KR20160000521A - A Liquid Storage Tank and Manufacturing Method - Google Patents

Abstract

The present invention relates to a liquid storage tank comprising: a main barrier being in contact with stored goods to absorb impact; one or more separation members installed in a rear surface of the main barrier; a support plate installed in one side of the separation members; and an insulation foam formed on the support plate. An area of one side of the separation members is larger than an area of the other side being in contact with the main barrier. The present invention relates to a method to manufacture a liquid storage tank insulated by the insulation foam installed on the outer surface of a liquid storage tank body comprising: a step of installing the separation members in the rear surface of the liquid storage tank body; a step of installing the support plate in one side of the separation members; and a step of laminating the insulation foam on the outer surface of the support plate. According to the present invention, the liquid storage tank and the manufacturing method thereof maximize an insulation effect of the liquid storage tank through the insulation foam and allow the liquid storage tank to be conveniently and easily manufactured to improve manufacturing efficiency by utilizing the insulation foam as an insulation material to insulate the liquid storage tank and having the separation members and a thin film for the installation of the insulation foam.

Description

Technical Field [0001] The present invention relates to a liquid storage tank,

The present invention relates to a liquid storage tank and a method of manufacturing the same.

Natural gas is transported in the form of gas through land or sea gas pipelines or liquefied in the form of Liquefied Natural Gas or Liquified Petroleum Gas and stored in LNG transport or LPG transport It is transported to a remote consumer.

Liquefied natural gas is obtained by cooling natural gas at a temperature of minus 163 degrees Celsius, which is the cryogenic temperature, and its volume is reduced to about 1/600 of that of natural gas, making it well suited for long distance transportation through the sea.

LNG carrier for loading liquefied natural gas to land area by carrying liquefied natural gas to sea, and LNG carrier after landing at land demand by carrying LNG to sea, and unloading it as natural gas LNG RV (Liquefied Natural Gas Regasification Vessel) includes a cryogenic storage tank of liquefied natural gas.

Recently, the demand for floating floating structures such as LNG FPSO (Floating, Production, Storage and Offloading) and LNG FSRU (Floating, Storage and Regasification Unit) is gradually increasing, and LNG carrier or LNG RV As shown in Fig.

LNG FPSO is a floating marine structure that is used to directly liquefy natural gas extracted from a gas well and to store it in a storage tank and transfer LNG stored in this storage tank to LNG transport if necessary. In addition, the LNG FSRU is a floating type of floating structure that stores LNG unloaded from LNG carrier at sea, stores it in a storage tank, vaporizes LNG if necessary, and supplies it to the customer demanded on land.

In this way, a storage tank for storing liquefied gas such as LNG is installed in a marine structure such as an LNG carrier, LNG RV, LNG FPSO, and LNG FSRU that transports or stores a liquefied gas such as LNG.

LNG storage tanks are classified according to their shape and function. Depending on the type, there are independent tanks (SPB) and membrane tanks (GTT Mark 3, GTT NO 96). Independent tanks are classified into A, B and C types according to IMO standards.

SPB (Self-support Prismatic shape IMO type-B) tanks of independent tanks are rectangular. The SPB tank was developed by IHI of Japan in 1982 by developing a square (rectangular) tank. It was made by attaching a relatively hard insulating panel such as polyurethane to a tank body made of aluminum alloy, And the shape of the tank can be freely designed according to the shape of the hull so that it can be manufactured on the ship separately from the ship and installed on the ship.

In addition, it has a relatively advantage in terms of structural stability compared with the membrane type, and is resistant to sloshing, and the insulation system is exposed to the outside of the tank, which is advantageous in that an operator can easily maintain it.

A panel made of plywood is installed as a thermal insulation material in the production of such an SPB tank. Plywood is sensitive to humidity, so you have to be careful about rain and humidity. Therefore, there is a problem that there are time and space limitations in fabrication due to the very important environment setting in the production.

Therefore, in recent years, numerous studies and experiments have been continuing to solve this problem.

It is an object of the present invention to provide a liquid storage tank capable of maximizing a heat insulation effect by using an insulating foam instead of a flywheel for insulation and a method of manufacturing the same. .

According to an aspect of the present invention, there is provided a liquid storage tank and a method of manufacturing the same. At least one spacing member provided on a back surface of the main barrier; A support plate provided on one side of the spacing member; And an insulation foam formed on the support plate, wherein one side of the spacing member is wider than a cross-sectional area of the other side in contact with the main barrier.

