KR101422513B1 - Pump tower installation structure of lng storage tank - Google Patents

Abstract

A pump tower installation structure of a liquefied natural gas storage tank and a method of manufacturing the same are disclosed. An adapter disposed in a predetermined region of an opening formed in an inner hull of the liquefied natural gas storage tank according to an embodiment of the present invention and having one side connected to the inner hull; And a cover provided with a through hole corresponding to a pipe of the pump tower installed in the storage tank and disposed in the remaining area of the opening formed between the other side of the adapter and the inner hull.

Description

Technical Field [0001] The present invention relates to a pump tower installation structure for a liquefied natural gas storage tank,

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

The liquefied natural gas (LNG) storage tank of the carrier stores the liquefied natural gas cooled to approximately -163 ° C. Therefore, it is made of a material that can withstand cryogenic temperatures. It is resistant to thermal stress and heat shrinkage, . The storage tank is provided with a primary barrier, an upper insulation board, a secondary barrier and a lower insulation board from the inside of the tank in the outward direction, and is coupled with the inner hull.

The storage tank is provided with a pump tower for loading and unloading liquefied natural gas, and the pump tower is formed by a pipe structure having a plurality of pipes. The pipe of the pump tower is installed standing up in a direction passing through the upper surface of the storage tank. At this time, the lower part of the pipe is arranged to face the bottom surface of the inside of the storage tank, and the upper part of the pipe protrudes above the storage tank and is mounted on the side of the hull.

Normally, each pipe of the pump tower is fixed to the outer hull when it is fixed to the hull. As an example, Korean Patent Laid-Open Publication No. 10-2011-0026945 (published on March 16, 2011, hereinafter referred to as "prior art document") discloses a structure in which a pipe upper portion is fixed to a trunk deck side corresponding to an outer hull, And the pump tower is installed in the system.

However, in this case, since the insulation space must be additionally provided in the space formed between the outer hull and the inner hull, the pipe fixing structure and the fixing operation can be complicated. In addition, since it is difficult to smoothly finish the periphery of the secondary barrier disposed between the inner hull and the primary barrier, a leakage problem may occur. In addition, since the hermetic sealing portion is exposed to the outside of the outer hull in a state of wrapping the pipe protruding onto the outer hull, the spatial efficiency of the surroundings can be lowered and easily exposed to various external impacts.

Patent Document: Korean Patent Laid-Open No. 10-2011-0026945 (published on March 16, 2011)

An embodiment of the present invention is to provide a structure for installing a pump tower of a liquefied natural gas storage tank and a method for manufacturing the same, in which a pipe of a pump tower can be efficiently fixed and installed.

According to an aspect of the present invention, there is provided an adapter for a liquefied natural gas storage tank, the adapter being disposed in a predetermined region of an opening formed in an inner hull of the liquefied natural gas storage tank, And a cover disposed in a remaining region of the opening formed between the other side of the adapter and the inner hull, the through hole corresponding to the pipe of the pump tower installed in the storage tank, A pump tower installation structure may be provided.

The cover may include a first region contacting the other side of the adapter and formed with the through hole, and a second region extending from the first region and contacting the inner hull.

The first region may be provided with a thermal insulation board for a cover formed below the opening portion at a lower portion thereof, and a thermal insulation construction may be formed at a peripheral portion of the thermal insulation board for the cover.

The heat insulating board for a cover includes a plurality of heat insulating blocks, each heat insulating block including a first protective plate attached to a lower portion of the first region, a heat insulating member provided below the protective plate, A protective plate may be included.

And an adhesive layer and a controlling shroud attached to the lower portion of the second protecting plate by the adhesive layer may be provided under the second protecting plate.

And a heat insulating layer disposed between the lower heat insulating board provided under the inner hull and the heat insulating board for the cover.

The heat insulating layer includes a plurality of heat insulating blocks, and at least one of the heat insulating blocks may be attached to the lower portion of each of the adapter and the second region by an adhesive.

A vertical finishing portion vertically joined to the adapter and the cover lower portion, and an adjusting finishing portion fixed to the vertical finishing portion so as to be disposed on the same plane as the heat insulating layer.

