KR20120136333A - Pump tower installation structure of lng storage tank, and method for manufacturing the same - Google Patents

Abstract

PURPOSE: A pump tower installation structure for a liquefied natural gas storage tank and a manufacturing method thereof are provided to efficiently fix a pipe of a pump tower in an opening of an inner hull and to effectively finish an insulation structure of a storage tank on the inner hull. CONSTITUTION: A pump tower installation structure for a liquefied natural gas storage tank comprises a support plate(10) and a cover(20). The support plate is installed at a constant height around an opening formed in an inner hull above a liquefied natural gas storage tank. The top of the support plate is opened. The cover comprises a through-hole corresponding to a pipe of a pump tower installed in the storage tank. The cover covers and seals the top of the support plate. An insulation board for the cover is formed at the bottom of the cover. The height of the insulation board for the cover is adjusted.

Description

Pump tower installation structure of LNG storage tank and its manufacturing method {PUMP TOWER INSTALLATION STRUCTURE OF LNG STORAGE TANK, AND METHOD FOR MANUFACTURING THE SAME}

The present invention relates to a pump tower installation structure of a liquefied natural gas storage tank and a manufacturing method thereof.

Liquefied natural gas (LNG) storage tanks of carriers store liquefied natural gas cooled to approximately -163 ° C, and are made of materials that can withstand cryogenic temperatures, and are resistant to thermal stress and heat shrinkage, and insulate structures that can block heat intrusion. Is made of. The storage tank has a primary barrier, an upper insulation board, a secondary barrier, and a lower insulation board in an outward direction from the inside of the tank, and is provided in a state coupled with an inner hull.

The storage tank is provided with a pump tower for unloading liquefied natural gas, the pump tower is composed of a pipe structure having a plurality of pipes. The pipes of the pump tower are installed in a direction penetrating the upper surface of the storage tank. At this time, the lower part of the pipe is disposed so as to face the bottom surface inside the storage tank, the upper part of the pipe protrudes above the storage tank is mounted in a state fixed to the hull side.

Typically, each pipe of the pump tower is fixed to the outer hull side when fixed to the hull side. As an example, Korean Patent Publication No. 10-2011-0026945 (hereinafter referred to as 'prior document') is mounted on the pump tower in such a way that the upper part of the pipe is fixed to the trunk deck (trunk deck) side corresponding to the outer hull and finished. Has disclosed the technology made.

In this case, however, the insulation construction must be additionally performed in the space formed between the outer hull and the inner hull, so that the pipe fixing structure and the fixing work may be complicated. In addition, since it is difficult to smoothly finish around the secondary barrier disposed between the inner hull and the primary barrier, a leak problem may occur.

Patent Document: Korean Patent Publication No. 10-2011-0026945 (published Mar. 16, 2011)

Embodiment of the present invention includes a cover for providing a through-hole corresponding to the pipe of the pump tower and the support plate installed at a predetermined height in the periphery of the opening formed in the inner hull and covers the upper portion of the support plate to seal the opening, the opening in the lower portion of the cover By providing a heat insulation board for the cover formed on the lower side and the insulation construction on the periphery of the heat insulation board for the cover, it is possible to efficiently fix and install the pipes of the pump tower in the opening formed in the inner hull, the insulation of the storage tank in the inner hull The purpose of the present invention is to provide a pump tower installation structure of a liquefied natural gas storage tank and a manufacturing method thereof, in which the structure can be effectively finished.

In addition, it is possible to adjust the height of the insulation board for the cover to improve the workability, and to provide a pump tower installation structure of the liquefied natural gas storage tank that can be efficiently constructed construction of the storage tank and its manufacturing method.

According to an aspect of the invention, the hollow support plate is installed at a predetermined height in the periphery of the opening formed in the inner hull of the liquefied natural gas storage tank, the hollow support plate having an open shape; And a cover for providing a through hole corresponding to the pipe of the pump tower installed in the storage tank and covering the upper portion of the support plate to seal the cover plate, wherein the cover has a heat insulating board for a cover formed at a lower side of the opening. In addition, the cover insulation board may be adjustable in height.

The cover insulation board may include a first protection plate attached to the lower portion of the cover, a heat insulation member for cover provided under the first protection plate, a second protection plate laminated under the cover insulation member, and a lower portion of the second protection plate. An adhesive layer may be attached to the lower side of the second protective plate by the adhesive layer, and may include a protective plate for adjusting the height adjustment.

