KR20140031624A - Insulation module for liquid cargo tank - Google Patents

Abstract

The present invention relates to an insulation module for a liquid container which provides a product with high reliability and improved insulation properties and structural strength by sequentially arranging a first plywood, a first reinforced polyurethane foam, a non-tropistic second barrier, a second reinforced polyurethane foam, a protective film, a VIP module, and a second plywood in between the outer membrane wall of a cryogenic liquid container and the inner wall of a ship hull.

Description

{INSULATION MODULE FOR LIQUID CARGO TANK}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulation module for a liquid holding window, and more particularly, to a heat insulation module for a liquid holding window that can provide a highly reliable product by improving heat insulation and structural strength.

LNG is produced by liquefying natural gas containing ethane, butane, propane, etc. in a small amount at -161 ℃ along with methane gas mainly composed of 80 to 99%. The LNG has a very high calorific value and a liquefied volume of about 1/600 Save and transport.

The internal temperature of a liquid cargo tank of an LNG carrier carrying such LNG is usually -160 ° C or less and a high vapor pressure.

Until now, mainly glass fiber reinforced polyurethane foam has been used as a heat insulating material for such a liquid hold.

The polyurethane foam has a thermal conductivity of 0.026 w / mK or higher at room temperature and is designed to maintain a boiling off rate of 0.15% or less in the liquid which is boiled by vaporization in the liquid hold.

At this time, a vacuum insulation panel (VIP) using an organic / inorganic hybrid multilayer coating film is used as a substitute for a conventional polyurethane foam. The organic / inorganic hybrid multilayer coating film uses plastic, which is a high molecular substance, There is a problem that the vacuum state can not be maintained and it is destroyed because the structural stability is deteriorated.

SUMMARY OF THE INVENTION The present invention has been developed in order to solve the above-mentioned problems, and it is an object of the present invention to provide a heat insulation module for a liquid retention window that can provide a highly reliable product by improving the heat insulating property and the structural strength.

According to an aspect of the present invention, there is provided a cryogenic liquid storage system comprising: a first plywood disposed on an outer wall of a membrane of a cryogenic liquid retention window; A first reinforced polyurethane foam (hereinafter referred to as a first R-PUF) attached to an outer surface of the first plywood; A rigid secondary barrier (RSB) that receives the first R-PUF and is connected to the first ply and is divided into a plurality of spaces; A second reinforced polyurethane foam (hereinafter referred to as a second R-PUF) attached to an outer surface of the RSB; A protective film attached to an outer surface of the second R-PUF; A second ply disposed on an outer surface of the protective film and fixed to an inner wall of the hull; And a VIP module disposed between an outer surface of the protective film and an inner surface of the second ply, the VIP module including a vacuum insulation panel (VIP). .

Here, the protective film is a thin metal film or a synthetic resin having elasticity.

At this time, a gap between the first R-PUF and the first R-PUF, between the first R-PUF and the RSB, between the RSB and the second R-PUF, between the second R- The attachment between the protection film and the VIP module, and the attachment between the VIP module and the second plywood are each made of a polyurethane adhesive.

The VIP module includes a plurality of VIP blocks stacked in a plurality of rows and columns between the outer surface of the protective film and the inner surface of the second ply, And a polyurethane adhesive filled in a space between the inner surfaces of the second plywood.

The VIP module includes a plurality of first plywood boxes arranged in a plurality of rows and columns between an outer surface of the protective film and an inner surface of the second plywood, and a high vacuum embedded in the first plywood box. A VIP block, a medium vacuum VIP filled in an outer surface of the high vacuum VIP block and an inner space of the first plywood box, and a polyurethane adhesive filled in a space between the outer surface of the protective film and the inner surface of the second plywood. Characterized in that.

The high vacuum VIP block and the medium vacuum VIP are one of glass wool, mineral wool, ceramic wool, polyester foam, polyethylene foam, melamine foam, aerogel powder, and fumed silica, or a combination of at least one of them.

The VIP module may further include a stress dispersion partition wall disposed between the outer surface of the protective film and the inner surface of the second ply.

The stress distribution partition wall is characterized by being a combination of at least one of reinforced polyurethane foam, phenol foam and silica board.

