KR102603750B1 - Heat insulation structure for cryogenic liquid storage tank and installation method thereof - Google Patents

Abstract

The present invention relates to an insulation structure of a cryogenic fluid storage tank and a method of installing the insulation structure. More specifically, anchor strips are installed on adjacent edges of the upper part of the insulation board, but the anchor strips installed on the edges are not perpendicular to each other. An exposed part where an anchor strip is not installed is formed on the upper surface of the corner where the edge part meets, and a fixing part is not installed on the anchor strip, so that the weld line is formed in a straight line and an insulation structure of a cryogenic fluid storage tank that facilitates automatic welding; It relates to a method of installing an insulation structure.
The insulation structure of a cryogenic fluid storage tank according to the present invention includes a plurality of insulation boards installed to be spaced apart from each other on the inner wall of the storage tank; A plurality of unit membranes installed to correspond to upper portions of the plurality of insulation boards, respectively; And an anchor strip installed on the upper part of the plurality of insulation boards to secure the plurality of unit membranes, wherein the anchor strip is installed on first and second edge portions adjacent to each other on the upper part of the insulation board. It includes a second anchor strip, and the first and second anchor strips are not installed on the upper surface of the corner portion so that the first and second anchor strips are not perpendicular to each other at a corner portion where the first and second edge portions meet. An insulating structure for a cryogenic fluid storage tank is provided, wherein an exposed portion is formed.

Description

{HEAT INSULATION STRUCTURE FOR CRYOGENIC LIQUID STORAGE TANK AND INSTALLATION METHOD THEREOF}

The present invention relates to an insulation structure of a cryogenic fluid storage tank and a method of installing the insulation structure. More specifically, anchor strips are installed on adjacent edges of the upper part of the insulation board, but the anchor strips installed on the edges are not perpendicular to each other. An exposed part where an anchor strip is not installed is formed on the upper surface of the corner where the edge part meets, and a fixing part is not installed on the anchor strip, so that the weld line is formed in a straight line and an insulation structure of a cryogenic fluid storage tank that facilitates automatic welding; It relates to a method of installing an insulation structure.

In general, the cargo hold of a membrane-type liquefied natural gas carrier transports liquefied natural gas at -163 degrees at sea and is exposed to static and dynamic loads, including cryogenic heat load and loads resulting from ship motion and hull deformation. Advanced technology is required to safely transport gas.

The liquefied natural gas storage tank includes a primary barrier, an upper insulation board, a secondary barrier, and a lower insulation board arranged from the inside to the outside of the liquefied natural gas storage tank, and is coupled to the inside of the hull.

This liquefied natural gas storage tank is made through the process of combining a plurality of lower insulation boards inside the hull, installing a secondary barrier on the plurality of lower insulation boards, and installing an upper insulation board and a primary barrier on the secondary barrier. It is produced.

For example, the method of manufacturing a conventional liquefied natural gas storage tank is explained as follows. First, the worker joins the insulation board, which is formed by the lower insulation board, the main secondary barrier, and the upper insulation board, to the inner hull next to each other. Then, the worker installs the auxiliary secondary barrier and connection board on the main secondary barrier on the lower insulation board and in the space between the upper insulation board. Then, install the first barrier on top of the upper insulation board and connection board.

When installing an insulation structure with this configuration, fixing parts are needed to fix the insulation board and barrier. Conventionally, these fixing parts are located on the anchor strip line, so they are not welded in a straight line, but are welded with a chamfer line that bypasses the fixing part. There were difficulties with automatic welding.

Republic of Korea Patent Publication No. 10-2013-0005539 (2013.01.16)

Therefore, the present invention is to solve the conventional problem as described above. Anchor strips are installed on adjacent edges of the upper part of the insulation board, but the anchor strips installed on the edges are not perpendicular to each other at the corners where the edges meet. The purpose is to form an exposed portion on the upper surface where an anchor strip is not installed, and to prevent a fixing portion from being installed on the anchor strip, so that the welding line is formed in a straight line to facilitate automatic welding.

According to one aspect of the present invention for achieving the above object, there is provided an insulation structure coupled to the inner wall of a storage tank to insulate a cryogenic fluid storage space, comprising: a plurality of insulation boards installed to be spaced apart from each other on the inner wall of the storage tank; A plurality of unit membranes installed to correspond to upper portions of the plurality of insulation boards, respectively; And an anchor strip installed on the upper part of the plurality of insulation boards to secure the plurality of unit membranes, wherein the anchor strip is installed on first and second edge portions adjacent to each other on the upper part of the insulation board. It includes a second anchor strip, and the first and second anchor strips are not installed on the upper surface of the corner portion so that the first and second anchor strips are not perpendicular to each other at a corner portion where the first and second edge portions meet. An insulating structure for a cryogenic fluid storage tank is provided, wherein an exposed portion is formed.

