KR20100106741A - Body protecting device for independence type liquefied gas storage tank - Google Patents

Abstract

PURPOSE: A device for protecting an independent liquefied gas storage tank is provided to rapidly perform drainage and to control the installed amount of a drain port and a drip tray in consideration of the size of a hull. CONSTITUTION: A device for protecting an independent liquefied gas storage tank comprises an independent storage tank(60), an adiabatic member(70), a drain port(72), and a drip tray(80). The independent storage tank is supported by a support unit installed inside a hull and has a space for storing liquefied gas. The adiabatic member is installed on the outer surface of the storage tank. The drain port is inclinedly formed in the adiabatic member. The drip tray is arranged in the bottom of the drain port.

Description

Protection device of independent liquefied gas storage tank {BODY PROTECTING DEVICE FOR INDEPENDENCE TYPE LIQUEFIED GAS STORAGE TANK}

The present invention relates to a protection device for a stand-alone liquefied gas storage tank, and more particularly, to a protection device for a stand-alone liquefied gas storage tank to facilitate the collection of leaked liquid when a leak occurs in the stand-alone liquefied gas storage tank. will be.

In general, gas can be liquefied under high pressure and low temperature, and natural gas is typical of such liquefied gas.

Natural gas is transported in a gaseous state through onshore or offshore gas piping, or to a distant consumer while stored in an LNG carrier in the form of liquefied liquefied natural gas (LNG). Liquefied natural gas is obtained by cooling natural gas to cryogenic temperature (approximately -163 ℃), and its volume is reduced to about 1/600 than natural gas in gas state, so it is very suitable for long distance transportation through sea.

LNG transporter for loading and unloading LNG to land requirements by operating the sea with LNG, or LNG RV (Regasification) that reloads LNG after unloading the sea with LNG for recharging the stored LNG The vessel includes a storage tank (commonly referred to as a cargo hold) that can withstand the cryogenic temperatures of liquefied natural gas.

Recently, there is a growing demand for floating offshore structures such as LNG Floating, Production, Storage and Offloading (FPSO) or LNG Floating Storage and Regasification Units (FSRUs). Includes a storage tank installed.

The LNG FPSO is a floating offshore structure used to liquefy the produced natural gas directly from the sea and store it in a storage tank and, if necessary, to transfer LNG stored in the storage tank to an LNG carrier. In addition, LNG FSRU is a floating offshore structure that stores LNG unloaded from LNG carriers in a storage tank at sea far from the land, and then vaporizes LNG as needed to supply land demand.

As described above, a storage tank for storing LNG in a cryogenic state is installed in an offshore structure such as an LNG carrier, an LNG RV, an LNG FPSO, or an LNG FSRU that transports or stores a liquid cargo such as LNG.

These storage tanks can be classified into Independent Type and Membrane Type, depending on whether the load directly affects the insulation. As shown in Table 1 below, membrane type storage tanks are generally divided into GT NO 96 type and TGZ Mark III type, and standalone storage tanks are divided into MOSS type and SPB type.

The structure of the standalone storage tank is described in Korean Patent Nos. 10-15063 and 10-305513.

1 is a cross-sectional view showing a lower structure of a standalone liquefied gas storage tank according to the prior art. Referring to FIG. 1, the standalone liquefied gas storage tank 10 has a space for storing liquefied gas therein, and an outer surface thereof is insulated.

Such a standalone liquefied gas storage tank 10 requires a support 12 for placing the storage tank 10 inside the hull 1, that is, the bottom of the inner shell (2). The storage tank 10 may be expanded or contracted due to temperature change depending on the presence of liquefied gas stored therein. Accordingly, the support 12 is not attached to the storage tank 10, and the storage tank 10 ) Is installed on the surface of the inner cell 2 of the hull 1. Then, the heat insulating material 20 is installed on the surface of the storage tank 10.

When the inner cell 2 of the hull 1 comes into contact with a low temperature liquefied gas, brittleness may occur and break. Therefore, even if the liquefied gas leaks due to the leak of the storage tank 10 between the heat insulating material 20 and the support part 12 of the storage tank 10, the liquefied gas is not present in the inner cell 2 of the hull 1. A protection device for protecting the hull 1 by blocking the contact is provided.

The protection device of the independent liquefied gas storage tank 10 has a drainage structure for draining the leaked liquefied gas when the liquefied gas leaks due to the occurrence of a leak.