It may further include a heat insulation layer disposed between the lower insulation board and the cover insulation board provided in the lower inner hull.

The auxiliary secondary barrier provided under the lower insulation board, the auxiliary secondary barrier disposed on the same plane as the main secondary barrier, and the auxiliary secondary barrier so as to lie on the same plane as the upper insulation board below the main secondary barrier. It may further include a connection board provided under the secondary barrier.

The cover insulation board is disposed on the same plane as the connection board by adjusting the height of the protective cover, and the primary barrier on the lower surface of the cover insulation board, the connection board and the upper insulation board on the same plane. This can be stacked.

The support plate may be provided to correspond to the shape of the opening, and may include a support part disposed in a longitudinal direction on the periphery of the opening, and at least one surface of the support part extending outward from an upper end of the support part.

An insulation member may be interposed between the support and the cover insulation board.

According to another aspect of the invention, (a) installing the support plate at a predetermined height in the periphery of the opening; (b) covering and sealing an upper portion of the support plate using the cover; And (c) performing an insulation barrier operation on the periphery of the insulation board for the cover, wherein the step (c) includes adjusting the height of the insulation board for the cover. A method of manufacturing a pump tower installation structure may be provided.

The step (c) is a step of arranging an insulating layer between the lower insulation board provided below the inner hull and the cover insulation board under the cover, and is disposed on the same plane as the main secondary barrier below the lower insulation board Arranging an auxiliary secondary barrier so as to be arranged; arranging a connection board under the auxiliary secondary barrier so as to be coplanar with an upper insulation board below the main secondary barrier; Performing the height adjustment of the cover insulation board so that the connection board is on the same plane, and the primary barrier on the lower surface of the cover insulation board, the connection board and the upper insulation board on the same plane. Laminating may be further included.

The cover insulation board may include a first protection plate attached to the lower portion of the cover, a heat insulation member for cover provided under the first protection plate, a second protection plate laminated under the cover insulation member, and a lower portion of the second protection plate. An adhesive layer, and an adjusting protective plate attached to the lower side of the second protective plate by the adhesive layer, and after placing the connection board under the auxiliary secondary barrier, the adjusting protective plate is provided below the second protective plate by the adhesive layer. The height and height of the cover insulation board can be adjusted by attaching.

The pump tower installation structure of the liquefied natural gas storage tank and the manufacturing method thereof according to an embodiment of the present invention provide a support plate and a through hole corresponding to a pipe of a pump tower installed at a predetermined height in the periphery of the opening formed in the inner hull. Including a cover covering the upper part of the plate and sealing, but providing a cover insulation board formed under the opening in the lower part of the cover, and the insulation construction is made in the periphery of the cover insulation board, the pipe of the pump tower in the opening formed in the inner hull It can be efficiently fixed and installed, and the insulation structure of the storage tank in the inner hull can be effectively finished.

In addition, it is possible to adjust the height of the cover insulation board to improve the workability, the construction of the heat insulation structure of the storage tank can be made efficiently.

1 is a plan view showing a pump tower installation structure of a liquefied natural gas storage tank according to an embodiment of the present invention.
2 is a cross-sectional view showing a pump tower installation structure of the liquefied natural gas storage tank of FIG.
3 to 5 are sectional views showing the manufacturing process of the pump tower installation structure of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like numbers refer to like elements throughout.

1 and 2, the liquefied natural gas storage tank 1 (hereinafter referred to as "storage tank") according to an embodiment of the present invention forms an opening (H) in the inner hull (2) of the upper And a pump tower installed through the opening (H). Pump towers typically have a pipe structure having a plurality of pipes (P) comprising two discharge pipes, one filling pipe and one emergency pipe for unloading liquid cargo. It may be made of. The pump tower installation structure of the storage tank 1 according to the embodiment of the present invention for the installation of such a pump tower includes a support plate 10, a cover 20, a heat insulating layer 40 and the adjustment closing portion 102.

The support plate 10 is installed at a predetermined height at the periphery of the opening H, and is provided in a hollow shape having an open top portion. The support plate 10 is provided to correspond to the shape of the opening H, the support 10a disposed in the longitudinal direction at the periphery of the opening H, and at least one surface thereof extends outward from the upper end of the support 10a. It includes a connecting portion (10b) formed.