The control finishing portion may have a cross-sectional shape of '?'

A primary secondary barrier provided below the lower insulating board and an auxiliary secondary barrier overlapped and bonded to the upper end of the secondary insulating barrier; And a connection board provided under at least one of the auxiliary secondary barrier and the heat insulating layer.

A primary barrier may be laminated on the lower surface of the heat insulating board for cover, the connecting board and the upper heat insulating board on the same plane.

The adapter, the inner hull and the cover may be welded to each other at portions where they are in contact with each other.

The adapter may be provided so as to correspond to a size of a remaining area of the opening, excluding an area occupied by the cover in the opening.

According to another aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: (a) disposing the adapter in a predetermined region of the opening; (b) a first region formed with the through-hole and a second region extending from the first region and contacting the inner hull, and a cover for the cover formed below the opening at a lower portion of the first region Arranging the cover provided in the remaining region of the opening; And (c) performing at least one barrier installation work and a thermal insulation work on the periphery of the heat insulating board for the cover.

Wherein the step (c) includes the steps of: welding the adapter and the cover to the vertical end in the vertical direction; welding a heat insulating layer between the lower heat insulating board provided below the inner hull and the heat insulating board for the cover And fixing the adjustment finishing portion to the vertical finishing portion so as to be coplanar with the heat insulating layer.

Wherein the step of disposing the heat insulating layer comprises the steps of attaching the first heat insulating block of the heat insulating layer to the lower portion of the second region of the adapter and the cover so as to be in contact with the vertical finishing portion, And placing the second heat insulating block of the insulating layer between the board or the first insulating block and the insulating board for the cover.

The method of claim 1, further comprising: after the step of disposing the heat insulating layer, bonding the secondary secondary barrier to overlap the primary secondary barrier provided below the lower insulating board and the adjustment finish portion; Disposing a connection board below at least one of the primary secondary barrier, the secondary secondary barrier and the insulating layer so as to lie on a plane; And further comprising laminating a primary barrier on the lower surface of the insulating board.

The structure of the pump tower installation structure and the method of manufacturing the same according to the embodiment of the present invention can effectively fix and install the pipe of the pump tower in the opening formed in the inner hull by the cover and the adapter.

In addition, the insulation around the periphery of the insulation board for the cover under the cover formed below the opening can be treated to effectively finish the insulation structure of the storage tank in the inner hull.

In addition, by providing an adapter provided in correspondence with the size of the remaining area of the opening except the area occupied by the cover in the opening, it is possible to effectively solve the problem of tolerance between the inner hull and the cover by providing the adapter in a region (crevice) generated between the inner hull and the cover.

1 is a plan view of a pump tower installation structure of a liquefied natural gas storage tank according to an embodiment of the present invention.
FIG. 2 is a sectional view showing a pump tower installation structure of the liquefied natural gas storage tank of FIG. 1. FIG.
3 is a sectional view showing another example of the pump tower installation structure of FIG.
4 to 8 are cross-sectional views illustrating a 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 reference numerals designate like elements throughout the specification.

1 and 2, a liquefied natural gas storage tank 1 (hereinafter referred to as a "storage tank") according to an embodiment of the present invention forms an opening H in the upper inner hull 2, , And a pump tower installed through the opening (H). The pump tower may typically consist of a pipe structure with a plurality of pipes (P), for example two discharge pipes for liquid cargo unloading, one filling pipe and one emergency And a pipe structure having a plurality of pipes P including an emergency pipe. 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 the adapter 10, the cover 20, the insulation layer 40 and the adjustment finishing portion 102.

The adapter 10 is disposed in a certain region S1 (see Fig. 4) of the opening H, and one side is connected to the inner hull 2. In the following description, the adapter 10 is connected to the inner hull 2 on the aft side, but as another example, one side may be connected to the inner hull 2 on the bow side. Here, the stern side inner hull 2 may be formed on the corner side of the storage tank 1.

