KR102310842B1 - Carrier cargo tank and manufacturing method thereof - Google Patents

Abstract

A liquefied gas cargo hold and a manufacturing method thereof are disclosed. A liquefied gas cargo hold according to an embodiment of the present invention is provided to accommodate the liquefied gas, a storage tank disposed in a cargo hold receiving space formed in the hull of a floating offshore structure, a plurality of storage tanks provided at the bottom of the cargo hold receiving space to support the storage tank A support structure and a heat insulating structure provided between the inner surface of the cargo hold accommodating space and the outer surface of the storage tank to insulate the liquefied gas accommodated in the storage tank, wherein the heat insulating structure includes a plurality of barriers provided on the outer surface of the storage tank, and a plurality of barriers a plurality of mounting devices for supporting the storage tank on the outer surface of the storage tank, and a powder insulator filled between the outer surface of the plurality of barriers and the inner surface of the cargo hold receiving space, wherein each barrier is heat insulating provided to surround the outer surface of the storage tank It may be provided including a plate and an insulating cap that is formed to protrude from the insulating plate and joined to the mounting device by welding.

Description

Liquefied gas cargo hold and manufacturing method thereof

The present invention relates to a liquefied gas cargo hold and a method for manufacturing the same, and more particularly, to a liquefied gas cargo hold including a heat insulating structure for effectively insulating low-temperature liquefied gas, and a method for manufacturing the same.

Liquefied gas is a liquid made by cooling or compressing a gas, and is phase-changed into a liquid by cooling a gas at room temperature for convenience of transportation and storage. One of the widely used and important resources among liquefied gases is liquefied natural gas (LNG). Liquefied natural gas refers to a colorless and transparent cryogenic liquid whose volume is reduced to 1/600 by cooling natural gas containing methane to -162 degrees Celsius.

Recently, as liquefied natural gas is used as an important energy resource, an efficient transportation method capable of transporting liquefied natural gas in large quantities from a production site to various demanding destinations has been studied. As part of these efforts, a liquefied gas transport vessel capable of transporting a large amount of liquefied natural gas by sea was developed.

Liquefied gas cargo holds that can withstand cryogenic temperatures are installed in liquefied gas transport ships to store and store liquefied natural gas. Since liquefied natural gas has a vapor pressure higher than atmospheric pressure and has a very low boiling temperature, the liquefied gas cargo hold must be made of a material that can withstand extremely low temperatures, and a unique insulation structure that is strong against other thermal stress and thermal contraction and can prevent heat intrusion will need

Storage tanks are classified into Independent Type and Membrane Type depending on whether the load of cargo is directly applied to the insulating structure. Among them, the independent storage tank has a relatively simple structure and can accommodate liquefied natural gas stably, so it is adopted and used in various liquefied gas transport ships. In the independent storage tank, a storage tank is installed in a cargo hold accommodating space formed in the hull of a floating offshore structure, such as a ship, and an insulating structure is installed between the outer surface of the storage tank and the cargo hold accommodating space.

At this time, when a large-scale storage tank is adopted to increase the loading capacity of the cargo hold, the space between the outer surface of the storage tank and the cargo hold accommodation space becomes narrow, making it difficult to install the insulating structure. In addition, if a relatively thick insulation structure is adopted to improve the insulation performance, or when the space between the outer surface of the storage tank and the cargo hold accommodation space is widened to facilitate the installation of the insulation structure, a storage tank with a small size is recommended. There is a problem in that the loading capacity of the cargo hold is reduced because it must be adopted.

In particular, when a thermal insulation structure is installed on the outer surface of a storage tank as in the prior art, in addition to the space where the insulation structure is installed, a space for an operator to perform installation work or maintenance is additionally required, so the space of a floating offshore structure such as a ship There was a problem in that the usability and loading efficiency of the cargo hold decreased.

Accordingly, research is required to effectively insulate low-temperature liquefied gas such as liquefied natural gas loaded in the cargo hold to stably accommodate and store the liquefied gas, and to increase the amount of liquefied gas in the cargo hold.

Republic of Korea Patent Publication No. 10-2008-0097519 (published on Nov. 06, 2008)

An embodiment of the present invention is to provide a liquefied gas cargo hold including a heat insulating structure that can effectively insulate the loaded liquefied gas and a manufacturing method thereof.

An embodiment of the present invention is to provide a liquefied gas cargo hold that can quickly and easily perform the installation work of the insulating structure and a manufacturing method thereof,

An embodiment of the present invention is to provide a liquefied gas cargo hold capable of stably insulating the liquefied gas while increasing the liquefied gas loading of a storage tank and a method for manufacturing the same.

An embodiment of the present invention is to provide a liquefied gas cargo hold capable of improving the space utilization of a floating offshore structure, such as a ship in which the liquefied gas cargo hold is installed, and a manufacturing method thereof.