The VIP module may include a plurality of second plywood boxes arranged in a plurality of rows and columns between an outer surface of the protective film and an inner surface of the second plywood and a VIP built in the second plywood box, And a polyurethane adhesive filled in a space between an outer surface of the protective film and an inner surface of the second ply, an airgel blanket filled in an outer surface of the VIP block and an inner space of the second ply box, .

The VIP module may include a VIP block disposed between an outer surface of the protective film and an inner surface of the second plywood, and a plurality of VIP blocks surrounding the VIP blocks and arranged in a plurality of rows and columns, An airgel blanket, and a polyurethane adhesive filled in a space between an outer surface of the protective film and an inner surface of the second ply.

The VIP blocks are arranged in a plurality of rows and columns in the second plywood box.

The VIP block is stacked in a plurality of rows and columns in the second plywood box.

The airgel blanket is a melamine foam impregnated in an aerosol.

The airgel blanket is characterized in that it is a combination of at least one of mineral wool impregnated with airgel, glass wool, ceramic wool, polyester foam, polyethylene foam, urethane foam, melamine foam and carbon.

According to the present invention, it is possible to provide a highly reliable heat insulating module having high structural strength, heat resistance, and impact resistance while replacing the conventional heat insulating structure of the polyurethane foam.

Therefore, the effect of reducing the BOR of the liquid material such as LNG contained in the liquid holding window can be achieved.

In addition, the present invention has a dual vacuum VIP structure together with a protective film using a metal thin film having a low gas permeability, and a VIP module including an airgel composite, i.e., a structure of a blanket impregnated in an aerosol, And the structural strength can be maintained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially sectional schematic view showing an overall structure of a heat insulating module of a liquid holding window according to an embodiment of the present invention; FIG.
FIGS. 2 to 5 are partial cross-sectional schematic views showing the overall structure of a heat insulating module of a liquid holding window according to various embodiments of the present invention.

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

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially sectional schematic view showing the overall structure of a heat insulating module of a liquid holding window according to an embodiment of the present invention; FIG.

As shown in the drawing, a first ply 110, a first reinforced polyurethane foam 210 (hereinafter referred to as " first reinforced polyurethane foam 210 ") is disposed between an outer wall of a membrane A second reinforced polyurethane foam 220 (hereinafter, referred to as a second R-PUF), a protective film 400, a VIP module 500 and a second reinforced polyurethane foam It can be understood that the second plywood 120 is arranged in sequence.

The first plywood 110 is disposed on the outer wall of a membrane (not shown) of the cryogenic liquid retention window, and is the outermost portion of the heat insulating module of the liquid holding window according to the present invention together with a second plywood 120 to be described later.

The first R-PUF 210 is attached to the outer surface of the first plywood 110 and the RSB 300 receives the first R-PUF 210 and is connected to the first plywood 110, And is intended to maintain the primary structural strength.

The second R-PUF 220 is attached to the outer surface of the RSB 300, the protective film 400 is attached to the outer surface of the second R-PUF 220, 400, and is fixed to the inner wall of the hull by a synthetic resin, specifically, an epoxy mastic (600).

The VIP module 500 is disposed between the outer surface of the protective film 400 and the inner surface of the second plywood 120 and includes a vacuum insulation panel (VIP) 1 is a technical means for minimizing the BOR by forming a plurality of layers of heat insulation structure together with the first R-PUF 210 and the second R-PUF 220 to block heat inflow from the outside of the membrane of the liquid holding window.

It is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention.

In general, the distance from the outer surface of the RSB 300 to the outer surface of the second R-PUF 220 is a structure in which the second R-PUF 220 is newly installed in the first R-PUF 210, It is preferable that the distance from the outer surface of the first plywood 110 to the outer surface of the first R-PUF 210 is equal to or greater than the distance between the first plywood 110 and the outer surface of the first R-PUF 210.

Further, the protective film 400 can be selectively installed in a thin metal film having a very low gas permeability or a synthetic resin having elasticity.

The first R-PUF 210 is connected to the RSB 300 and the second R-PUF 220 is connected between the first P-FU 210 and the first R-PUF 210, between the first R-PUF 210 and the RSB 300, The attachment between the second R-PUF 220 and the protective film 400, between the protective film 400 and the VIP module 500, and between the VIP module 500 and the second plywood 120, And is preferably made of a polyurethane adhesive having excellent low temperature properties.