It is preferable that the connection between the first and second anchor strips is disconnected by the exposed portion, and a thermal protector is installed on the exposed portion.

The anchor strip includes a third anchor strip installed to connect one side of the first anchor strip and the other side of the second anchor strip at the corner portion, and the third anchor strip is installed to bypass the exposed portion. It is desirable.

It includes a fixing part for fixing the plurality of insulation boards and the plurality of unit membranes to the inner wall of the storage tank, and the fixing part is preferably not installed on the anchor strip.

The unit membrane is installed on the top of the insulation board, and preferably includes a wrinkle portion formed in the downward direction between the insulation boards installed to be spaced apart from each other.

A receiving groove is formed in the upper part of the insulation board, and the unit membrane preferably includes a wrinkle portion formed in the downward direction to be received in the receiving groove.

The insulation board includes a first receiving groove located closest to the corner portion at the first edge portion; and a second receiving groove located closest to the corner portion at the second edge portion, wherein the anchor strip includes a fourth anchor strip installed to connect the first receiving groove and the second receiving groove. It is preferable that the fourth anchor strip is installed to bypass the exposed portion.

According to another aspect of the present invention, in the method of installing an insulation structure coupled to the inner wall of a storage tank to insulate a cryogenic fluid storage space, the lower insulation structure is installed to be spaced apart from each other on the inner wall of the storage tank and has a receiving groove formed at the top. First step of installing the board; A second step of installing first and second lower anchor strips on adjacent first and second edge portions of the upper part of the lower insulation board, respectively; A third step of installing a lower unit membrane to overlap the upper part of the lower insulation board, and fixing the lower unit membrane to the first and second lower anchor strips; A fourth step of installing upper insulation boards on top of the lower unit membrane to be spaced apart from each other; A fifth step of installing first and second upper anchor strips on adjacent third and fourth edges of the upper insulating board, respectively; And a sixth step of installing the upper unit membrane to overlap the upper insulation board, and fixing the upper unit membrane to the first and second upper anchor strips, wherein in the second step, the first and a cryogenic fluid storage tank in which an exposed portion in which the first and second anchor strips are not installed is formed on the upper surface of the lower corner portion so that the first and second upper anchor strips are not perpendicular to each other in the lower corner portion where the second edge portions meet. Provides a method of installing an insulation structure.

According to the present invention, anchor strips are installed on adjacent edges of the upper part of the insulation board, and an exposed part where the anchor strip is not installed is formed on the upper surface of the corner where the edge parts meet so that the anchor strips installed on the edge parts are not perpendicular to each other. , by ensuring that no fixing parts are installed on the anchor strip, the welding line is formed in a straight line, thereby facilitating automatic welding.

1 is a diagram illustrating an insulation structure of a cryogenic fluid storage tank according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of portion AA' of FIG. 1.
Figure 3 is a diagram showing an insulation structure of a cryogenic fluid storage tank according to another embodiment of the present invention.

Hereinafter, embodiments of the insulation structure of a cryogenic fluid storage tank according to the present invention will be described in detail with reference to the drawings. In the description with reference to the accompanying drawings, identical or corresponding components are assigned the same drawing numbers and Redundant explanations will be omitted.

According to this embodiment, the LNG storage tank is a storage tank in which cryogenic fluid, such as LNG, is stored, and a primary barrier in which a plurality of unit membranes that seal the interior are welded is installed on the inner wall of the storage tank.

In other words, the storage tank is provided with an insulation structure to insulate the interior, and among these insulation structures, a membrane can be used as a primary barrier in direct contact with LNG.

A primary insulation board and a secondary insulation board are installed between the primary barrier and the inner wall of the storage tank, and a secondary barrier is installed between the primary insulation board and the secondary insulation board.

The secondary insulation board is installed on the upper part of the inner wall of the storage tank. To install the secondary insulation board on the inner wall, it is first fixed to the inner wall by mastic bonding, and then fixed firmly again by mechanical coupling with stud bolts and nuts. do.

The insulation structure of the present invention relates to the configuration and installation method of the above components, especially the secondary insulation board and the secondary barrier, but for convenience, it will be described without distinguishing between primary and secondary.

FIG. 1 is a diagram showing an insulation structure of a cryogenic fluid storage tank according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of portion AA' of FIG. 1, and FIG. 3 is another embodiment of the present invention. This is a diagram showing the insulation structure of a cryogenic fluid storage tank according to .