An embodiment of the present invention is to prevent leakage of liquefied gas and to provide a liquefied gas cargo hold capable of preventing safety accidents due to leakage of liquefied gas in advance and a method for manufacturing the same.

An embodiment of the present invention is to provide a liquefied gas cargo hold capable of stably insulating the liquefied gas loaded by a simple structure and a manufacturing method thereof.

According to an aspect of the present invention, a storage tank provided to receive liquefied gas and disposed in a cargo hold receiving space formed in the hull of a floating offshore structure, a plurality of support structures provided on the bottom of the cargo hold receiving space to support the storage tank and a heat insulating structure provided between the inner surface of the cargo hold accommodating space and the outer surface of the storage tank to insulate the liquefied gas accommodated in the storage tank, wherein the heat insulating structure includes a plurality of barriers provided on the outer surface of the storage tank; a plurality of mounting devices for supporting the plurality of barriers on the outer surface of the storage tank, and a powder insulator filled between the outer surfaces of the plurality of barriers and the inner surface of the cargo hold receiving space, each of the barriers comprising the storage It may be provided including a heat insulating plate provided to surround the outer surface of the tank, and a heat insulating cap formed to protrude from the heat insulating plate and joined to the mounting device by welding.

The insulating plate and the insulating cap are integrally formed, and the insulating cap may be provided by plastic working.

The heat insulating plate and the heat insulating cap are provided, respectively, and may be provided by being coupled to each other by welding.

Each of the mounting devices includes a mount member provided on the outer surface of the upper portion and the outer surface of the side portion of the storage tank for bonding to the insulation cap, and a mounting member provided on the outer surface of the lower portion of the storage tank and joined to the insulation cap, but the support structure passes through the inside It may be provided, including a mount bracket having a through portion that is possible formed.

The support structure may include a support stool installed on the bottom surface of the cargo hold accommodation space and a support block provided on an upper side of the support stool to support the bottom surface of the storage tank.

The mount member may be provided by being fixed to the outer surface of the storage tank by stud bolts.

The plurality of barriers may be provided by bonding and sealing adjacent barriers to each other by welding.

A first gas supply unit for supplying and circulating an inert gas between the outer surface of the storage tank and the inner surface of the plurality of barriers may be provided.

A second gas supply unit for supplying and circulating an inert gas between the outer surface of the plurality of barriers and the inner surface of the cargo hold accommodating space may be provided.

Further comprising a first gas detector for detecting the leakage of the liquefied gas from the storage tank, the second gas supply unit increases the supply amount of the inert gas when the first gas detector detects the leakage of the liquefied gas to the plurality of operable to increase the pressure of the inert gas between the outer surface of the barrier and the inner surface of the hold receiving space.

A second gas detector for detecting leakage of liquefied gas from the plurality of barriers may be provided.

The mount bracket may further include a binding portion to which the insulating cap is bonded, and a support rib for supporting the binding portion.

The powder insulator may include at least one of glass bubbles and perlite.

Providing a plurality of support structures on the bottom surface of the cargo hold accommodating space formed in the hull of the floating offshore structure, providing a storage tank provided to accommodate liquefied gas on the support structure of the cargo hold accommodating space, the cargo hold A step of providing a heat insulating structure for insulating the liquefied gas accommodated in the storage tank between the inner surface of the receiving space and the outer surface of the storage tank, wherein the step of providing the heat insulating structure comprises a plurality of mounting on the outer surface of the storage tank A method comprising the steps of installing a device, welding and joining a plurality of barriers to the plurality of mounting devices, respectively, and filling a powder insulating material between the outer surfaces of the plurality of barriers and the inner surface of the cargo hold receiving space. can be

The plurality of barriers each include a heat insulating plate provided to surround the outer surface of the storage tank, and a heat insulating cap protruding from the heat insulating plate and joined to the mounting device by welding, the step of providing the heat insulating structure is the It may be provided by further comprising the step of forming the insulating cap by plastic working.

The plurality of barriers include an insulating plate provided to surround the outer surface of the storage tank, and an insulating cap protruding from the insulating plate and joined to the mounting device by welding, respectively, and the plurality of barriers are welded to each other. Including the steps of disposing the heat insulating plate on the outer surface of the storage tank, joining the heat insulating cap to the mounting device by welding, and joining the heat insulating plate and the heat insulating cap by welding may be provided.

The step of installing the plurality of mounting devices includes the steps of providing a mount member for bonding to the insulation cap on the outer surface of the upper side and the outer surface of the side of the storage tank, and bonding with the insulation cap, but forming the support structure inside to be penetrated It may be provided, including the step of providing a mount bracket having a through portion to be provided on the outer surface of the lower portion of the storage tank.

The step of providing a plurality of support structures on the bottom surface includes installing a support stool on the bottom surface of the cargo hold receiving space and providing a support block for supporting the bottom surface of the storage tank on the upper side of the support stool. can be

The mount member may be fixed to the outer surface of the storage tank by stud bolts.

