KR102603746B1 - Dome barrier structure of independence type storage tank - Google Patents

Abstract

A dome barrier structure for an independent storage tank that performs insulation and sealing functions around a dome installed on the top of an independent storage tank is disclosed.
The dome barrier structure of the independent storage tank includes a side insulation 44 installed around the dome body 42 extending upward from the tank body 22 of the independent storage tank; an upper insulating material (48) installed on the upper part of the dome cover (46) covering the upper part of the dome body; It may include a cover side insulator 60 installed on the side of the dome cover.

Description

Dome barrier structure of independent storage tank {DOME BARRIER STRUCTURE OF INDEPENDENCE TYPE STORAGE TANK}

The present invention relates to a dome barrier structure of an independent storage tank for storing liquefied gases such as LNG or LPG. More specifically, the present invention relates to a dome barrier structure around a dome installed at the top of an independent storage tank to allow various pipes to pass through. It relates to a dome barrier structure that performs insulation and sealing functions.

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

Liquefied gas carriers that carry liquefied gas such as LNG or LPG and sail the sea to unload the liquefied gas shipped from the production site at the point of demand have a storage tank (commonly called a 'cargo hold') that can withstand the extremely low temperature of the liquefied gas. Includes.

In addition to liquefied gas carriers, storage tanks that can accommodate liquefied gas can also be installed in floating plants such as LNG FPSO (Floating, Production, Storage and Offloading) and LNG FSRU (Floating Storage and Regasification Unit).

Recently, in order to curb environmental pollution, the number of ships (LNG propulsion ships) propelled by engines using LNG, a clean fuel, has been increasing, and these LNG propulsion ships also have liquefied gas storage tanks that can store LNG as fuel. It is mounted. In addition, as the number of LNG propulsion ships increases, LNG bunkering ships that can visit LNG propulsion ships to supply fuel have been developed, and fuel supply ships also have liquefied gas storage tanks installed inside the hull.

In this way, ships such as LNG carriers, LNG RVs, LNG propulsion ships, and fuel supply ships that transport or store liquefied gas such as LNG as cargo or store it as fuel, or in floating plants such as LNG FPSO and LNG FSRU, contain LNG, etc. A liquefied gas storage tank is installed to store liquefied gas at extremely low temperatures.

Liquefied gas storage tanks can be classified into independent type and membrane type depending on whether the load of the cargo acts directly on the insulation material. Typically, membrane-type storage tanks are divided into GT NO 96 type and TGZ Mark III type, and independent storage tanks can be divided into MOSS type and SPB type.

Independent storage tanks can be classified into type A, type B, type C, etc. according to the classification criteria in the IMO IGC code. Among them, in general, in the case of IMO type A tanks, there is a problem that it is impossible to implement a secondary barrier for cryogenic cargo such as LNG with the steel used in the hull. Additionally, in the case of the IMO type C tank, it is a pressure vessel type tank, so it is difficult to manufacture a large capacity tank.

Considering this, the IMO type B tank is receiving attention as an independent storage tank used to transport or store cryogenic liquefied gas such as LNG. In general, among independent storage tanks, IMO type B tanks are made by attaching a relatively hard insulating panel such as polyurethane to the outside of the tank body made of metal with good characteristics at extremely low temperatures such as stainless steel and aluminum alloy, and the inner bottom of the hull. It is placed on a plurality of tank supports arranged in. The structure of a tank support for supporting an independent storage tank is described in Japanese Patent Laid-Open No. 60-26900, Japanese Patent Laid-Open No. 7-52870, and Korean Patent No. 10-189306.

Figure 1 shows an example of a stand-alone storage tank.

As illustrated in FIG. 1, the independent storage tank 20 may be installed in a space formed inside the hull 10. The independent storage tank 20 is made of a metal material that can withstand extremely low temperatures and includes a tank body 22 that functions as a primary sealing wall, and an insulation layer 24 installed to surround the outside of the tank body 22. ) and a drip tray installed outside the insulating layer 24 to perform the function of a secondary sealing wall by collecting and temporarily storing the leaked liquid when a liquefied gas leak occurs from the tank body 22.

The drip tray is usually placed between the independent storage tank 20 and the bottom of the interior space of the hull 10, and is especially placed at a location where leaked liquid from the tank body 22 can flow down and collect.

The independent storage tank 20 is seated and supported on a plurality of tank supports 30 arranged at the bottom of the interior space of the hull 10. Each tank support 30 is in contact with the tank body 22 and supports the tank body 22, and the heat insulating layer 24 is not formed at the position where the tank support 30 is disposed, as shown in FIG. 1 As shown, the tank support 30 is formed to penetrate the insulation layer 24.