1, the VIP module 500 includes a plurality of VIPs 500 arranged in a stacked manner in a plurality of rows and columns between the outer surface of the protective film 400 and the inner surface of the second plywood 120, An embodiment of the structure including the block 510 and the polyurethane adhesive 570 filled in the space between the outer surface of the protective film 400 and the inner surface of the second plywood 120 may be applied.

The stacking arrangement of the brick-piling method of the VIP block 510 is intended to improve the structural strength.

In addition, the VIP module 500 fills the high vacuum VIP block 510 ′ and the medium vacuum VIP 530 inside the first plywood box 520 as shown in FIG. 2, and protects the film 400 with the polyurethane adhesive 570. Embodiments of a structure for fixing between an outer surface of the inner surface of the second plywood 120 may be applied.

The first plywood box 520 is disposed in a plurality of rows and columns between the outer surface of the protective film 400 and the inner surface of the second plywood 120, and the high vacuum VIP block 510 ′ is made of VIP. 1 is a block-shaped member embedded in the plywood box 520.

The medium vacuum VIP 530 is a member filled in the outer surface of the high vacuum VIP block 510 'and the inner space of the first plywood box 520, and the polyurethane adhesive 570 is the outer surface of the protective film 400 and the second ply. The space between the inner surfaces of the wood 120 is filled to serve to fix the first plywood box 520.

Here, the high vacuum VIP block 510 ′ and the medium vacuum VIP 530 may use glass wool, mineral wool, ceramic wool, polyester foam, polyethylene foam, melamine foam, airgel powder, fumed silica, or a combination of at least one or more of them. have.

The VIP module 500 may further include a stress dispersing partition wall 540 spaced apart from the outer surface of the protective film 400 and the inner surface of the second plywood 120 so as to improve the structural strength desirable.

The stress distribution partition wall 540 can be made of one or at least one of reinforced polyurethane foam, phenol foam, and silica board.

In addition, the meaning of 'high vacuum' and 'medium vacuum' in the high vacuum VIP block 510 'and the medium vacuum VIP 530 indicates the degree of vacuum during each production, the high vacuum indicates a vacuum pressure of 10 ^-2 mbar or less, Vacuum pressures of about 10 ⁻² to 1 mbar are shown, respectively.

Meanwhile, the VIP module 500 may be applied to an embodiment in which the heat insulation performance is greatly improved by using the airgel blanket 560 as shown in FIGS.

The second plywood box 550 is disposed in a plurality of rows and columns between the outer surface of the protective film 400 and the inner surface of the second plywood 120 and the VIP block 510 is disposed in the second plywood box 550).

The airgel blanket 560 is filled in the outer surface of the VIP block 510 and the inner space of the second plywood box 550 and melamine foam impregnated in the aerogels may be used and the mineral wool and glass wool impregnated in the aerogels may be used. , Ceramic wool, polyester foam, polyethylene foam, urethane foam, melamine foam, carbon, or a combination of at least one of these.

The polyurethane adhesive 570 is filled in the space between the outer surface of the protective film 400 and the inner surface of the second plywood 120 to fix the second plywood 120.

3, the VIP block 510 may be arranged in a plurality of rows and columns in the second plywood box 550, and the plurality of rows and columns may be arranged in the second plywood box 550 as shown in FIG. And can be accommodated in various arrangements such as a multi-layered structure.

It is needless to say that the VIP block 510 may be stacked and arranged in the same manner as the brick-piling manner as in the structure shown in FIG. 1 although not specifically shown.

5, the VIP module 500 may be configured such that the VIP 510 is wrapped around the airgel blanket 560 having the same structural strength as the airgel melamine foam and excellent in heat insulation performance.

That is, the airgel blanket 560 surrounds the plurality of VIP blocks 510 between the outer surface of the protective film 400 and the inner surface of the second plywood 120, and is arranged in a plurality of rows and columns.

The polyurethane adhesive 570 is filled in the space between the outer surface of the protective film 400 and the inner surface of the second plywood 120 to fix the airgel blanket 560 wrapping the VIP block 510.