The step of providing the heat insulating structure may be provided by further including joining and sealing adjacent barriers to each other by welding.

The method may further include providing a first gas supply unit for supplying and circulating an inert gas between the outer surface of the storage tank and the inner surface of the plurality of barriers.

The method may further include providing a second gas supply unit for supplying and circulating an inert gas between the outer surface of the plurality of barriers and the inner surface of the cargo hold receiving space.

A liquefied gas cargo hold and a manufacturing method thereof according to an embodiment of the present invention have the effect of effectively insulating the loaded liquefied gas.

A liquefied gas cargo hold and a method for manufacturing the same according to an embodiment of the present invention have the effect of quickly and easily performing the installation work of the heat insulating structure.

A liquefied gas cargo hold and a manufacturing method thereof according to an embodiment of the present invention have the effect of increasing the liquefied gas loading of the cargo hold while stably performing liquefied gas insulation.

A liquefied gas cargo hold and a manufacturing method thereof according to an embodiment of the present invention have the effect of improving the space utilization of floating offshore structures such as ships in which the liquefied gas cargo holds are installed.

A liquefied gas cargo hold and a method for manufacturing the same according to an embodiment of the present invention have the effect of preventing leakage of liquefied gas and preventing safety accidents due to leakage of liquefied gas in advance.

A liquefied gas cargo hold and a manufacturing method thereof according to an embodiment of the present invention have an effect of stably insulating the loaded liquefied gas with a simple structure.

The liquefied gas cargo hold and its manufacturing method according to an embodiment of the present invention have the effect of improving the efficiency of installation and operation by enabling quick and easy installation as the heat insulating structure has a simple structure.

1 is a cross-sectional view showing a liquefied gas cargo hold according to a first embodiment of the present invention.
Figure 2 is an enlarged view of part A of Figure 1, a cross-sectional view showing a state in which the barrier according to the first embodiment of the present invention is joined to the mount member.
3 is a perspective view showing a barrier according to a first embodiment of the present invention.
4 is an enlarged view of part B of FIG. 1 , and is a view showing a state in which the barrier according to the first embodiment of the present invention is bonded to the mount bracket.
5 is a lower perspective view showing a state in which a mounting device is provided on the storage tank according to the first embodiment of the present invention.
6 is a lower perspective view showing a state in which a plurality of barriers are installed in the mounting apparatus according to the first embodiment of the present invention.
FIG. 7 is an enlarged view of part C of FIG. 1 .
8 is a cross-sectional view showing a modified example of the liquefied gas cargo hold according to the first embodiment of the present invention.
9 is a cross-sectional view showing a state in which the barrier is joined to the mount member according to the second embodiment of the present invention.
10 is a perspective view showing a barrier according to a second embodiment of the present invention.
11 is a view showing a state in which the barrier is bonded to the mount bracket according to the second embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples so that the spirit of the present invention can be sufficiently conveyed to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

1 is a cross-sectional view showing a liquefied gas cargo hold 100 according to a first embodiment of the present invention.

Referring to FIG. 1 , the liquefied gas cargo hold 100 according to the first embodiment of the present invention includes a storage tank 110 for accommodating liquefied gas, and a plurality of support structures 120 provided on the bottom of the cargo hold accommodating space 2 . ), a heat insulating structure 130 provided between the cargo hold accommodation space 2 and the outside of the storage tank 110 to insulate the liquefied gas, the outer surface of the storage tank 110 and a plurality of barriers 131 of the heat insulating structure 130 ) A first gas supply unit 150 for supplying and circulating an inert gas between the inner surfaces of the A second gas detector 142 for detecting a leak may be provided.

In the following embodiments, liquefied natural gas has been applied as an example to aid understanding of the present invention, but it is not limited thereto, and various low-temperature liquefied gases such as liquefied ethane gas and liquefied hydrocarbon gas are applied to the cargo hold. It should be understood as the same technical idea.

Floating offshore structures may consist of various offshore structures that need to accommodate and store low-temperature liquefied natural gas, such as liquefied natural gas carriers, FPSOs (Floating Production Storage and offloading), and LNG FSRUs (Floating Storage and Regasification Units).

The hull 1 of the floating offshore structure may be composed of a double hull structure consisting of an outer plate and an inner plate, and a storage tank 110 to be described later, a support structure 120 and a heat insulating structure inside the hull 1 . A cargo hold receiving space 2 in which 130 and the like are installed and disposed may be formed. An inspection window (not shown) made of a transparent material may be provided in the cargo hold receiving space 2 so that the operator can visually inspect the filling state of the powder insulator 134 , which will be described later.