The cover 20 provides a through hole 2a corresponding to each pipe P of the pump tower installed in the storage tank 1, and covers and seals the upper portion of the support plate 10. Here, the cover 20 may be provided with a through hole (2a) for the pipes associated with the valves, various hierarchical equipment as well as the pipe (P) of the pump tower for the unloading of the liquid cargo. The cover 20 is provided with a cover insulation board 30 formed in the lower portion of the opening (H) below. An insulation member 45 may be interposed between the support part 10a and the cover insulation board 30.

The cover insulation board 30 includes a first protection plate 31 attached to the bottom of the cover 20 by an adhesive M such as mastic, a heat insulation member 32 provided below the first protection plate 31, and The second protective plate 33 attached to the lower portion of the heat insulating member 32, the adhesive layer 34 under the second protective plate 33, and the adhesive layer 34 are attached to the lower side of the second protective plate 33 to adjust the height. An adjustable protective plate 36 is performed. By adjusting the height of the cover insulation board 30 through the adjustable protective plate 36, the cover insulation board 30 is disposed on the same plane as the upper insulation board 70 and the connection board 80 to be described later. Can be. Through this, workability can be improved, and the insulation structure construction of the storage tank 1 can be efficiently performed. The cover insulation board 30 may be provided in the form of a plurality of insulation blocks.

The heat insulation layer 40 is disposed between the lower insulation board 50 and the cover insulation board 30 provided under the inner hull 2. At this time, the auxiliary secondary barrier 62 overlaps the main secondary barrier 61 provided below the lower insulation board 50 and the adjustment dead end portion 102 to form a sealed structure. The primary secondary barrier 61 and the secondary secondary barrier 62 have a very thin thickness and hardly generate a step, and may be disposed on the same plane with each other.

In addition, the connection board 80 is provided under the secondary secondary barrier 62 so as to be interposed between the upper insulation board 70 and the cover insulation board 30 under the primary secondary barrier 61.

In addition, the insulating layer 40 is provided in the form of a plurality of insulating blocks (41 ~ 43), at least one of the insulating blocks (41 ~ 43) of the insulating block to be attached to the lower portion of the inner hull (2) by the adhesive (M). Can be. That is, the insulating layer 40 is provided in the form of a plurality of insulating blocks (41 ~ 43), both of the insulating blocks (41 ~ 43) both sides of the other insulating blocks in contact with the cover insulating board 30 and the lower insulating board (50). The insulating block 43 enclosed by the 41 and 42 is attached to the lower portion of the inner hull 2 by the adhesive (M). The insulating blocks 41 and 42 may be provided in the form of, for example, glass wool.

The lower insulation board 50 is disposed between the inner hull 2 and the main secondary barrier 61, and includes a lower protection plate 51 and a lower insulation member 52. The lower protective plate 51 may be made of, for example, a material such as plywood. The lower insulation member 52 is made of, for example, a polyurethane foam (PUF, Polyurethane Form) to protect the hull from the cryogenic fluid. The lower insulation member 52 may be bonded to the lower portion of the lower protective plate 51 by an adhesive (for example, glue).

In addition, the upper insulation board 70 is disposed between the primary barrier 90 and the main secondary barrier 61, and includes an upper insulation member 72 and an upper protective plate 71. The upper insulation member 72 may be made of the same material as the lower insulation member 52, and the upper protection plate 71 may be made of the same material as the lower protection plate 51.

In addition, the primary barrier 90 is formed in direct contact with the liquefied natural gas and has a high airtightness, and when the contact with the cryogenic liquefied natural gas occurs, heat shrinkage occurs, and when the heat shrinkage occurs, the welded portion is damaged due to thermal stress. It can be formed to maintain a low in-plane stiffness to prevent it. The primary barrier 90 is formed to have a wrinkled portion 90a, and the wrinkled portion 90a is deformed by a certain amount when heat shrinkage occurs, thereby reducing thermal stress at the welded portion. The primary barrier 90 may be made of a metal material such as stainless steel.