The adapter 10 can be manufactured in advance so as to correspond to the remaining area size of the opening portion H excluding the area occupied by the cover 20 in the opening portion H. [ This is to effectively solve the problem of tolerance between the cover 20 occupying the opening portion H and the inner hull 2. The adapter 10 may be made of the same material as the inner hull 2. The adapter 10 may be a flat plate made of a metal material such as stainless steel or the like. The adapter 10 may be disposed on the same plane as the inner hull 2.

The cover 20 is provided with a plurality of through holes 2a corresponding to the pipes P of the pump tower installed in the storage tank 1. Here, the cover 20 may be provided with a through-hole 2a for a liquid pipe, a valve, and various layer equipment, as well as a pipe of a pump tower for unloading the above liquid cargo. This cover 20 is disposed in the remaining area S2 (see Fig. 4) of the opening H formed between the other side of the adapter 10 and the inner hull 2 on the bow side. At this time, the portions where the adapter 10, the inner hull 2, and the cover 20 are in contact with each other can be joined by welding W. That is, a contact portion between one side of the adapter 10 and the inner hull 2 on the aft side, the other side of the adapter 10, and the cover 20 and between the cover 20 and the inner hull 2 on the bow side is welded W).

The cover 20 supports the pipe P in a state of closing the opening H and may be provided as a flat plate having an area narrower than the area of the opening H, for example. The cover 20 may be disposed on the same plane as the adapter 10 and the inner hull 2. The cover 20 has a first region S3 in contact with the other side of the adapter 10 and formed with a through hole 2a and a second region S3 extending from the first region S3 and contacting the inner hull 2 on the bow side And a second area S4. Here, the first region S3 is provided with a heat insulating board 30 for a cover, which is formed at a lower portion of the opening portion H on the lower side.

The heat insulating board 30 for a cover may be provided in the form of a plurality of heat insulating blocks. Each of the heat insulating blocks includes a first protective plate 31 attached to the lower portion of the first region S3 by an adhesive M such as a mastic, a heat insulating member 32 provided below the first protective plate 31, And a second protection plate 33 attached to the lower portion of the member 32. The thermal insulation board 30 for the cover is disposed on the same plane as the upper insulation board 70 and the connection board 80 to be described later.

The heat insulating layer 40 is disposed between the lower heat insulating board 50 and the cover heat insulating board 30 which are respectively provided on the inner hull 2 on the aft side and the inner hull 2 on the bow side. The lower insulating board 50 provided at the stern side of the inner hull 2 can be disposed on the corner side of the storage tank 1 and extends to a certain portion under the adapter 10, . The lower heat insulating board 50 provided under the inner hull 2 on the bow side extends to a certain portion of the second area S4 of the cover 20 and can be joined by the adhesive M.

At this time, the auxiliary secondary barrier 62 overlaps and joins the main secondary barrier 61 provided under the lower insulation board 50 and the regulation finishing portion 102, thereby forming a sealing structure. The primary secondary barrier 61 and the secondary secondary barrier 62 have a very thin thickness and are substantially free from step differences and can be arranged on the same plane.

A connection board 80 is provided under the auxiliary secondary barrier 62 so as to be interposed between the upper insulating board 70 under the main secondary barrier 61 and the heat insulating board 30 for the cover.

The heat insulating layer 40 is provided in the form of a plurality of heat insulating blocks 41 to 43 and both sides of the heat insulating blocks 41 to 43 are connected to the heat insulating board 30 for the cover and the other heat insulating block 50 The first heat insulating block 43 wrapped by the first and second heat insulating members 41 and 42 is attached to the lower portion of the adapter 10 and the second region S4 by the adhesive M, Here, the heat insulating blocks 41 and 42 may be provided in the form of, for example, a glass wool.

The above-described lower insulation board 50 is disposed between the inner hull 2 and the primary secondary barrier 61 and includes a lower protection plate 51 and a lower insulation member 52. The lower protection plate 51 may be made of, for example, a material such as plywood. The lower heat insulating member 52 is made of, for example, a polyurethane foam (PUF) to protect the hull from the cryogenic fluid. The lower heat insulating member 52 may be bonded to the lower portion of the lower protective plate 51 with an adhesive (for example, glue or the like).