The storage tank 110 may be provided to accommodate and store liquefied natural gas therein, and may be supported by a plurality of support structures 120 to be disposed in the cargo hold accommodating space 2 . The storage tank 110 may be composed of an independent type tank in which the load of the liquefied natural gas loaded therein acts directly on the inner surface of the storage tank 110 rather than the heat insulating structure 130 , aluminum steel, stainless steel And it may be made of a material of special steel for cryogenic use, such as 35% nickel steel. Liquid dome 111 (Liquid dome) in which various pipes (not shown) for supplying liquefied natural gas to the storage tank 110 or unloading liquefied natural gas from the storage tank 110 are installed on the upper side of the storage tank 110 . may be provided, and a plurality of barriers 131 may be installed on the outside of the storage tank 110 in a state of being in contact with or close to the outer surface of the storage tank 110 by a mounting device. A detailed description thereof will be provided later.

A plurality of support structures 120 may be provided by being dispersedly arranged at regular intervals on the bottom surface of the cargo hold receiving space 2 so as to stably fix and support the storage tank 110 in the cargo hold receiving space 2 .

The insulating structure 130 is provided between the cargo hold receiving space 2 and the outside of the storage tank 110 to insulate the liquefied natural gas accommodated in the storage tank 110 .

The heat insulating structure 130 includes a plurality of barriers 131 provided on the outer surface of the storage tank 110 , a plurality of mounting devices for supporting the plurality of barriers 131 on the outer surface of the storage tank 110 , and a plurality of barriers. A powder insulating material 134 filled between the outer surface of the 131 and the inner surface of the cargo hold receiving space 2 may be provided.

FIG. 2 is an enlarged view of part A of FIG. 1 , and is a cross-sectional view showing a state in which the barrier 131 is joined to the mount member 132 according to the first embodiment of the present invention, and FIG. 3 is the first embodiment of the present invention. It is a perspective view showing the barrier 131 according to the embodiment. In addition, FIG. 4 is an enlarged view of part B of FIG. 1 , and is a view showing a state in which the barrier 131 is bonded to the mount bracket 133 according to the first embodiment of the present invention, and FIG. 5 is a view of the present invention. It is a lower perspective view showing a state in which the mounting device is provided on the storage tank according to the first embodiment. 6 is a lower perspective view showing a state in which a plurality of barriers 131 are installed in the mounting apparatus according to the first embodiment of the present invention.

1 to 6 , a plurality of support structures 120 include a support stool 121 installed on a bottom surface of the cargo hold receiving space 2 , an upper portion of the support stool 121 , and a bottom surface of the storage tank 110 . Each of the support blocks 122 disposed therebetween may be provided.

The support stool 121 is fixedly installed on the bottom surface of the cargo hold accommodating space 2 to fix and support the storage tank 110 on the cargo hold accommodating space 2 , and the support block 122 is the support stool 121 of the support stool 121 . It is interposed between the upper surface and the bottom surface of the storage tank 110 to support the storage tank 110 together with the support stool 121, but the cooling heat of the liquefied natural gas accommodated in the storage tank 110 is transferred to the cargo hold receiving space (2). designed to prevent it from happening. To this end, the support block 122 stably withstands the load of the storage tank 110 and the liquefied natural gas accommodated therein and has a low thermal conductivity so that the cold heat of the liquefied natural gas is not transferred to the cargo hold accommodation space (2). It may be made of a material such as

The support structure 120 may support the bottom surface of the storage tank 110 by penetrating the through portion 133a of the mount bracket 133, which will be described later. ) is shown as being installed in three sets on the cross section, but the number may be variously changed according to the size of the storage tank 110 .

A plurality of barriers 131 of the heat insulating structure 130 may be installed in a plurality of upper, side, and lower portions of the storage tank 110 to surround the outer surface of the storage tank (110). The plurality of barriers 131 may be made of a material of special cryogenic steel such as aluminum steel, stainless steel, and 35% nickel steel, like the storage tank 110 .

1 to 6, each barrier 131 is formed to protrude from the heat insulating plate 131a and the heat insulating plate 131a provided to surround the outer surface of the storage tank 110, and the mounting device and welding (W) It may be provided to include a thermal insulation cap (131b) joined by the.

The insulating plate 131a is provided in contact with or adjacent to the outer surface of the storage tank 110 . The heat insulation plate 131a is provided to surround the outer surface of the storage tank 110 , and can implement stable insulation of the liquefied natural gas accommodated in the storage tank 110 . The insulating cap 131b is formed to protrude from the insulating plate 131a, and is provided to be joined and sealed by welding (W) with a mount member 132 and a mount bracket 133 of a mounting device to be described later, and a plurality of barriers ( The 131 may be joined and sealed by overlap welding, in which edges are overlapped and welded in an overlapping state with each other between the unit barriers 131 adjacent to each other.

