KR20130054308A - Horizontal type cryogenic media storage tank for ship - Google Patents

Abstract

PURPOSE: A horizontal cryogenic medium storage tank for a ship is provided to stably store cryogenic mediums in a dynamic rolling pitch condition and to minimize heat loss. CONSTITUTION: A horizontal cryogenic medium storage tank for a ship comprises a cryogenic medium storage container(110), an outer container(120), a powder insulation material(130), first outer bottom supports(121), second outer bottom supports(122), first inner bottom supports(111), second inner bottom supports(112), first coupling units(141), second coupling units(142), a first outer insulator receiving member(123), a first inner insulator receiving member(124), a second inner insulator contact pad(114), a second insulation rod(152). The cryogenic medium storage container stores cryogenic mediums. The outer container surrounds the cryogenic medium storage container. The powder insulation material is filled between the outer container and the cryogenic medium storage container. The first outer bottom supports are arranged in one side of the longitudinal direction of the outer container. The second outer bottom supports are arranged in the other side of the longitudinal direction of the outer container.

Description

Horizontal double tank for ships for cryogenic media {HORIZONTAL TYPE CRYOGENIC MEDIA STORAGE TANK FOR SHIP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to storage tanks for storing cryogenic media, and more particularly to horizontal double tanks for ships installed on ships in contact with a dynamic rolling pitching environment.

Tanks for cryogenic media, in particular liquefied gas, and means for storing the media, require special construction because significant thermal motion occurs in some cases when storing, loading and unloading liquefied gas in the tank.

In particular, LNG has a special requirement because it is lower than liquefied petroleum gas.

In addition, the vessel will be in contact with a dynamic rolling pitching environment during its operation. Therefore, the cryogenic medium storage tank for ships installed on the vessel should be designed in consideration of such an environment.

As a related art for cryogenic medium storage tanks for ships, International Publication No. WO 2010/020431 entitled "Storage for storing tanks for cryogenic mediums" (February 25, 2010) has been proposed.

International Publication No. WO 2010/020431 "Device for storing tanks for cryogenic media" (25 February 2010)

The present invention relates to a horizontal double tank for ships for cryogenic media designed to stably store cryogenic media even in a dynamic rolling pitching environment of the vessel.

In order to solve the above problems, the present invention provides a cryogenic medium storage container which is disposed in the horizontal direction and is stored in a cryogenic medium; An outer container disposed to surround the cryogenic medium storage container; A powder insulator filled between the outer container and the cryogenic medium storage container; A pair of first outer bottom supports spaced apart from each other on one lower inner circumferential surface in the longitudinal direction of the outer container; A pair of second outer bottom supports spaced apart from each other on the lower inner peripheral surface of the other side in the longitudinal direction of the outer container; A first inner bottom support provided spaced apart from each other on a lower outer peripheral surface of the longitudinal side of the cryogenic medium storage container; A second inner bottom support spaced apart from each other on the other lower longitudinal outer circumferential surface of the cryogenic medium storage container; First coupling means for coupling the first outer bottom support and the first inner bottom support to each other; Second coupling means for coupling the second outer bottom support and the second inner bottom support to each other; A plurality of first outer insulator accommodation holes provided in one longitudinal middle portion inner circumferential surface and the upper inner circumferential surface of the outer container; A plurality of first inner insulator receivers disposed on the outer peripheral surface and the upper outer peripheral surface of the longitudinal side of the cryogenic medium storage container and paired with the first outer insulator receiver; A first insulating rod having one side fitted to the first outer insulator receiving hole and the other side fitted to the first inner insulator receiving hole; A plurality of second outer insulator receiving openings provided on the other longitudinal middle portion inner circumferential surface and the upper inner circumferential surface of the outer container; A plurality of second inner insulator contact pads provided on the second outer side insulator circumferential surface and the upper outer circumferential surface of the cryogenic medium storage container and paired with the second outer insulator receiver; A second insulating rod having one side fitted to the second outer insulator receiving opening and the other side being in contact with the first inner insulator contact pad; And a control unit.

As described above, the present invention can stably store cryogenic media even in a dynamic rolling pitching environment of a vessel, and provides a horizontal double tank for a vessel for a new type of cryogenic medium capable of minimizing heat loss while supporting a stable structure. Done.