The upper insulating board 70 is disposed between the primary barrier 90 and the primary secondary barrier 61 and includes an upper insulating member 72 and an upper protective plate 71. The upper heat insulating member 72 is made of the same material as the lower heat insulating member 52 and the upper protective plate 71 can be made of the same material as the lower protective plate 51.

In addition, the primary barrier 90 is formed to have a high airtightness as a portion directly contacting with the liquefied natural gas, and also has thermal shrinkage when it comes into contact with cryogenic liquefied natural gas, and when the heat shrinkage occurs, (In-plane Stiffness) can be maintained. The primary barrier 90 is formed to have a wrinkle portion 90a and the wrinkle 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 metallic material such as stainless steel or the like.

The primary secondary barrier 61 and the secondary secondary barrier 62 may be composed of a plurality of sheets made of a metal material such as stainless steel, aluminum, brass or zinc. 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.

The connection board 80 includes a connection protection plate 81 and a connection thermal insulation member 82. The connection thermal insulation member 82 is made of the same material as the lower thermal insulation member 52, And can be made of the same material as the lower protective plate 51. [

The adjustment finishing portion 102 is fixed to the vertical finishing portion 103 side vertically joined to the lower portion of the adapter 10 and the cover 20 so as to be adjustable in height. At this time, the adjustment finishing portion 102 is fixed to the vertical finishing portion 103 side so as to be disposed on the same plane as the peripheral heat insulating layers 40 and 50. The above-described vertical finishing portion 103 may be integrally formed with the adapter 10 and the cover 20, or may be separately manufactured and fixed by welding. In addition, the adjustment finishing portion 102 may be fixed to the vertical finishing portion 103 by welding and may have a cross-sectional shape of '?'.

3, the above-described heat insulating board 30 for cover may be attached to the lower part of the second protection plate 33 by an adhesive layer 34 under the second protection plate 33 and an adhesive layer 34 And a controlling shield plate 36. This is because the height adjustment is performed by using the control shroud 36 before the adhesive layer 34 is cured so that the thermal insulation board 30 for cover and the connection board 80 are disposed on the same plane.

Hereinafter, a process of manufacturing the pump tower installation structure of the storage tank 1 will be described with reference to FIGS. 4 to 8 based on the contents of FIG. 1 and FIG.

First, as shown in Fig. 4, an adapter 10 is disposed in a certain area S1 of the opening H, one side of which is connected to the stern side inner hull 2. Here, one side of the adapter 10 and the inner hull 2 on the stern side can be joined by welding.

Next, as shown in Fig. 5, the lower heat insulating board 50, the main secondary wall 61, and the upper heat insulating board 70 are provided on the corner of the inner hull 2 on the stern side. The inner side surfaces of the lower heat insulating board 50, the main secondary wall 61 and the upper heat insulating board 70 provided on the corner side of the storage tank 1 are provided in a curved shape so as to prevent concentration of stress have.

Next, as shown in Fig. 6, a heat insulating board 30 for a cover is provided at the bottom, and a first region S3 formed with a through hole 2a and a first region S3 extending from the first region S3, The cover 20 including the second area S4 contacting the inner hull 2 is disposed in the remaining area S2 of the opening H. [ Here, the portions where the adapter 10, the cover 20 and the inner hull 2 are in contact with each other can be welded together. In addition, the cover 20 may be installed in a state in which the heat insulating block 30 for the cover 30, which is in contact with the interface of the adapter 10, is excluded. The effect is to prevent damage to the insulation by welding heat. Then, the vertical closing portion 103 is joined to the lower portion of the adapter 10 and the cover 20.

Next, as shown in FIGS. 7 and 8, at least one barrier installation work and a heat insulation work are performed on the periphery of the heat insulating board 30 for a cover. To this end, a lower heat insulating board 50, a main secondary wall 61, and an upper heat insulating board 70 are installed below the inner hull 2 on the bow side.