The heat insulating plate 131a and the heat insulating cap 131b may be integrally formed through plastic working. Through this, it can stably withstand thermal stress such as thermal contraction or thermal expansion applied to the barrier 131 by the cooling heat of the liquefied natural gas contained in the storage tank 110 , and damage to the storage tank 110 . Even if the leakage of liquefied natural gas occurs due to the occurrence of a leak, the leakage may be induced to flow downward along the inner surface of the plurality of barriers 131 while stably confining the leakage inside the barrier 131 . In addition, even if there is no equipment such as a separate drip tray, the structure can be simplified because the leaked liquid can be collected to a predetermined position inside the barrier 131 and guided to flow down, and the cooling and heat of the leaking liquid can be transferred to the hull. It can be prevented from acting directly on (1).

Furthermore, in the space between the inner surface of the plurality of barriers 131 and the outer surface of the storage tank 110 , an inert gas such as nitrogen is supplied and circulated by a first gas supply unit 150 to be described later, thereby damaging the storage tank 110 . Even if a leak occurs due to a leak, the occurrence of safety accidents such as explosions and fires can be minimized by the inert gas. A detailed description thereof will be provided later.

The mounting device is a plurality of barriers 131 between the outer surface of the storage tank 110 and the inner surface of the plurality of barriers 131 so as to fix and support the plurality of barriers 131 on the outer surface of the storage tank 110 to be distributed at a predetermined interval. can

2 to 6 , the mounting device is provided on the outer surface of the upper side and the outer surface of the side of the storage tank 110 , and the mount member 132 and the storage tank 110 for bonding to the insulating cap 131b of the barrier 131 ) It may be provided including a mount bracket 133 provided on the outer surface of the lower portion of the storage tank 110 of the barrier 131 and bonding to the insulation cap (131b).

The mount member 132 may be fixedly installed on the outer surface of the upper part and the outer surface of the side part of the storage tank by a fixing member such as a stud bolt 135 . The mount member 132 is formed in the shape of a disk, and the insulating cap 131b of the barrier 131 is welded (W) to the upper surface to be joined and combined. The mount member 132 may be made of the same material as the storage tank 110 or the barrier 131 or a material having a similar thermal expansion rate, and the cooling and heat of the liquefied natural gas accommodated in the storage tank 110 is directed toward the barrier 131 . It may be made of a material with high thermal conductivity to be well transferred. Accordingly, the storage tank 110 and the plurality of barriers 131 surrounding the outer surface of the storage tank 110 have the same thermal contraction behavior and thermal expansion behavior to minimize the thermal stress applied to the plurality of barriers 131 . can The insulating cap 131b of the barrier 131 may be sealed by being joined to the mount member 132 along the through hole 131c on the inside by welding W.

The mount bracket 133 may be fixedly installed on the outer surface of the lower portion of the storage tank 110 by welding (W) or the like. The mount bracket 133 includes a binding portion 133b to which the insulating cap 131b of the barrier 131 is welded (W) to bond and combine, and a penetration through which a support structure is formed inside the binding portion 133b to be penetrated. It may be provided to include a plurality of support ribs (133c) for supporting the portion (133a) and the binding portion (133b) on the storage tank (110). The heat insulating cap 131b of the barrier 131 to be welded (W) joined to the mount bracket 133 has a through hole 131c formed in a shape corresponding to the shape of the coupling portion 133b of the mount bracket 133 on the inside. The barrier 131 may be fixed and supported by the mount bracket 133 by welding (W) the through hole 131c of the insulating cap 131b and the mount bracket 133 to each other. The through portion 133a of the mount bracket 133 is formed in a shape corresponding to the shape of the support block 122 of the support structure 120 , so that the support block 122 forms the through portion 133a of the mount bracket 133 . It is possible to support the storage tank 110 through it. The support rib 133c may be fixedly installed between the binding part 133b and the storage tank 110 by welding or the like to reinforce the supporting force of the binding part 133b.

The powder insulator 134 may be filled between the outer surface of the plurality of barriers 131 and the inner surface of the cargo hold accommodation space 2 to insulate the liquefied natural gas accommodated in the storage tank 110 . The powder insulator 134 may be formed in an independent powder form and may be filled while filling the space between the outer surface of the plurality of barriers 131 and the inner surface of the cargo hold accommodation space 2 by a filling pump (not shown). Rather than installing a separate heat insulating layer on the storage tank 110, the powder heat insulating material 134 can be quickly filled, so that the manufacture and installation of the liquefied gas cargo hold can be easily and quickly performed. The powder insulator 134 may include at least one of glass bubble and perlite having excellent thermal insulation properties.

The first gas supply unit 150 is provided to supply and circulate an inert gas between the outer surface of the storage tank 110 and the inner surface of the plurality of barriers 131 . The first gas supply unit 150 may supply the inert gas to the inside of the plurality of barriers 131 through the supply pipe 151 by means of an air pump (not shown), and the plurality of barriers 131 through the discharge pipe 152 . It is possible to circulate the inert gas by discharging the coarse inert gas. The inert gas may be provided including nitrogen, argon, and the like, and the inert gas is supplied and circulated to the inner space of the plurality of barriers 131 by the first gas supply unit 150 , thereby causing damage to the storage tank 110 , etc. Even if the liquefied natural gas loaded in the storage tank 110 leaks into the space inside the plurality of barriers 131 , it is possible to minimize the risk of safety accidents such as fire and explosion.