In addition, in order to install a pipe for loading and unloading liquefied gas into the independent storage tank 20 or a pipe for discharging boil-off gas generated from the liquefied gas, the insulation layer 24 is installed on the upper part of the independent storage tank 20. ) A dome 40 (eg, a gas dome or a liquid dome) extending from the tank body 22 must be formed to penetrate the tank body 22. The dome 40 formed on the upper part of the independent storage tank passes through the upper wall 10a of the hull 10 and protrudes from the inside of the hull to the outside of the hull.

As described above, the independent storage tank 20 is installed inside the ship by being supported by a plurality of tank supports 30, and the tank support 30 includes a wooden block 32 made of wood. You can.

When loading liquefied gas (LNG, etc.), which is a cryogenic cargo, into the independent storage tank 20, thermal contraction occurs and when unloading the liquefied gas, thermal expansion occurs. Therefore, the independent storage tank 20 has a tank body 22 and a tank support 30. ) is manufactured so that it can slide on the surface. When such thermal deformation occurs, relative behavior may occur between the independent storage tank and the hull, and in particular, the upper wall (10a) of the hull and the dome (40) of the independent storage tank can be sealed and insulated while allowing such relative behavior. must be connected to do so.

Figure 2 is an enlarged partial cross-sectional view showing the area around the dome 40 of an independent storage tank, where the insulation layer 24 is formed on the outside of the tank body 22 and the insulation material 44 is also attached around the dome 40. By doing so, it shows the dome barrier structure of an independent storage tank that forms an insulation layer.

Referring to Figure 2, a side insulation material 44 is attached around the dome body 42 extending upward from the tank body 22, and an upper insulation material is attached to the top of the dome cover 46 that covers the dome body 42. By attaching (48), a dome barrier structure of an independent storage tank is formed. Additionally, a flexible sealing member 50 is installed between the upper wall 10a of the hull and the dome cover 46 to prevent the intrusion of external air.

However, when constructing a dome barrier structure as shown in Figure 2, no insulation material is installed on the side of the dome cover 46, so heat inflow occurs through the side of the dome cover 46, and the storage tank There is a concern that the vaporization rate of the liquefied gas contained in will increase.

In addition, the dome barrier structure of such an independent storage tank is damaged when thermal deformation occurs during repeated loading and unloading of liquefied gas or when shaking occurs in the storage tank during navigation, and the sealing and insulation barrier between the hull and the dome are damaged. There is a risk that outside air may flow in or that insulation performance may deteriorate.

The present invention is intended to solve the problems described above, and aims to provide a dome barrier structure for an independent storage tank that can stably perform the insulation and sealing functions around the dome installed on the upper part of the independent storage tank.

According to one aspect of the present invention for achieving the above object, there is a dome barrier structure of an independent storage tank that performs an insulating and sealing function around the dome installed on the upper part of the independent storage tank. a side insulation installed around the dome body extending upward; an upper insulating material installed on the upper part of the dome cover that covers the upper part of the dome body; A cover side insulator installed on a side of the dome cover; A dome barrier structure of an independent storage tank can be provided, characterized in that it includes.

The dome barrier structure of the independent storage tank may further include a sealing member installed between the upper wall of the hull and the dome cover to prevent external air from entering the interior space of the hull.

The cover side insulator may be installed to surround the sealing member.

The cover side insulation forms a continuous insulation layer from the upper insulation, and the cover side insulation extends downward from the upper insulation, passes through the dome cover, and may be installed to contact the upper wall of the hull.

The cover side insulation may include a flexible or stretchable portion to allow relative movement between the dome cover and the hull.

The cover side insulation may include a first portion attached to the top insulation to move with the dome cover, and a second portion attached to the upper wall of the hull to move with the hull.

The first part and the second part may be installed to enable relative movement between them.

The cover side insulation may be slidably installed on the upper wall of the hull.

According to another aspect of the present invention, there is provided an independent storage tank capable of storing liquefied gas, comprising: a tank body made of a metal material capable of withstanding extremely low temperatures; an insulating layer installed to surround the outside of the tank body; a dome installed on the upper part of the tank body to provide a passage for pipes; A dome barrier structure that performs insulation and sealing functions around the dome; It includes a dome barrier structure, a side insulating material installed around the dome body extending upward from the tank body, an upper insulating material installed on the upper part of the dome cover that covers the upper part of the dome body, and the dome cover An independent storage tank may be provided, characterized in that it includes a cover side insulation material installed on the side of.

According to the present invention, a dome barrier structure for an independent storage tank that can stably perform the insulation and sealing functions around the dome installed on the upper part of the independent storage tank can be provided.