Next, the heat insulating layer 40 is disposed between the lower hermetic board 50 provided at the stern side of the inner hull 2 and the inner hull 2 at the bow side and the heat insulating board 30 for the cover. At this time, the first heat insulating block 43 of the heat insulating layer 40 is adhered to the lower portion of the second region S4 of the adapter 10 and the cover 20 by the adhesive M so as to come into contact with the vertical finishing portion 103 . Another heat insulating block 41 of the heat insulating layer 40 is disposed between the first heat insulating block 43 and the lower heat insulating board 50. In the state that the adjustment finishing portion 102 is fixed to the vertical finishing portion 103 side and the heat insulating block B that is in contact with the interface of the adapter 10 among the cover heat insulating board 30 is provided, The remaining heat insulating block 42 of the heat insulating layer 40 is disposed between the heat insulating block 43 and the corresponding heat insulating block B of the heat insulating board for cover 30.

Next, the secondary secondary barrier 62 is bonded over the primary secondary barrier 61 and the adjustment finish 102 under the lower insulating board 50.

Next, an auxiliary secondary barrier 62 is interposed between the upper insulating board 70 under the main secondary barrier 61 and the insulating board 30 for the cover to be coplanar with the upper insulating board 70, And the connection board 80 is disposed at the lower portion.

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

Thus, the heat insulating structure of the storage tank 1 in the inner hull 2 can be effectively treated by adiabatically treating the peripheral portion of the cover heat insulating board 30 under the cover 20 formed below the opening H as described above.

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
30: Insulation board for cover 36: Adjustable cover plate
40: insulation layer 50: lower insulation board
61: primary secondary barrier 62: secondary secondary barrier
70: upper insulation board 80: connection board
90: Primary barrier 102: Adjustable closing part
103: Vertical finish
M: Adhesive H: Opening

Claims (17)

An adapter disposed in a predetermined region of an opening formed in an inner hull of the liquefied natural gas storage tank and having one side connected to the inner hull; And
And a cover disposed in a remaining region of the opening formed between the other side of the adapter and the inner hull, wherein the through hole corresponds to a pipe of a pump tower installed in the storage tank,
The cover includes a first region contacting the other side of the adapter and formed with the through hole, and a second region extending from the first region and contacting the inner hull,
Wherein the first region is provided with a heat insulating board for a cover formed below the opening portion at a lower portion thereof,
The heat insulating board for a cover includes a plurality of heat insulating blocks, each heat insulating block including a first protective plate attached to a lower portion of the first region, a heat insulating member provided under the protective plate, A cover plate,
And a control board attached to a lower portion of the second protection plate by an adhesive layer and an adhesive layer below the second protection plate. delete The method according to claim 1,
Wherein the first region is provided with a heat insulating board for a cover formed at a lower portion of the opening at a lower portion thereof and a thermal insulation construction is formed at a peripheral portion of the thermal insulating board for a cover. delete delete The method of claim 3,
And a heat insulating layer disposed between the lower heat insulating board provided under the inner hull and the heat insulating board for the cover. The method according to claim 6,
Wherein the heat insulating layer comprises a plurality of heat insulating blocks and at least one of the heat insulating blocks is adhered to the lower portion of each of the adapter and the second region by an adhesive. The method according to claim 6,
A vertical finishing portion vertically joined to the adapter and the lower portion of the cover,
And a control finishing portion fixedly installed on the vertical finishing portion so as to be disposed on the same plane as the heat insulating layer. 9. The method of claim 8,
Wherein the control finishing portion has a cross-sectional shape formed in a "?&Quot; shape. 9. The method of claim 8,
An auxiliary secondary barrier overlapped and bonded over the main secondary barrier provided below the lower heat insulating board and the regulating finishing portion,
Further comprising a connection board provided below at least one of the primary secondary barrier, the secondary secondary barrier and the insulating layer so as to be coplanar with the upper insulation board at the lower portion of the primary secondary barrier. Pump tower installation structure. 11. The method of claim 10,
A pump tower installation structure of a liquefied natural gas storage tank in which a primary barrier is stacked on a lower surface of the heat insulating board for cover, the connecting board and the upper heat insulating board on the same plane. The method according to claim 1,
Wherein the adapter, the inner hull, and the cover are welded to each other to be in contact with each other. The method according to claim 1,
Wherein the adapter corresponds to the size of the remaining area of the opening except the area occupied by the cover in the opening. delete delete delete delete

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