In addition, although not shown in the drawing, a pressure sensor is provided between the outer surface of the storage tank 110 and the inner surface of the plurality of barriers 131 , and the pressure sensor measures the pressure change in the inner space of the plurality of barriers 131 , and the pressure Whether the plurality of barriers 131 or the storage tank 110 is cracked can be detected by detecting a pressure change such as a drop or a pressure rise.

7 is an enlarged view of part C of FIG. 1 . Referring to FIG. 6 , the first gas detector 141 may be provided to detect leakage of liquefied natural gas from the storage tank 110 , and the second gas The detector 142 may be provided in a space between the inner surface of the cargo hold accommodating space 2 and the outer surface of the plurality of barriers 131 to detect leakage of liquefied gas from the plurality of barriers 131 . The first gas detector 141 and the second gas detector 142 may include a methane detector that detects methane, which is a main component of liquefied natural gas.

8 is a cross-sectional view showing a modified example of the liquefied gas cargo hold according to the first embodiment of the present invention. Referring to FIG. 8, the modified example of the liquefied gas cargo hold according to the first embodiment of the present invention is a plurality of barriers 131 ) may be provided to further include a second gas supply unit 160 for supplying and circulating an inert gas between the outer surface and the inner surface of the cargo hold accommodation space (2).

The second gas supply unit 160 is provided to supply and circulate an inert gas to the space filled with the powder insulator 134 between the outer surface of the plurality of barriers 131 and the inner surface of the cargo hold accommodation space 2 . The second gas supply unit 160 may supply the inert gas to the powder insulator 134 side between the outer surface of the plurality of barriers 131 and the inner surface of the cargo hold accommodation space 2 by an air pump (not shown). It is possible to supply and circulate the inert gas by discharging the inert gas circulated between the outer surface of the dog wall 131 and the inner surface of the cargo hold receiving space 2 . The inert gas may be provided including nitrogen, argon, etc., and the inert gas is supplied and circulated to the space between the outside of the plurality of barriers 131 and the inside of the cargo hold accommodation space 2 by the second gas supply unit 350 . As a result, even if the liquefied natural gas loaded inside the storage tank 110 leaks into the space outside the plurality of barriers 131 due to the damage of the storage tank 110 and the barrier 131, the risk of safety accidents such as fire and explosion is reduced. can be minimized

In addition, although not shown in the drawings, a pressure sensor is provided between the outer surface of the plurality of barriers 131 and the inner surface of the cargo hold accommodating space 2 , and the pressure sensor includes the plurality of barriers 131 outside and the cargo hold accommodating space 2 . It is possible to detect whether the storage tank 110 and the plurality of barriers 131 are cracked by measuring the pressure change in the space between the inside of the storage tank 110 and detecting the pressure change such as pressure drop or pressure rise.

The second gas supply unit 160 increases the supply amount of the inert gas when the first gas detector 141 detects the leakage of the liquefied natural gas from the storage tank 110 to the outer surface of the plurality of barriers 131 and the cargo hold accommodating space. (2) can operate to increase the pressure of the inert gas between the inner surfaces. As a result, even if cracks occur in the storage tank 110 and the liquefied natural gas leaks from the storage tank 110 , the second gas supply unit 160 is connected to the outer surface of the plurality of barriers 131 and the interior of the cargo hold receiving space 2 . By increasing the pressure of the inert gas between the sides, the hydrostatic pressure applied to the plurality of barriers 131 by the leaked liquefied natural gas is minimized, and the leaked liquefied natural gas is stably accommodated inside the plurality of barriers 131 . can be

Hereinafter, the liquefied gas cargo hold 200 according to the second embodiment of the present invention will be described.

In the description of the liquefied gas cargo hold 200 according to the second embodiment of the present invention to be described below, the liquefied gas cargo hold 100 according to the first embodiment of the present invention as described above, except when additionally described with separate reference numerals. ) and the description is omitted to prevent duplication of content.

9 is a cross-sectional view showing a state in which the barrier 231 is joined to the mount member 132 according to the second embodiment of the present invention, and FIG. 10 is a perspective view showing the barrier 231 according to the second embodiment of the present invention. am. 11 is a view showing a state in which the barrier 231 is bonded to the mount bracket 133 according to the second embodiment of the present invention.

9 to 11 , the heat insulation structure 130 of the liquefied gas cargo hold according to the second embodiment of the present invention has a plurality of barriers 231 provided on the outer surface of the storage tank 110 . And, a plurality of mounting devices for supporting the plurality of barriers 231 on the outer surface of the storage tank 110, and a powder insulating material 134 filled between the outer surface of the plurality of barriers 231 and the inner surface of the cargo hold accommodation space (2) ) may be provided.