As shown in Figures 1 to 3, the insulation structure coupled to the inner wall of the storage tank to insulate the cryogenic fluid storage space according to the present invention includes a plurality of insulation boards 110 installed spaced apart from each other on the inner wall of the storage tank. It includes a plurality of unit membranes 130 installed to correspond to each other on the top of the insulation board 110, and a plurality of anchor strips installed on the top of the plurality of insulation boards 110 to secure the plurality of unit membranes 130. can do.

The anchor strip includes first and second anchor strips 121 and 122 installed on first and second edges adjacent to each other on the top of the insulation board 110, and a first anchor strip is located at the corner where the first and second edges meet. And so that the second anchor strips 121 and 122 do not cross each other at right angles, an exposed portion where the anchor strip is not installed may be formed on the upper surface of the corner portion.

As shown in Figure 1, in one embodiment of the present invention, the connection between the first and second anchor strips 121 and 122 is severed by the exposed portion, and a thermal protection member 125 is provided on the exposed portion. Can be installed.

In another embodiment of the present invention, as shown in FIG. 3, the anchor strip is a third anchor strip installed so that one side of the first anchor strip 121 and the other side of the second anchor strip 122 are connected at the corner portion. It includes (123), and the third anchor strip 123 may be installed to bypass the exposed portion. The third anchor strip 123 may connect the first anchor strip 121 and the second anchor strip 122 in a chamfered shape.

Meanwhile, a fixing part 140 (security device) may be installed to secure the plurality of insulation boards 110 and the plurality of unit membranes 130 to the inner wall of the storage tank. In the past, there was a problem that it was difficult to perform automatic welding in a straight line because the fixing part was installed on the anchor strip line. However, in the present invention, the fixing part 140 is installed in a location other than the anchor strip line to make welding easier.

A plurality of fixing parts 140 may be installed on two lines on one insulation board 110. If the fixing part 110 is installed in only one line on the primary insulation board, there is a risk that the primary insulation board may rotate depending on the load, and the fixing force between the insulation boards may be reduced. Therefore, it is preferable to install a plurality of fixing parts 110 in two lines. .

Meanwhile, the unit membrane 130 is installed on the upper part of the insulation board 110, and may include a wrinkle part 135 formed in the downward direction between the gaps 111 of the insulation boards 110 that are installed to be spaced apart from each other. , It may include another wrinkle portion 135 formed downward to be accommodated in a receiving groove formed on the top of the insulation board.

The receiving groove located closest to the corner from the first edge of the insulation board 110 is called the first receiving groove 115a, and the receiving groove located closest to the corner from the second edge is called the second receiving groove. When referring to (115b), the fourth anchor strip may be installed to connect the first receiving groove (115a) and the second receiving groove (115b), and may be installed to bypass the exposed portion.

It is preferable that the receiving groove 115 of the insulation board 110 is formed in a location where the anchor strip is not installed.

Meanwhile, the insulation board 110 generally includes an upper plywood layer and a lower plywood layer. Conventionally, the anchor strip is located in the center, so it is manufactured by bonding and pressing to prevent separation between the polyurethane foam and the plywood. However, in the present invention, since the anchor strip is located at the edge, there is a possibility of separation even after bonding and compression.

Therefore, in the present invention, in order to compensate for this, a side plywood layer can be installed on the side of the insulation board 110 to prevent the upper and lower plywood layers from being separated to ensure structural stability.

There is a separation space between neighboring insulation boards 110, and if the rigid urethane foam is installed well in the separation space, it is more effective in insulating and keeping warm. However, as the separation space changes variously when installing the insulation boards, installation is difficult.

Therefore, in the present invention, rigid urethane foam is inserted into this space to be adjacent to the side plywood layer, glass wool is inserted to be adjacent to the rigid urethane foam, and the glass wool is bonded to the side of the insulation board facing the side plywood layer. It can be. By minimizing the amount of glass wool insulation in the space, the insulation effect can be maximized and installation can be facilitated. The insulation effect of glass wool insulation is correlated with density, and the density is 22~40kg/m3, but the insulation effect is 0.034W/m℃, and rigid uretha foam has an insulation effect about 2~3 times more.

Meanwhile, the installation method of the insulation structure coupled to the inner wall of the storage tank to insulate the cryogenic fluid storage space is described as follows.

In general, the insulation board includes an upper insulation board and a lower insulation board, and the unit membrane includes an upper unit membrane and a lower unit membrane. However, in the above, they are described without distinction, and in the following to explain the installation method of the insulation structure. These are explained separately.