2 is a plan view illustrating a drainage structure provided in a protection device of a standalone liquefied gas storage tank according to the prior art, in which the liquefied gas leaked by a leak generated in the storage tank 10 is stored in the storage tank 10. It moves through the gap (gap) and the heat insulating material 20, and is drained through the drain hole 22 formed in the heat insulating material (20). In addition, a drip tray 30 for collecting the liquefied gas that is drained is provided below the drain port 22.

The drain 22 is formed at each corner of the lower surface of the heat insulating material 20 in the bottom portion, so that the hull 1 is discharged to at least one drain 22, no matter how inclined in any direction by digging, etc. Can be collected in the tray 30.

Meanwhile, in the standalone liquefied gas storage tank 10, a gap between the storage tank 10 and the heat insulating material 20 is used as a space for flowing the liquefied gas leaked when the storage tank 10 leaks. For this, a wedge 24 may be installed between the storage tank 10 and the heat insulator 20.

Recently, the liquefied gas leaked from the standalone liquefied gas storage tank (10) can be easily flowed to improve the discharge efficiency, through which attempts to reduce the number of drains (22), and thus liquefied leakage There is a demand for the development of a protective device for a liquefied gas storage tank having an improved gas discharge structure.

The present invention is to solve the above-mentioned problems of the prior art, by improving the drainage structure of the independent liquefied gas storage tank is possible to collect the leaked liquefied gas irrespective of the inclination direction of the hull, the leaked liquid efficiently A protection device for a standalone liquefied gas storage tank that is capable of collecting and reducing the number of installations of drains and drip trays.

In order to achieve the above object, the protection device of the independent liquefied gas storage tank according to the present invention is supported by a support installed in the hull and the independent storage tank having a space for storing the liquefied gas, and the outer surface of the storage tank A heat insulating material installed in the heat insulating material, wherein the heat insulating material includes at least one drain hole formed on the bottom surface of the heat insulating material, the bottom surface being inclined downward toward a center line, and a drip tray arranged below the drain hole. .

Here, a plurality of wedges may be installed between the outer surface of the storage tank and the insulation to form a gap. In addition, the wedge provided between the bottom surface of the storage tank and the heat insulating material is preferably increased in height from the outer to the center line. In addition, the drain hole may be formed in the front end and the rear end on the center line of the heat insulating material. In addition, the drain hole may be further formed in the middle on the center line of the heat insulating material. In addition, the heat insulating material may be formed to be inclined downward toward the center line in any one of the longitudinal direction or the width direction of the storage tank.

By improving the drainage structure of the protection device of the independent liquefied gas storage tank according to the present invention configured as described above, the leaked liquefied gas can be efficiently collected through the drain hole and the drip tray formed on the center line, There is an advantage that it becomes easy. In addition, the present invention can adjust the number of installation in consideration of the size and the like of the drain hole and the drip tray, it is possible to perform the drainage more quickly. In addition, the present invention can reduce the number of installation of the drain and the drip tray can not only reduce the manufacturing cost, but also improve the durability, thereby further improving the stability of the hull and the reliability of the hull protection. In addition, the present invention is because the liquefied gas leaked from the storage tank naturally flows into the drain by gravity, it is possible to further improve the discharge efficiency compared to the conventional, accordingly, a small number of drains can be installed accordingly, a small number of drains Due to the thermal insulation performance it may be more effective than the prior art.

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

3 is a cross-sectional view showing a lower structure of the independent liquefied gas storage tank according to the present invention.

In the present invention, the independent liquefied gas storage tank 60 may be installed in a ship or a structure, and as an example, an embodiment installed in the ship will be described. For example, the protection device of the independent liquefied gas storage tank 60 is provided between the hull 50 and the storage tank 60 installed on the hull 50, and discharges the liquefied gas due to leakage of the storage tank 60. And it can collect, and can damage the hull 50 by liquefied gas.

The vessel in which the independent liquefied gas storage tank 60 of the present invention is installed may be formed in a double structure of the inner cell 52 and the outer cell 54, in consideration of the size and characteristics of the hull 50. The cell structure may be variously made.

The independent liquefied gas storage tank 60 is installed while maintaining a predetermined interval at the bottom of the hull 50, for this purpose, the support for placing the storage tank 60 on the inner cell 52 of the hull 50 ( 62) is installed. The support part 62 supports the load of the storage tank 60 and allows a movement to the expansion and contraction of the storage tank 60 to some extent, but is provided with a structure for preventing the movement.

The hull 50 may be made of steel, and when it comes in contact with the leaked low temperature liquefied gas, the brittleness appears in the inner cell 52, etc. As a result, the strength against impact may be weakened, and thus may be easily broken. For this reason, a protection device is essentially required for the standalone liquefied gas storage tank 60 storing liquefied gas.