Each barrier 231 is formed to protrude from the heat insulating plate 231a and the heat insulating plate 231a provided to surround the outer surface of the storage tank 110, and the insulating cap 231b is joined by a mounting device and welding (W). Including, the insulating plate (231a) and the insulating cap (231b) may be provided as each member is coupled to each other by welding (W).

The insulating plate 231a and the insulating cap 231b, each provided as separate members, may be made of a material of special cryogenic steel, such as aluminum steel, stainless steel, and 35% nickel steel, like the storage tank 110 . The insulating plate 231a is provided in contact with or adjacent to the outer surface of the storage tank 110 . The heat insulating plate 231a is provided to surround the outer surface of the storage tank 110 , and can implement stable thermal insulation of the liquefied natural gas accommodated in the storage tank 110 . The insulating cap 231b is coupled to the insulating plate 231a by welding (W), and at the same time, it can be provided to be joined and sealed by welding (W) with the mount member 132 and the mount bracket 133 of the mounting device. In addition, the plurality of barriers 231 may be joined and sealed by overlap welding, in which edges are overlapped with each other in an overlapping state between adjacent unit barriers 231 .

The insulating cap 231b may be coupled to the upper side of the insulating plate 231a by overlap welding (W), and the insulating cap 231b is a mount member 132 or a mount bracket ( 133) and the welding (W) may be joined and sealed. Through this, it can stably withstand thermal stress such as thermal contraction or thermal expansion applied to the barrier 231 by the cooling heat of the liquefied natural gas contained in the storage tank 110 , and damage to the storage tank 110 . Even if the leakage of liquefied natural gas occurs, the leakage may be stably confined inside the barrier 231 , and the leakage may be induced to flow downward along the inner surface of the plurality of barriers 231 . In addition, even if there is no equipment such as a separate drip tray, the structure can be simplified because the leaked liquid can be collected and guided to a predetermined position inside the barrier 231 to flow down, and the cooling and heat of the leaked liquid can be transferred to the hull. It can be prevented from acting directly on (1).

Hereinafter, a method for manufacturing a liquefied gas cargo hold according to an embodiment of the present invention will be described.

The method of manufacturing a liquefied gas cargo hold according to an embodiment of the present invention includes the steps of installing the support structure 120 in the cargo hold receiving space 2 formed in the hull 1, and the cargo hold receiving space of the storage tank 110 ( 2) of disposing on the support structure 120, and between the inner surface of the cargo hold accommodating space 2 and the outer surface of the storage tank 110, an insulating structure for insulating the liquefied natural gas accommodated in the storage tank 110 ( 130) and providing a first gas supply unit 150 for supplying and circulating an inert gas between the outer surface of the storage tank 110 and the inner surface of the plurality of barriers 131 and 231 of the heat insulating structure 130 and providing a second gas supply unit 160 for supplying and circulating an inert gas between the outer surfaces of the plurality of barriers 131 and 231 of the insulating structure 130 and the inner surface of the cargo hold receiving space 2 . can do.

First, the step of providing the support structure 120 for supporting the bottom surface of the storage tank 110 in the cargo hold receiving space (2) formed in the hull (1) of the floating offshore structure is performed. The step of providing the support structure 120 includes the steps of fixing and installing the support stool 121 on the bottom of the cargo hold receiving space 2 and the support block 122 that supports the bottom of the storage tank 110 as a support stool ( 121) may include the step of providing the upper portion. After the support structure 120 is provided in the cargo hold accommodation space 2 , a step of providing a storage tank 110 accommodating liquefied natural gas therein is performed on the support structure 120 .

Thereafter, the step of providing the insulating structure 130 between the inner surface of the cargo hold receiving space 2 and the outer surface of the storage tank 110 is performed.

The step of preparing the heat insulating structure 130 is a step of installing a plurality of mounting devices on the outer surface of the storage tank 110, and welding (W) a plurality of barriers 131 and 231 to the plurality of mounting devices, respectively. and filling the powder insulating material 134 between the outer surfaces of the plurality of barriers 131 and 231 and the inner surface of the cargo hold accommodating space 2 .

The step of installing a plurality of mounting devices on the outer surface of the storage tank 110 is a step of providing a mount member 132 on the outer surface of the upper part and the outer surface of the side part of the storage tank 110, and the mount bracket 133 is mounted on the storage tank ( 110) comprising the step of providing the outer surface of the lower side. The mount member 132 may be fixed to the outer surface of the upper portion and the outer surface of the side portion of the storage tank 110 by a stud bolt 135 , and the mount bracket 133 is a penetrating portion through which the support structure 120 is formed to pass through. (133a) may be provided to be installed on the outer surface of the lower portion of the storage tank (110).