In addition, the primary secondary barrier 61 and the secondary secondary barrier 62 may be composed of a plurality of sheets made of metal materials such as stainless steel, aluminum, brass, zinc, and the like. As another example, the primary secondary barrier 61 may be composed of a composite sheet composed of a metal sheet and a fiber reinforced composite material.

In addition, the connection board 80 includes a connection protection plate 81 and a connection insulation member 82, the connection insulation member 82 is made of the same material as the lower insulation member 52, the connection protection plate 81 is It may be made of the same material as the lower protective plate 51.

Adjusting the closing portion 102 is fixed to the height adjustable to the vertical closing portion 103 side bonded in the vertical direction to the lower portion of the inner hull (2). At this time, the adjustment closing portion 102 is fixedly installed on the vertical finishing portion 103 side to be disposed on the same plane as the peripheral insulating layer (40, 50). The vertical finishing part 103 may be formed integrally with the inner hull 2 or may be manufactured separately and fixed by welding. In addition, the adjustment closing portion 102 may be fixed to the vertical closing portion 103 by welding, the cross-sectional shape may be provided in a '└' shape. However, the shape of the '└' is not limited to the shape, and the adjustment closing part 102 may be provided in various shapes to be disposed on the same plane as the auxiliary secondary barrier 62.

Hereinafter, a process of manufacturing a pump tower mounting structure of the storage tank 1 will be described based on the contents of FIGS. 1 and 2.

First, as shown in FIG. 3, the support plate 10 is installed in the peripheral part of the opening H at a predetermined height. The support plate 10 may be welded to the opening H. In this case, it is assumed that the inner hull 2 on the stern side and the bow side is provided with a lower insulation board 50, a main secondary barrier 61, and an upper insulation board 70. Here, the inner side surfaces of the lower insulation board 50, the main secondary barrier 61, and the upper insulation board 70, which are installed at the corners of the storage tank 1, may be curved to prevent concentration of stress. have.

Next, using the cover 20 to cover the upper portion of the support plate 10 to seal. Here, the cover 20 is provided with a heat insulating board 30 for the cover formed under the opening (H) at the bottom. The cover insulation board 30 may be attached to the bottom of the cover 20 by an adhesive (M) such as mastic.

Next, the vertical finishing portion 103 is bonded to the lower portion of the inner hull 2. Thereafter, a heat insulation barrier work is performed on the periphery of the cover insulation board 30 of the cover 20. To this end, first, the heat insulating member 45 is disposed between the support plate 10 and the cover heat insulating board 30.

Next, the insulation layer 40 is disposed between the lower insulation board 50 and the cover insulation board 30 provided under the inner hull 2. At this time, the heat insulating block 43 of the heat insulating layer 40 to be in contact with the vertical finishing portion 103 is disposed under the inner hull 2 by the adhesive (M), the heat insulating block 43 and the lower insulating board 50 Another insulating block 41 is disposed between the two.

In addition, after fixing the adjustment closing portion 102 to the vertical closing portion 103 side, as shown in Figure 4, between the insulating block 43 and the cover insulating board 30 another insulating block ( 42). Next, the secondary secondary barrier 62 is bonded to the primary secondary barrier 61 and the adjustment closing portion 102 under the lower insulation board 50.

Next, as shown in FIG. 5, the connection board 80 is disposed under the auxiliary secondary barrier 62 so as to lie on the same plane as the upper insulation board 70 under the main secondary barrier 61. .

Next, the height of the cover insulation board 30 is adjusted so that the cover insulation board 30 and the connection board 80 are on the same plane. In this case, the height of the cover insulation board 30 may be adjusted by attaching the adjusting protective plate 36 to the lower side of the second protective plate 33 by the adhesive layer 34. In this process, the height adjustment using the control plate 36 for adjustment may be performed before the adhesive layer 34 is cured.

Next, the primary barrier 90 is laminated on the lower surface of the cover insulation board 30, the connection board 80, and the upper insulation board 70 on the same plane.

As described above, the insulation structure of the storage tank 1 in the inner hull 2 may be effectively finished by heat insulating the periphery of the cover insulation board 30 under the cover 20 formed under the opening H. In addition, it is possible to adjust the height of the cover insulation board 30 to improve the workability, the construction of the heat insulation structure of the storage tank 1 can be made efficiently.

The foregoing has shown and described specific embodiments. However, it is to be understood that the present invention is not limited to the above-described embodiment, and various changes and modifications may be made without departing from the scope of the technical idea of the present invention described in the following claims It will be possible.