Specifically, the spacing member may be a stud bolt.

Specifically, the support plate may be in the form of a metal thin film.

Specifically, the spacing member may be spaced apart by 2 to 7 mm between the main barrier and the support plate.

Specifically, the heat insulating foam may be a poly foam, a micro-celluloid foam, a nano-celluloid foam, or a sandwich foam.

A method of manufacturing a liquid storage tank according to an embodiment of the present invention is a method of manufacturing a liquid storage tank which is insulated by an insulation foam provided on the outside of a liquid storage tank body, Providing a plurality of spacing members on the back surface of the substrate; Providing a support plate on one side of the plurality of spacing members; And laminating the heat insulating foam on the outside of the support plate.

Specifically, the spacing member is a stud bolt, and the support plate is in the form of a metal thin film. The heat insulating foam may be a poly foam, a micro-celluloid foam, A nano-celluloid foam, or a sandwich foam.

The liquid storage tank and the method of manufacturing the same according to the present invention are characterized in that a heat insulating foam is used as a heat insulating material for insulating a liquid storage tank and a separating member and a thin film are provided for installing a heat insulating foam, It is possible to maximize the adiabatic effect of the liquid storage tank and to make the production of the liquid storage tank simple and easy, thereby improving the production efficiency.

1 is a sectional view of a liquid storage tank according to an embodiment of the present invention.
2 is a detailed view of A in Fig.
3 is a flowchart of a method of manufacturing a liquid storage tank according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

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

FIG. 1 is a sectional view of a liquid storage tank according to an embodiment of the present invention, and FIG. 2 is a detailed view of FIG.

1 and 2, a liquid storage tank 1 according to an embodiment of the present invention includes a barrier 11, a spacing member 12, a support plate 13, a heat insulating foam 14, a gap ; 15).

Hereinafter, the liquid storage tank 1 of the present invention may be a stand-alone tank, and preferably a SPB type liquid storage tank. The interior 10 of the liquid storage tank 1 may store a liquefied gas, preferably a liquefied gas, and the liquefied gas may be any liquefied gas, such as LNG or LPG, ethylene, ammonia, And may be expressed by liquefied gas for the sake of convenience when the liquid is not in a state of being heated or pressurized.

The barrier 11 may contact the storage 60 stored in the liquid storage tank 10 and absorb the impact. The barrier 11 may be made of a low temperature resistant alloy such as aluminum alloy, SUS, and 9% nickel.

The barriers 11 may be spaced apart from the support plate 13 by a certain distance by providing spacing members 12 on the back surface thereof.

The spacing member (12) is provided on the back surface of the barrier (11) and is provided with at least one or more. One side of the spacing member 12 may be wider than the cross-sectional area of the other side contacting the barrier 11, and preferably it may be a stud bolt.

That is, the spacing member 12 may be composed of a plate member (not shown) and a cylindrical member (not shown) connected to the plate member perpendicularly.

The spacing member 12 can make the distance between the barrier 11 and the support plate 13 2 to 7 mm (preferably 5 mm) apart. The spacing member 12 can generate a gap 15 that forms a gap between the barrier 11 and the heat insulating foam 14 and the support plate 13 for installing the heat insulating foam 14 can be disposed have.

The spacing member 12 may be installed in the entire range of the wall 11 and spaced apart from each other by a predetermined distance. The spacing member 12 may be installed on the outside of the liquid storage tank 10 .

Conventionally, the heat insulating foam can not be installed directly on the back surface of the barrier 11, that is, on the barrier 11. The heat insulating foam is a heat insulating material using a composite material in which a gas or a liquid is dispersed in a solid, and any plate-like member is required to form an arbitrary shape.

Therefore, when the heat insulating foam 14 is directly formed on the barrier 11, the heat insulating foam 14 is formed as it is in close contact with the barrier 11. As a result, a gap 15 is not generated outside the barrier 11 of the liquid storage tank 10.

Therefore, in the embodiment of the present invention, the heat insulating foam 14 may be provided on the barrier 11 and the gap 15 may be formed by providing the spacing member 12 and the support plate 13 so that the heat insulating foam 14 ) Can be applied to the SPB tank and the gaps (15) can be formed to effectively meet the requirements of the ship owners.