The method of installing an insulation structure coupled to the inner wall of a storage tank to insulate a cryogenic fluid storage space includes the first step of installing lower insulation boards that are installed on the inner wall of the storage tank and spaced apart from each other and have a receiving groove formed at the top, lower insulation. A second step of installing first and second lower anchor strips on adjacent first and second edge portions of the upper part of the board, respectively; A third step of installing the lower unit membrane to overlap the upper part of the lower insulation board and fixing the lower unit membrane to the first and second lower anchor strips; A fourth step in which the upper insulation boards are installed on the upper part of the lower unit membrane to be spaced apart from each other; A fifth step of installing first and second upper anchor strips on adjacent third and fourth edges of the upper insulation board, respectively; And a sixth step of installing the upper unit membrane to overlap the upper insulation board and fixing the upper unit membrane to the first and second upper anchor strips.

In the second step, first and second upper anchor strips are installed on the first and second edge portions, so that the first and second upper anchor strips are not perpendicular to each other at the lower corner portion where the first and second edge portions meet, It can be installed so that an exposed portion is formed.

In the first step, a side plywood layer is installed on at least one side of the lower insulation board, and rigid urethane foam is installed adjacent to the side plywood layer in the space between neighboring lower insulation boards, adjacent to the rigid urethane foam. Glass wool may be installed to do so.

Additionally, in the third step, the corrugated portion of the unit membrane may be installed to be accommodated in the receiving groove of the lower insulation board.

The insulation structure of the cryogenic fluid storage tank applied in the embodiment of the present invention can be installed on a ship, etc., and can be installed on land to store, store, or transport LNG.

Here, a ship is a concept that includes both structures and ships that have storage tanks for storing LNG, a liquid cargo loaded in a cryogenic state, such as an LNG carrier, and are used while floating in the sea where flow occurs. For example, This includes not only offshore structures such as LNG-FPSO (Floating, Production, Storage and Offloading) or LNG-FSRU (Floating Storage and Regasification Unit), but also vessels such as LNG transport ships and LNG-SRV (LNG Shuttle and Regasification Vessel). .

In the insulation structure of a cryogenic fluid storage tank and the method of installing the insulation structure according to the present invention, anchor strips are installed on adjacent edges of the upper part of the insulation board, but the corners where the edges meet so that the anchor strips installed on the edges are not perpendicular to each other are not perpendicular to each other. By forming an exposed part on the upper surface of the part where no anchor strip is installed, and not having a fixing part installed on the anchor strip, the weld line is formed in a straight line, which has the advantage of facilitating automatic welding.

Additionally, by installing a side plywood layer on at least one side of the insulation board, it is possible to prevent the plywood layers connected to the upper and lower sides of the insulation board from separating and coming off.

The present invention is not limited to the above-described embodiments, and it is obvious to those skilled in the art that the present invention can be implemented with various modifications or modifications without departing from the technical gist of the present invention. It was done.

110: insulation board 115: receiving groove
120: anchor strip 121: first anchor strip
122: second anchor strip 123: third anchor strip
130: unit membrane 135: pleated portion

Claims (8)

In the insulation structure coupled to the inner wall of the storage tank to insulate the cryogenic fluid storage space,
A plurality of insulation boards installed to be spaced apart from each other on the inner wall of the storage tank;
A plurality of unit membranes installed to correspond to upper portions of the plurality of insulation boards, respectively; and
It includes an anchor strip installed on top of the plurality of insulation boards to secure the plurality of unit membranes,
The anchor strip includes first and second anchor strips installed on first and second edges adjacent to each other on the upper part of the insulation board,
At the corner where the first and second edge parts meet, an exposed part where the first and second anchor strips are not installed is formed on the upper surface of the corner part so that the first and second anchor strips are not perpendicular to each other,
The anchor strip is,
It includes a third anchor strip installed to connect one side of the first anchor strip and the other side of the second anchor strip at the corner portion,
The third anchor strip is installed to bypass the exposed portion and connects the first anchor strip and the second anchor strip in a chamfer shape,
It includes a fixing part that secures the plurality of insulation boards and the plurality of unit membranes to the inner wall of the storage tank,
The fixing parts are not installed on the anchor strip, but are installed in plural numbers on two lines on one insulation board,
A receiving groove is formed in the upper part of the insulation board,
The unit membrane includes a wrinkle portion formed in the downward direction to be accommodated in the receiving groove,
The insulation board is,
A first receiving groove located closest to the corner portion in the first edge portion; And
It includes a second receiving groove located closest to the corner portion at the second edge portion,
The anchor strip is,
It includes a fourth anchor strip installed to connect the first receiving groove and the second receiving groove,
The fourth anchor strip is installed to bypass the exposed portion, an insulation structure of a cryogenic fluid storage tank. In claim 1,
The insulation structure of a cryogenic fluid storage tank, wherein the connection between the first and second anchor strips is disconnected by the exposed portion, and a thermal protect member is installed on an upper portion of the exposed portion. delete delete delete delete delete delete

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