1: storage tank 2: inner hull
10: support plate 20: cover
30: insulation board for cover 40: insulation layer
34: adhesive layer 36: protective cover
50: lower insulation board 61: primary secondary barrier
62: secondary secondary barrier 70: upper insulation board
80: connection board 102: adjustment finish
103: vertical finishing part
M: Adhesive H: Opening

Claims (10)

A hollow support plate installed at a predetermined height at a periphery of the opening formed in the inner hull of the liquefied natural gas storage tank and having an open top portion; And
A cover for providing a through hole corresponding to the pipe of the pump tower installed in the storage tank and covering and covering the upper portion of the support plate;
The cover is provided with a cover insulation board formed in the lower portion below the opening, the cover insulation board is a pump tower installation structure of the liquefied natural gas storage tank is adjustable height. The method of claim 1,
The cover insulation board is
A first protective plate attached to the lower part of the cover,
A heat insulating member for a cover provided under the first protective plate,
A second protective plate laminated under the cover insulation member;
An adhesive layer under the second protective plate,
Attached to the lower side of the second protective plate by the adhesive layer, the pump tower installation structure of the liquefied natural gas storage tank comprising a control plate for adjusting the height. The method of claim 2,
The pump tower installation structure of the liquefied natural gas storage tank further comprises a heat insulation layer disposed between the lower insulation board and the cover insulation board provided under the inner hull. The method of claim 3,
The auxiliary secondary barrier provided under the lower insulation board, the auxiliary secondary barrier disposed on the same plane as the main secondary barrier, and the auxiliary secondary barrier so as to lie on the same plane as the upper insulation board below the main secondary barrier. Pump tower installation structure of the liquefied natural gas storage tank further comprises a connection board provided under the secondary barrier. 5. The method of claim 4,
The cover insulation board is disposed on the same plane as the connection board by adjusting the height of the protective cover, and the primary barrier on the lower surface of the cover insulation board, the connection board and the upper insulation board on the same plane. Pump tower installation structure of the laminated LNG storage tank. The method of claim 1,
The support plate is provided in correspondence with the shape of the opening, the liquefied natural gas storage tank of the liquefied natural gas storage tank including a support portion disposed in the longitudinal direction at the periphery of the opening, and at least one surface extending outwardly from the upper end of the support portion Pump tower installation structure. The method according to claim 6,
A pump tower installation structure of a liquefied natural gas storage tank having an insulating member interposed between the support part and the cover insulating board. In the method for producing a pump tower installation structure of the liquefied natural gas storage tank according to any one of claims 1 to 7,
(a) installing the support plate at a predetermined height around the periphery of the opening;
(b) covering and sealing an upper portion of the support plate using the cover; And
(c) performing a thermal insulation barrier work around the insulation board for the cover;
The step (c) is a method of manufacturing a pump tower installation structure of the liquefied natural gas storage tank comprising the step of adjusting the height of the insulation board for the cover. 9. The method of claim 8,
The step (c) is a step of disposing a heat insulation layer between the lower insulation board provided in the lower portion of the inner hull and the cover insulation board under the cover,
Arranging an auxiliary secondary barrier to be disposed on the same plane as the main secondary barrier below the lower insulation board;
Arranging a connection board under the auxiliary secondary barrier to be coplanar with the upper insulation board under the primary secondary barrier;
Performing height adjustment of the cover insulation board so that the cover insulation board and the connection board are on the same plane;
Laminating a primary barrier on the lower surface of the insulation board, the connecting board and the upper insulation board for the cover on the same plane manufacturing method of the pump tower installation structure of the LNG storage tank. 10. The method of claim 9,
The cover insulation board may include a first protection plate attached to the lower portion of the cover, a heat insulation member for cover provided under the first protection plate, a second protection plate laminated under the cover insulation member, and a lower portion of the second protection plate. An adhesive layer, and an adjusting protective plate attached to the lower side of the second protective plate by the adhesive layer, and after placing the connection board under the auxiliary secondary barrier, the adjusting protective plate is provided below the second protective plate by the adhesive layer. Method of manufacturing a pump tower installation structure of the liquefied natural gas storage tank in which the height of the cover insulation board is controlled by attaching.

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