The support plate 13 is provided on one side of the spacing member 12. The support plate 13 may have a space for forming a heat insulating foam 14 to be described later in the form of a thin film and may preferably be in the form of a metal thin film, For example SUS).

SUS is resistant to cryogenic heat from cryogenic storage (60) stored in the liquid storage tank (10) at a cryogenic temperature.

The support plate 13 can be provided on the wide side of the plurality of spacing members 12, that is, on the cylindrical member, and can be formed in a modular fashion, and each can be efficiently bonded to the spacing member 12

An insulating foam (14) is formed on the support plate (13). The heat insulating foam 14 may be in the form of various foams but is preferably made of polyurethane foams, micro-celluloid foams, nanocelluloid foams, A Nano-celluloid Foam or a Sandwich Foam.

Conventionally, a panel made of a plywood is used as a heat insulating member of the SPB tank. Plywood is a laminating board that is physically improved in the disadvantages of warped and cracked wood by applying multiple layers of thinned wood with regular plywood.

Therefore, the plywood has a problem in that the material of the plywood is affected by the humidity in the manufacturing environment due to the weakness of moisture such as rain in the production of wood.

Therefore, in the embodiment of the present invention, the heat insulating foam 14 can be provided in the liquid storage tank 1 according to the embodiment of the present invention through the spacing member 12 and the support plate 13, It is possible to maximize the adiabatic effect of the liquid storage tank 1 through the liquid storage tank 1 and to avoid the manufacturing environment when manufacturing the liquid storage tank 1, thereby simplifying the manufacturing process and improving the manufacturing efficiency.

The gap 15 may be formed between the barrier 11 and the support plate 13 and the barrier 11 and the support plate 13 may be spaced apart from each other by a predetermined distance. The gap 15 can be generated by the spacing member 12 being configured to be spaced apart from the barrier 11 and the support plate 13 at regular intervals.

The gap 15 can be utilized as a ventilation space and can also be used as a passage for the leaked storage 60 when the storage 60 leaks due to damage and breakage of the barrier 11. [ The gap 15 can be filled with air for additional insulation.

In the embodiment of the present invention, a hull 20, a hold space 30, a support portion 40, and a drip tray 50 may be further included.

The inner wall 20 is a hull provided inside a hull (not shown), and the hull can be a double hull having an outer hull and an inner hull.

The inner wall 20 may be in the form of a support space 30 for the liquid storage tank 10 to be positioned inside the hull and may be formed in any shape. A support 40 is provided on the inner wall 20 so that the liquid storage tank 10 located in the support space 30 can be supported by the hull.

The support space (30) is a space provided to have the liquid storage tank (10) inside the inner wall (20). The support portion 40 supports the liquid storage tank 10 from the inner wall 20 and a gap is formed between the liquid storage tank 10 and the inner wall 20 by the support portion 40 And may be filled with nitrogen.

The support portion 40 can support the liquid storage tank 10 from the inner wall 20. The support portion 40 may be provided between the inner wall 20 and the liquid storage tank 10 to prevent lateral flow or sedimentation of the liquid storage tank 10.

For example, the liquid storage tank 10 can be positioned at the front, rear, and central side of the bottom portion (not shown) of the liquid storage tank 10 to implement the longitudinal support of the liquid storage tank 10, (Not shown) of the liquid storage tank 10 so as to realize lateral support of the liquid storage tank 10.

The drip tray 50 is a device that receives and drains the stored material 60 leaking from the barrier 11 when leakage of the stored material 60 occurs in the barrier 11.

The drip tray 50 may be disposed between the inner wall 11 and the heat insulating foam 14 to receive a storage 60 that may leak from the barrier 11 of the liquid storage tank 10. This drip tray 50 is located at the bottom and side of the liquid storage tank 10 and can store the downward flow of the stored material 60 by gravity.

As described above, the liquid storage tank 1 according to the present invention uses the heat insulating foam 14 as a heat insulating material for inserting the liquid storage tank 1 and the spacers 12 and 14 for installing the heat insulating foam 14, By providing the support plate 13, it is possible to maximize the heat insulating effect of the liquid storage tank 1 through the heat insulating foam 14 and to maximize the heat insulating effect of the liquid storage tank 1 through the heat insulating foam 14 It is effective.