According to the dome barrier structure of an independent storage tank according to the present invention, it is possible to prevent heat inflow through the side of the dome cover by installing an insulation material on the side of the dome cover.

In addition, according to the dome barrier structure of the independent storage tank according to the present invention, even when thermal deformation occurs during repeated loading and unloading of liquefied gas or shaking occurs in the storage tank during navigation, sealing and sealing between the hull and the dome are maintained. It is possible to perform stable insulation and sealing functions without damaging the insulation barrier.

Figure 1 is a schematic cross-sectional view of a ship equipped with an independent storage tank.
Figure 2 is an enlarged partial cross-sectional view showing the area around the dome of an independent storage tank.
Figure 3 is a partial cross-sectional view showing the dome barrier structure of an independent storage tank around the dome according to one embodiment of the present invention.

Hereinafter, the dome barrier structure of an independent storage tank according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

Figure 3 shows a partial cross-sectional view showing the dome barrier structure of an independent storage tank around the dome, according to one embodiment of the present invention.

As shown in Figure 3, the dome barrier structure of an independent storage tank according to an embodiment of the present invention includes a side insulation installed around the dome body 42 extending upward from the tank body 22 of the independent storage tank. (44), the upper insulating material 48 installed on the upper part of the dome cover 46 that covers the upper part of the dome body 42, and the upper wall 10a of the hull and the dome cover 46, installed between the upper wall 10a of the hull and the dome cover 46, It includes a sealing member 50 that prevents external air from entering the internal space.

The dome barrier structure of an independent storage tank according to an embodiment of the present invention may further include a cover side insulator 60 installed on the side of the dome cover 46.

The cover side insulation 60 forms a continuous insulation layer from the upper insulation 48, and is installed to extend downward from the upper insulation 48, pass through the dome cover 46, and contact the upper wall 10a of the hull. do. Accordingly, the sealing member 50 may be surrounded by the cover side insulating material 60.

The sealing member 50 seals between the lower surface of the dome cover 46 and the upper surface of the upper wall 10a of the hull and allows relative movement between the dome cover 46 and the hull 10. Includes a flexible part.

Additionally, the cover side insulation 60, similar to the seal member 50, may include portions that are flexible or stretchable to allow relative movement between the dome cover 46 and the hull 10.

The cover side insulation 60 has a first portion 62 attached to the top insulation 48 so as to be able to move with the dome cover 46, and an upper wall of the hull to be able to move with the hull 10 ( It may include a second part 64 attached to 10a). At least one of the first part 62 and the second part 64 may be made of a material having flexibility or elasticity.

According to one embodiment, the first part 62 and the second part 64 may be installed to enable relative movement between them. For example, the first part 62 and the second part 64 may be configured to slidably contact each other.

According to one embodiment, the cover side insulation 60 (eg second portion 64) may be slidably installed on the upper wall 10a of the hull.

As described above with reference to FIG. 1, an independent storage tank equipped with a dome barrier structure according to an embodiment of the present invention may be installed in a space formed inside the hull. Similar to the independent storage tank shown in FIG. 1, the independent storage tank with a dome barrier structure according to an embodiment of the present invention is a tank made of a metal material that can withstand extremely low temperatures and functions as a primary sealing wall. A body 22, a heat insulating layer 24 installed to surround the outside of the tank body 22, and a leaking liquid provided on the outside of the heat insulating layer 24 when liquefied gas leaks from the tank body 22. It includes a drip tray (not shown) that performs the function of a secondary sealing wall by collecting and temporarily storing the.

A plurality of drip trays can be appropriately placed in required locations. The drip tray is, for example, disposed between the tank body of an independent storage tank and the bottom of the interior space of the hull, and is especially disposed at a location where leaked liquid from the tank body can flow down and collect.

In the upper part of the independent storage tank 20, an insulating layer 24 is installed in order to install pipes for loading and unloading liquefied gas into the independent storage tank 20 and pipes for discharging boil-off gas generated from the liquefied gas. A dome 40 (eg, a gas dome or a liquid dome) extending from the tank body 22 to penetrate must be formed. The dome 40 formed on the upper part of the independent storage tank passes through the upper wall 10a of the hull 10 and protrudes from the inside of the hull to the outside of the hull. In FIG. 3 , various pipes installed to pass through the dome 40 are not shown for convenience.

The independent storage tank is seated and supported on a plurality of tank supports 30 arranged at the bottom of the interior space of the hull. Each tank supporter 30 is in contact with the tank body 22 and supports the tank body 22, and the heat insulating layer 24 is not installed at the position where the tank supporter 30 is disposed.