As described above, it is understood that the present invention is based on the technical idea to provide a heat insulation module for a liquid holding window which can provide a highly reliable product by improving the heat insulating property and the structural strength.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

110 ... first ply wood 120 ... second ply wood
210 ... First reinforced polyurethane foam 220 ... Second reinforced polyurethane foam
300 ... unrefined secondary barrier 400 ... protective film
500 ... VIP module

Claims (14)

A first ply disposed on an outer wall of the membrane of the cryogenic liquid hold;
A first reinforced polyurethane foam (hereinafter referred to as a first R-PUF) attached to an outer surface of the first plywood;
A rigid secondary barrier (RSB) that receives the first R-PUF and is connected to the first ply and is divided into a plurality of spaces;
A second reinforced polyurethane foam (hereinafter referred to as a second R-PUF) attached to an outer surface of the RSB;
A protective film attached to an outer surface of the second R-PUF;
A second ply disposed on an outer surface of the protective film and fixed to an inner wall of the hull; And
And a VIP module disposed between an outer surface of the protective film and an inner surface of the second ply, the VIP module including a vacuum insulation panel (VIP).
The method according to claim 1,
Wherein the protective film is a thin metal film or a synthetic resin having elasticity.
The method according to claim 1,
PUF and the protection film, between the first R-PUF and the RSB, between the RSB and the second R-PUF, between the first R-PUF and the protection film, between the first P- Wherein the attachment between the film and the VIP module, and between the VIP module and the second ply are each made of a polyurethane adhesive.
The method according to claim 1,
The VIP module includes:
A plurality of VIP blocks stacked in a plurality of rows and columns between the outer surface of the protective film and the inner surface of the second ply,
And a polyurethane adhesive filled in a space between an outer surface of the protective film and an inner surface of the second ply.
The method according to claim 1,
The VIP module includes:
A plurality of first plywood boxes arranged in rows and columns between an outer surface of the protective film and an inner surface of the second plywood,
A high vacuum VIP block embedded in the first plywood box,
A medium vacuum VIP filled in an outer surface of the high vacuum VIP block and an inner space of the first plywood box;
And a polyurethane adhesive filled in a space between an outer surface of the protective film and an inner surface of the second ply.
The method according to claim 5,
The high vacuum VIP block and the medium vacuum VIP is a glass wool, mineral wool, ceramic wool, polyester foam, polyethylene foam, melamine foam, airgel powder, fumed silica insulation module of the liquid cargo hold, characterized in that at least one or more combinations. .
The method according to claim 5,
The VIP module includes:
Further comprising a stress distribution partition wall spaced apart from the outer surface of the protective film and the inner surface of the second ply.
The method of claim 7,
The stress distribution partition wall may include:
Insulation module of a liquid hold, characterized in that the combination of at least one or more of the reinforced polyurethane foam, phenol foam, silica board.
The method according to claim 1,
The VIP module includes:
A plurality of second plywood boxes arranged in rows and columns between an outer surface of the protective film and an inner surface of the second plywood,
An VIP block built in the second plywood box,
An airgel blanket packed in an outer surface of the VIP block and an inner space of the second plywood box,
And a polyurethane adhesive filled in a space between an outer surface of the protective film and an inner surface of the second ply.
Claim 1
The VIP module includes:
An VIP block disposed between an outer surface of the protective film and an inner surface of the second plywood,
A plurality of airgel blanket enclosing the plurality of VIP blocks and having a block shape arranged in a plurality of rows and columns;
And a polyurethane adhesive filled in a space between an outer surface of the protective film and an inner surface of the second ply.
The method of claim 9,
Wherein the VIP block is disposed in a plurality of rows and columns in the second ply box.
The method of claim 9,
Wherein the VIP block is stacked in a plurality of rows and columns in the second ply box.
The method according to claim 9 or 10,
Wherein the airgel blanket is a melamine foam impregnated in an aerosol.
The method according to claim 9 or 10,
The airgel blanket includes:
Insulating module of the liquid cargo hold, characterized in that the mineral wool, glass wool, ceramic wool, polyester foam, polyethylene foam, urethane foam, melamine foam, carbon impregnated in the airgel or a combination of at least one or more.

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