3 is a flowchart of a method of manufacturing a liquid storage tank according to an embodiment of the present invention. The method for manufacturing a liquid storage tank according to an embodiment of the present invention is for manufacturing the components of the liquid storage tank 1 in the embodiment described above, Explain it.

3, a method of manufacturing a liquid storage tank according to an embodiment of the present invention includes providing a plurality of spacing members 12 on a back surface of a body (a wall 11) of a liquid storage tank 1 A step S20 of mounting a supporting plate 13 on one side of the plurality of spacing members 12 and a step S30 of laminating the heat insulating foam 14 on the outer side of the supporting plate 13. [

Hereinafter, the spacing member 12 may be a stud bolt, the support plate 13 may be a metal thin film, the insulation foil 14 may be a poly foam, A micro-celluloid foam, a nano-celluloid foam, or a sandwich foam.

In step S10, a plurality of spacing members 12 are provided on the back surface of the body (the wall 11) of the liquid storage tank 1. A plurality of spacing members 12 may be provided on the back surface of the barrier 11 directly contacting the storage 60 stored in the liquid storage tank 10.

The plurality of spacing members 12 may be spaced apart from each other by a predetermined distance and may be provided on the wall 11 and a narrow cross section of the spacing member 12 may be provided on the wall 11 by welding or the like .

In step S20, a support plate 13 is provided on one side of the plurality of spacing members 12. [ A plurality of spacing members 12 are first provided on the wall 11 and then a plurality of spacing members 12 are provided on the wide portion of the support plate 13 in order to install the heat insulating foam 14. [

The support plate 13 may have a space for forming a heat insulating foam 14 to be described later in the form of a thin film and may preferably be in the form of a metal thin film, For example SUS).

In step S30, the heat insulating foam 14 is laminated on the outside of the support plate 13. [ The heat insulating foil 14 may be deposited on the support plate 13 to form an arbitrary plate-like shape.

Since the heat insulating foam 14 is formed in a spray foam form, any plate-like member is required for the heat insulating foam 14 to be formed. Therefore, the heat insulating foam 14 can be stacked in the embodiment of the present invention through the support plate 13 installed in step S20 as described above.

When the formation of the heat insulating foam 14 is completed, the manufacture of the liquid storage tank 1 is completed and the liquid storage tank 1 is held by the support portion 40 in the inner space 30 of the inner wall 20 Can be installed.

The method for manufacturing the liquid storage tank according to the present invention is characterized in that the heat insulating foam 14 is used as a heat insulating material for insulating the liquid storage tank 1 and the spacing member 12 is used for installing the heat insulating foam 14. [ It is possible to maximize the heat insulation effect of the liquid storage tank 1 through the heat insulating foam 14 and to make the production of the liquid storage tank 1 simple and easy, have.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Liquid storage tank 10: Liquid storage tank interior
11: barrier 12: spacing member
13: Support plate 14: Insulating foam (Foam)
15: gap 20: inner wall (Hull)
30: Hold space 40: Support part
50: Drip Tray 60: Storage

Claims (9)

A main barrier wall that contacts the storage and absorbs impact;
At least one spacing member provided on a back surface of the main barrier;
A support plate provided on one side of the spacing member; And
And an insulation foam formed on the support plate,
One side of the spacing member
And is wider than the cross-sectional area of the other side in contact with the main barrier. 2. The apparatus according to claim 1,
Wherein the bolt is a stud bolt. The apparatus according to claim 1,
Characterized in that it is in the form of a metal thin film. 2. The apparatus according to claim 1,
And a distance between the main wall and the support plate is 2 to 7 mm. The heat insulating foam according to claim 1,
Characterized in that the liquid storage tank is a polyurethane foam, a micro-celluloid foam, a nano-celluloid foam or a sandwich foam. The liquid storage tank according to claim 1,
SPB < / RTI > tank. A method of manufacturing a liquid storage tank which is insulated by an insulation foam provided on the outside of a liquid storage tank body,
Installing a plurality of spacing members on the back surface of the liquid storage tank body;
Providing a support plate on one side of the plurality of spacing members; And
And laminating the heat insulating foam on the outside of the support plate. 8. The apparatus according to claim 7,
Stud bolt,
The support plate
It is a form of metal thin film,
The heat-
Characterized in that it is a polyurethane foam, a micro-celluloid foam, a nano-celluloid foam or a sandwich foam. The liquid storage tank according to claim 7,
SPB < / RTI > tank.

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