The insulation layer 24 disposed on the outside of the tank body 22 is foam-molded by spraying or injecting polyurethane directly onto the external surface of the tank body 22 at the storage tank manufacturing site. It can be formed by doing.

Alternatively, the insulation layer 24 disposed on the outside of the tank body 22 may be formed, for example, by arranging a plurality of insulation panels on the outside of the tank body 22. The insulation panel may be manufactured in advance at a separate location to have a certain size and thickness, then transported to the storage tank construction site and attached to the tank body 22. The insulating panel may be made of an insulating material, for example, polyurethane (or reinforced polyurethane), and has at least one surface of the insulating material (e.g., insulating material) to prevent damage to the insulating material and to facilitate manufacturing and handling. A material with higher strength than the insulating material may be integrally attached to the upper and lower surfaces of the material.

As described above, according to the dome barrier structure according to an embodiment of the present invention, as the cover side insulator 60 is installed on the side of the dome cover 46, heat inflow through the side of the dome cover 46. can be blocked. As a result, it is possible to suppress an increase in the vaporization rate of the liquefied gas contained in the storage tank.

In addition, due to the nature of the independent storage tank installed on the tank support in the inner space of the hull, even if thermal deformation occurs in the tank body or shaking or distortion occurs during operation, the dome barrier structure according to an embodiment of the present invention According to this, a structure is formed in which the sealing member 50 that seals between the lower surface of the dome cover 46 and the upper surface of the upper wall 10a of the hull is surrounded from the outside by the cover side insulating material 60. This makes it possible to secure more stable sealing and insulation performance.

As such, in the detailed description of the present invention, specific embodiments have been described, but of course, various modifications are possible without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims described below as well as equivalents to these claims.

22: tank body (of independent storage tank), 24: insulation layer (of independent storage tank), 30: tank support, 32: wooden block (of tank support), 40: dome, 42: dome body, 44: side insulation, 46: dome cover, 48: top insulation, 50: sealing member, 60: cover side insulation, 62: first part, 64: second part.

Claims (9)

It is a dome barrier structure of an independent storage tank that performs insulation and sealing functions around the dome installed at the top of the independent storage tank,
a side insulation installed around a dome body extending upward from the tank body of the independent storage tank;
an upper insulating material installed on the upper part of the dome cover that covers the upper part of the dome body;
A cover side insulator installed on a side of the dome cover;
Includes,
The cover side insulating material forms a continuous insulating layer from the upper insulating material, and the cover side insulating material extends downward from the upper insulating material, passes through the dome cover, and is installed to contact the upper wall of the hull,
A dome barrier structure of an independent storage tank, characterized in that the cover side insulation is slidably installed on the upper wall of the hull. In claim 1,
A dome barrier structure for an independent storage tank, further comprising a sealing member installed between the upper wall of the hull and the dome cover to prevent external air from entering the interior space of the hull. In claim 2,
The cover side insulation material is installed to surround the sealing member, a dome barrier structure of an independent storage tank. delete delete It is a dome barrier structure of an independent storage tank that performs insulation and sealing functions around the dome installed at the top of the independent storage tank,
a side insulation installed around a dome body extending upward from the tank body of the independent storage tank;
an upper insulating material installed on the upper part of the dome cover that covers the upper part of the dome body;
A cover side insulator installed on a side of the dome cover;
Includes,
The cover side insulating material forms a continuous insulating layer from the upper insulating material, and the cover side insulating material extends downward from the upper insulating material, passes through the dome cover, and is installed to contact the upper wall of the hull,
The cover side insulation includes a first portion attached to the top insulation to move with the dome cover and a second portion attached to the top wall of the hull to move with the hull. Tank dome barrier structure. In claim 6,
A dome barrier structure of an independent storage tank, wherein the first part and the second part are installed to enable relative movement between them. delete As an independent storage tank that can store liquefied gas,
a tank body made of a metal material capable of withstanding extremely low temperatures;
an insulating layer installed to surround the outside of the tank body;
a dome installed on the upper part of the tank body to provide a passage for pipes;
A dome barrier structure that performs insulation and sealing functions around the dome;
Includes,
The dome barrier structure is,
It includes a side insulator installed around the dome body extending upward from the tank body, an upper insulator installed on the top of the dome cover that covers the top of the dome body, and a cover side insulator installed on the side of the dome cover. And
The cover side insulating material forms a continuous insulating layer from the upper insulating material, and the cover side insulating material extends downward from the upper insulating material, passes through the dome cover, and is installed to contact the upper wall of the hull,
An independent storage tank, characterized in that the cover side insulation is slidably installed on the upper wall of the hull.

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