On the other hand, like the barrier 131 according to the first embodiment of the present invention described above, the barrier 131 is formed to protrude from the heat insulating plate 131a and the heat insulating plate 131a which are provided to surround the outer surface of the storage tank and are mounted. When the device and the heat insulating cap 131b joined by welding W are provided integrally, the step of providing the heat insulating structure 130 is formed by plastic working the heat insulating cap 131b on the heat insulating plate 131a. It may further include the step of

On the other hand, like the barrier 231 according to the second embodiment of the present invention described above, when the barrier 231 is formed of a separate member of the insulating plate 231a and the insulating cap 231b, a plurality of barriers 231 ) by welding (W), respectively, the step of arranging the insulating plate 231a on the outer surface of the storage tank 110, and disposing the outside of the insulating cap 231b to cover the outer surface of the insulating plate 231a. and joining the through hole 231c formed on the inside of the insulating cap 231b with the mount member 132 or the mount bracket 133 of the mounting device by welding (W); It may include coupling the outer side of the cap 231b by welding (W).

In addition, in the step of preparing the insulating structure 130, a plurality of barriers 131 and 231 are respectively welded (W) to a plurality of mounting devices and joined, and then adjacent barriers 131 and 231 are welded to each other. It may further include the step of joining and sealing by (W), and the step of filling the powder insulation 134 between the outer surface of the plurality of barriers 131 and 231 and the inner surface of the cargo hold receiving space 2 is performed. can

Before or after performing the step of preparing the insulating structure 130, inert between the outer surface of the storage tank 110 and the inner surface of the plurality of barriers 131, 231 to promote structural stability of the liquefied gas cargo hold and prevent safety accidents The step of providing the first gas supply unit 150 for supplying and circulating gas may be performed. In addition, the step of providing a second gas supply unit 160 for supplying and circulating an inert gas between the outer surface of the plurality of barriers 131 and 231 and the inner surface of the cargo hold receiving space may be performed.

Although the present invention has been described with reference to an embodiment shown in the accompanying drawings, this is merely an example, and it is understood that various modifications and equivalent other embodiments are possible by those skilled in the art. You will understand. Accordingly, the true scope of the invention should be defined only by the appended claims.

100, 200: liquefied gas cargo hold
110: storage tank 120: support structure
121: support stool 122: support block
130: insulation structure 131, 231: barrier
131a, 231a: insulation plate 131b, 231b: insulation cap
132: mount member 133: mount bracket
134: powder insulation 150: first gas supply unit
160: second gas supply unit

Claims (22)

a storage tank provided to accommodate liquefied gas and disposed in a cargo hold receiving space formed in the hull of a floating offshore structure;
a plurality of support structures provided on the lower surface of the cargo hold receiving space to support the storage tank; and
Including; and a heat insulating structure provided between the inner surface of the cargo hold receiving space and the outer surface of the storage tank to insulate the liquefied gas accommodated in the storage tank,
The insulating structure is
A plurality of barriers provided on the outer surface of the storage tank, a plurality of mounting devices for supporting the plurality of barriers on the outer surface of the storage tank, and an outer surface of the plurality of barriers and an inner surface of the cargo hold accommodating space powder insulation,
Each of the barriers
A heat insulating plate provided to surround the outer surface of the storage tank, and a heat insulating cap formed to protrude from the heat insulating plate and joined to the mounting device by welding,
The insulating plate and the insulating cap are integrally formed,
The insulation cap is a liquefied gas cargo hold provided by plastic working. According to claim 1,
Each of the mounting devices
A mount member provided on the outer surface of the upper portion and the outer surface of the side portion of the storage tank and joined to the insulation cap, and a through portion provided on the outer surface of the lower portion of the storage tank and joined to the insulation cap, but having the support structure penetrated therein A liquefied gas cargo hold comprising a mount bracket having. 3. The method of claim 2,
The support structure is
A liquefied gas cargo hold comprising a support stool installed on a bottom surface of the cargo hold accommodation space and a support block provided on an upper side of the support stool to support the bottom surface of the storage tank. 4. The method of claim 3,
The mount member is
It is provided fixed by stud bolts on the outer surface of the storage tank,
The plurality of barriers
Adjacent barriers are joined and sealed by welding to each other,
a first gas supply unit for supplying and circulating an inert gas between the outer surface of the storage tank and the inner surface of the plurality of barriers;
Liquefied gas cargo hold further comprising a second gas supply unit for supplying and circulating an inert gas between the outer surface of the plurality of barriers and the inner surface of the cargo hold receiving space. 5. The method of claim 4,
A first gas detector for detecting leakage of liquefied gas from the storage tank, and a second gas detector for detecting leakage of liquefied gas from the plurality of barriers,
The second gas supply unit
When the first gas detector detects the leakage of liquefied gas, the supply amount of the inert gas is increased to increase the pressure of the inert gas between the outer surface of the plurality of barriers and the inner surface of the cargo hold receiving space. . delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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