To this end, the storage tank 60 is provided with a heat insulating material 70 on its outer surface. The heat insulating material 70 insulates the inside and blocks the transfer of temperature changes caused by liquefied gas to the outside.

In addition, between the heat insulating material 70 and the support portion 62 prevents the liquefied gas leaked due to the leakage of the storage tank 60 in contact with the inner cell 52 of the hull 50. To this end, a sealing tape (not shown) may be attached to the connection between the insulation 70 and the support 62. In addition, the independent liquefied gas storage tank 60 is provided with a drainage structure for drainage so that the leaked liquefied gas can be collected.

3 and 4 is a plan view showing the drainage structure provided in the (hulled) protection structure of the independent liquefied gas storage tank according to the present invention, it can be seen in more detail about such a drainage structure.

A gap is formed between the storage tank 60 and the heat insulating material 70 so that the leaked liquefied gas flows. To this end, a plurality of wedges 64 may be installed between the outer surface of the storage tank 60 and the insulation 70 to maintain a gap. The wedge 64 is also referred to as a reference wedge.

In the present invention, the heat insulating material 70 installed on the bottom surface of the storage tank 60 is formed to be inclined downward toward the center line of the hull 50. That is, the distance between the bottom of the storage tank 60 and the heat insulating material 70 is increased toward the center line from the outside of the storage tank 60.

For example, in the present invention, the heat insulating material may be formed to be inclined downward toward the longitudinal direction of the storage tank 60, that is, the center line connecting the front and rear surfaces of the storage tank 60, but is not limited thereto. It is also possible to be inclined downward toward the center line connecting the two sides of the hull 50 in the width direction.

To this end, the wedges 64 installed between the bottom surface of the storage tank 60 and the heat insulating material 70 are made to increase in height from the outside to the center line.

In addition, one or more drain holes 72 may be formed on the center line of the heat insulating material 70. For example, in the present invention, the drain 72 may be installed at the front end and the rear end of the hull 50 on the center line. In addition, the drain 72 may be further formed in the center portion on the center line.

On the other hand, a drip tray 80 for collecting the liquefied gas to be drained is provided below the drain port 72, respectively.

FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 4 and illustrates the structure of the drip tray 80 well. The drip tray 80 may be made of an aluminum alloy, and the inner cell 52 is provided with an insulating support 82 for installing the drip tray 80.

Therefore, even if the hull 50 is inclined in any direction due to digging or the like, the leaked liquefied gas is collected toward the center line along the inclined surface of the heat insulating material 70 installed on the bottom, and the drip tray is formed through any one of the drain holes 72 formed on the center line. May be drained to 80.

The present invention is not limited to the above described embodiments, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

1 is a cross-sectional view showing a lower structure of a standalone liquefied gas storage tank according to the prior art.

Figure 2 is a plan view showing a drainage structure provided in the protection device of the independent liquefied gas storage tank according to the prior art.

Figure 3 is a cross-sectional view showing a lower structure of the independent liquefied gas storage tank according to the present invention.

Figure 4 is a plan view showing a drainage structure provided in the protection device of the independent liquefied gas storage tank according to the present invention.

5 is a cross-sectional view taken along the line A-A of FIG.

Claims (6)

An independent storage tank supported by a supporting part installed inside the hull and having a space for storing liquefied gas; Insulation material is installed on the outer surface of the storage tank to insulate the inside, The heat insulating material is formed to be inclined downward toward the center line downwards, One or more drains formed on the center line of the insulation; And a drip tray arranged below the drain hole. The method according to claim 1, Protective device of the independent liquefied gas storage tank, characterized in that a plurality of wedges are installed between the outer surface of the storage tank and the insulation to form a gap. The method according to claim 2, Wedge installed between the bottom surface of the storage tank and the heat insulating material, the protection device of the independent liquefied gas storage tank, characterized in that the height increases from the outside to the center line. The method according to any one of claims 1 to 3, The drain port is a protective device of the independent liquefied gas storage tank, characterized in that formed on the front end and the rear end on the center line of the insulation. The method according to claim 4, The drainage port is a protection device for a standalone liquefied gas storage tank, characterized in that further formed in the middle of the center line of the heat insulating material. The method according to any one of claims 1 to 3, The insulator is a protection device of the independent liquefied gas storage tank, characterized in that formed inclined downward toward the center line in any one of the longitudinal direction or the width direction of the storage tank.

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