1 is a longitudinal cross-sectional conceptual view of a horizontal double tank for ships for cryogenic medium according to an embodiment of the present invention,
2 is a cross-sectional conceptual view as seen from the AA standard of FIG.
Figure 3 shows the connecting structure of the inner bottom support and the outer bottom support in the lateral direction,
Figure 4 shows the connection structure of the inner bottom support and the outer bottom support in the front direction,
Figure 5 is an exploded perspective view showing the connection structure of the inner bottom support and the outer bottom support,
FIG. 6 is a cross-sectional view illustrating a coupling relationship between a first inner insulator container, a first outer insulator container, and a first insulating rod;
7 is a perspective view of FIG. 6,
8 is a cross-sectional view illustrating a coupling relationship between a second inner insulator contact pad, a second outer insulator receiving port, and a second insulated rod;
9 is a perspective view of FIG. 8;
10 is a longitudinal cross-sectional conceptual view of a horizontal double tank for ships for cryogenic medium according to another embodiment of the present invention,
Figure 11 is a cross-sectional conceptual view as seen from the BB reference of FIG.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention in the drawings, portions not related to the description are omitted, and like reference numerals are given to similar portions throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

First, an embodiment according to the present invention will be described.

1 is a longitudinal cross-sectional conceptual view of a horizontal double tank for ships for cryogenic medium according to an embodiment of the present invention, Figure 2 is a cross-sectional conceptual view as seen from the AA standard of Figure 1, Figure 3 is an inner bottom support and an outer bottom support The connecting structure is shown in the lateral direction, and FIG. 4 shows the connecting structure of the inner bottom support and the outer bottom support from the front direction, and FIG. 5 is an exploded perspective view showing the connection structure of the inner bottom support and the outer bottom support. 6 is a cross-sectional view illustrating a coupling relationship between the first inner insulator receiving port, the first outer insulator receiving port, and the first insulating bar, FIG. 7 is a perspective view of FIG. 6, and FIG. 2 is a cross-sectional view showing a coupling relationship between the outer insulator container and the second insulator rod, and FIG. 9 is a perspective view of FIG. 8.

The horizontal double tank for a ship is divided into a cryogenic medium storage container 110 that is largely provided therein, and an outer container 120 that is arranged to surround the cryogenic medium storage container 110.

The cryogenic medium storage container 110 is formed in a cylindrical shape but is disposed long in the horizontal direction.

The cryogenic medium storage container 110 is stored inside the cryogenic medium storage container 110, and thus the cryogenic medium storage container 110 is made of a material that can withstand thermal stress caused by temperature change of the cryogenic medium.

Since the outer container 120 is disposed in a form surrounding the cryogenic medium storage container 110, the outer container 120 is formed in a cylindrical shape like the cryogenic medium storage container 110 but is disposed long in the horizontal direction.

The outer container 120 is fixed to the hull and should also have corrosion resistance to withstand the salt contained in the seawater.

The powder insulator 130 is filled between the outer container 120 and the cryogenic medium storage container 110.

Perlite may be used as the powder insulator 130, and the ultra low temperature storage container 110 may be maintained by an external thermal intrusion by maintaining a vacuum state between the outer container 120 and the cryogenic medium storage container 110. Minimize evaporative losses of cryogenic media.

On the other hand, the cryogenic medium storage container 110 is preferably minimized heat loss to the outside by the powder insulator 130, and also must be properly supported on the outer container 120 to withstand the dynamic roll reel pitching of the vessel.

Hereinafter, such a support structure will be described.

A pair of first outer bottom support 121 is provided on the longitudinal inner side of the lower inner peripheral surface of the outer container 120 spaced apart from each other, provided as long as spaced apart from each other on the other lower inner peripheral surface of the outer container 120 in the longitudinal direction. A pair of second outer bottom support 122 is provided.

In response to the first outer bottom support 121 and the second outer bottom support 122 of the outer container 120, the cryogenic medium storage container 110 also has a first inner bottom support 111 and a second inner bottom support ( 112 is provided.

That is, the first inner bottom support 111 which is spaced apart from each other is provided on one longitudinal lower outer peripheral surface of the cryogenic medium storage container 110, is spaced apart from each other on the other longitudinal lower peripheral surface of the cryogenic medium storage container 110 A second inner bottom support 112 is provided.

In addition, a first coupling means 141 for coupling the first outer bottom support 121 and the first inner bottom support 111 to each other is provided, and the second outer bottom support 122 and the second inner bottom support 112 are provided. The second coupling means 142 is coupled to each other is provided.

The first coupling means 141 and the second coupling means 142 use bolts and nuts.

The first coupling means 141 and the second coupling means 142 allow minimal heat loss while other support means do not allow heat loss.

