it is configured to pass through each of the first and second saddle parts. According to claim 3, wherein each of the first, second, and third pipes,
It extends downward in each of the first, second, and third spaces to form a shape protruding to the outside,
The drip tray unit,
a first drip tray disposed under the first space and connected to the first pipe; a second drip tray disposed under the second space and connected to the second pipe; and disposed under the third space; Consists of a third drip tray connected to the third pipe,
Each of the second and third drip trays is a small-capacity auxiliary drip tray for temporarily storing a predetermined amount of the liquefied cargo leaking into the second and third spaces,
The first drip tray is connected to the second drip tray and a first connection pipe, and is connected to the third drip tray and a second connection pipe to collect the liquefied cargo leaking into the first, second, and third spaces. A liquefied cargo storage tank, characterized in that it is a large-capacity main drip tray for storage. 4. The method of claim 3,
The first pipe extends downward in the first space to protrude to the outside, and each of the second and third pipes extends downward in each of the second and third spaces to protrude to the outside and then bent to form the first pipe extending towards the 1 pipe,
The drip tray unit,
A liquefied cargo storage tank, which is disposed under the first space and includes a single drip tray connected to the first, second, and third pipes. According to claim 3, wherein each of the first, second, and third pipes,
It extends downward in each of the first, second, and third spaces to form a shape protruding to the outside, and is connected by a common pipe,
The drip tray unit,
The liquefied cargo storage tank, characterized in that it is disposed under at least one of the first, second, and third spaces and consists of a single drip tray connected to the common pipe. According to claim 1, The leak protection device,
a drain pipe part formed of a pipe communicating with a first space between the first saddle part and the second saddle part;
a drip tray part comprising a single drip tray connected to the pipe of the drain pipe part; and
The liquefied cargo storage tank, characterized in that it includes a leak path hole portion that provides a passage through which the liquefied cargo leaked into the second and third spaces can flow into the first space. The method of claim 9, wherein the leakage path hole portion,
a first leakage path hole formed so that the second space and the first space communicate with each other through the wood block of the first saddle part; and
The liquefied cargo storage tank, characterized in that it includes a second exit path hole formed to pass through the wood block of the second saddle portion and the third space and the first space to communicate.

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