To this end, a plurality of first outer insulator receivers 123 are provided on one longitudinal middle inner circumferential surface and the upper inner circumferential surface of the outer container 120, and the outer circumferential surface and the upper outer circumferential surface of one longitudinal middle side of the cryogenic medium storage container 110 are provided. A plurality of first inner insulator receivers 113 mating with the first outer insulator receivers 123 are provided in the plurality of first inner insulator receivers 123.

A first insulating rod 151 is provided between the first outer insulator container 123 and the first inner insulator container 113, and one side of the first insulating bar 151 is the first outer insulator container 123. The other side is fitted to the first inner insulator receiver (113).

In addition, a plurality of second outer insulator receiving openings 124 are provided on the other inner side inner peripheral surface and the upper inner peripheral surface of the outer container 120, and correspondingly the outer peripheral surface of the other longitudinal middle portion of the cryogenic medium storage container 110. A plurality of second inner insulator contact pads 114 paired with the second outer insulator receiving openings 124 are provided on the upper outer circumferential surface thereof.

A second insulating rod 152 is provided between the second outer insulator container 124 and the second inner insulator contact pad 114, and one side of the second insulating bar 152 is the second outer insulator container 124. The other side is in contact with the first inner insulator contact pad 114 to be supported.

The first insulating rod 151 and the second insulating rod 152 are made of a material such as bakelite having a very small thermal conductivity and have a rod shape.

The first insulating rod 151 and the second insulating rod 152 are provided in the outer container 120 to stably support the cryogenic medium storage container 110 even at the dynamic rolling pitch of the vessel, Minimize heat loss.

Next, another Example by this invention is described.

10 is a longitudinal cross-sectional conceptual view of a horizontal double tank for ships for cryogenic medium according to another embodiment of the present invention, Figure 11 is a cross-sectional conceptual view seen from B-B reference of FIG.

In the present exemplary embodiment, as shown in FIG. 11, the first insulating rod 151 is not positioned at the top of the cryogenic medium storage container 110, but the total of 4 in the directions of approximately 45 degrees, 135 degrees, 225 degrees, and 315 degrees. It was located in several places.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the embodiments described above are intended to be illustrative, but not limiting, in all respects. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

110: cryogenic medium storage container
111: first inner bottom support 112: second inner bottom support
113: first inner insulator receiving port 114: second inner insulator contact pad
120: outer container
121: first outer floor support 122: second outer floor support
123: first outer insulator accommodation 124: second outer insulator accommodation
130: powder insulation
141: first coupling means 142: second coupling means
151: first insulating rod 152: second insulating rod

Claims (1)

A cryogenic medium storage container disposed in the horizontal direction and storing the cryogenic medium;
An outer container disposed to surround the cryogenic medium storage container;
A powder insulator filled between the outer container and the cryogenic medium storage container;
A pair of first outer bottom supports spaced apart from each other on one lower inner circumferential surface in the longitudinal direction of the outer container;
A pair of second outer bottom supports spaced apart from each other on the lower inner peripheral surface of the other side in the longitudinal direction of the outer container;
A first inner bottom support provided spaced apart from each other on a lower outer peripheral surface of the longitudinal side of the cryogenic medium storage container;
A second inner bottom support spaced apart from each other on the other lower longitudinal outer circumferential surface of the cryogenic medium storage container;
First coupling means for coupling the first outer bottom support and the first inner bottom support to each other;
Second coupling means for coupling the second outer bottom support and the second inner bottom support to each other;
A plurality of first outer insulator accommodation holes provided in one longitudinal middle portion inner circumferential surface and the upper inner circumferential surface of the outer container;
A plurality of first inner insulator receivers disposed on the outer peripheral surface and the upper outer peripheral surface of the longitudinal side of the cryogenic medium storage container and paired with the first outer insulator receiver;
A first insulating rod having one side fitted to the first outer insulator receiving hole and the other side fitted to the first inner insulator receiving hole;
A plurality of second outer insulator receiving openings provided on the other longitudinal middle portion inner peripheral surface and the upper inner peripheral surface of the outer container;
A plurality of second inner insulator contact pads provided on the second outer side insulator circumferential surface and the upper outer circumferential surface of the cryogenic medium storage container and paired with the second outer insulator receiver;
A second insulating rod having one side fitted to the second outer insulator receiving opening and the other side being in contact with the first inner insulator contact pad;
Horizontal double tank for ships for cryogenic medium, characterized in that comprises a.

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