KR20120099766A - Tank for a cryogenic fluid - Google Patents

Abstract

The present invention relates to a tank for storing cold fluid, comprising a concrete support structure, one or more fluid sealing barriers and one or more insulating barriers. According to the invention, the thermal barrier comprises a plurality of panels fixed to the support structure, the panels comprising two or more adjacent first panels fixed to the support structure by a common fixing system. The present invention provides that the fastening system includes a plate (2), a first stud (3) extending from the first side of the plate and at least one second stud (4) and a third stud (extending from the second side of the plate). 5), wherein the first stud is fixed in the support structure, and the second stud and the third stud are respectively fixed to each one of the first panels.

Description

Tank for low temperature fluids {TANK FOR A CRYOGENIC FLUID}

The present invention relates to a tank for storing low temperature fluid, for example liquefied natural gas (LNG).

Document FR 2 912 385 describes a land tank for LNG. Such a tank has a concrete support structure, one or more fluidtight barriers and one or more insulating barriers.

In a known manner, the thermal barrier can be produced with a plurality of adjacent panels. Each panel should be fixed to the concrete support structure. To this end, it is a known practice to use studs that are fixed in a concrete support structure and penetrate the concrete. Typically, for panels of rectangular cross section, the studs are located at each corner of the panel and possibly along the side of the panel.

Therefore, the number of studs to be fixed into the concrete is large. In addition, the position of the studs is influenced by the position of the panel, which can present a problem when the concrete does not allow the fixing means in the desired position. The likelihood of such defects can start with, for example, poor drilling of holes or local imperfections in concrete.

Document FR 1 546 524 describes a solution, in which two adjacent panels are connected to the concrete wall by means of through bolts fixed in the concrete and to plates arranged against the brackets fixed to the panels. Since the through bolts are common to two adjacent channels, the number of fastening means achieved in the concrete is limited. However, the through bolts must pass between two adjacent panels. Thus, it is necessary to maintain the minimum distance between two adjacent panels. This distance cannot be arbitrarily small or even zero.

One problem that the present invention proposes to solve is to provide a tank for storing cryogenic fluids which does not have at least some of the aforementioned disadvantages of the prior art. In particular, one object of the present invention is to reduce the number of fastening means required in concrete. Another object of the invention is to enable the fixation point to be located more freely in the concrete. Another object of the invention is to enable two adjacent panels to be positioned as close to each other as desired.

The solution proposed by the present invention comprises a concrete support structure, at least one fluid sealing barrier and at least one thermal barrier, wherein the thermal barrier in the tank comprises a plurality of panels fixed to the support structure, the panels being common A tank for storing cryogenic fluid, comprising a two or more first adjacent panels secured to a support structure by a fixing system, the fixing system comprising a plate, a first stud extending from the first side of the plate and the plate. And at least one second stud and a third stud extending from the second side of the second stud and the third stud, each of which is secured in each one of the first panels.

According to one alternative form, the panel comprises two or more second adjacent panels, the securing system further comprises a fourth stud and a fifth stud, wherein the fourth stud and the fifth stud are each the second stud; Each one of the panels is fixed to the panel.

Advantageously, the first panel and the second panel are each rectangular sections and the securing system is located at four adjacent corners of the first panel and the second panel.

According to one alternative form, each of said first panels is a rectangular cross section and said securing system is located along two adjacent edges of said first panel and said second panel.

Advantageously, the first panels are in contact with each other.

According to one embodiment, the first stud is closer to the second stud than the third stud. In this case, the fixing means of the first stud may be offset.

DETAILED DESCRIPTION OF THE INVENTION The present invention will be more readily understood during the course of the following detailed description of one particular embodiment of the invention, given by way of non-limiting description only and with reference to the accompanying drawings, and further objects, details of the invention. The features and advantages will become more apparent.

1 is a perspective view of a fixing system for a tank according to an embodiment of the present invention,
2 is an exploded view of the fastening system of FIG. 1.

Tank according to an embodiment of the present invention is a land tank for LNG. In a known manner, the tank comprises a concrete support structure, a fluid sealing barrier and an insulating barrier. The tank may also include a second fluid sealing barrier and a second insulating barrier over all or part of the wall of the tank.

In a known manner, thermal barriers are produced using adjacent panels fixed to the support structure. In one alternative form, the panel comprises a block of foam that is rectangular in cross section and disposed on a plywood sheet.

1 and 2 show the vertical concrete wall 1 and the fixing system. The wall 1 forms part of the support structure of the tank. The fastening system comprises a metal plate 2, a first stud 3, a second stud 4, a third stud 5, a fourth stud 6 and a fifth stud 7.

The metal plate 2 is rectangular and located towards the wall 1. The stud 3 extends from the side of the metal plate 2 facing towards the wall 1, perpendicular to the metal plate 2. The stud is fixed in the orifice 8 perforated in the wall 1 and passes through the hole 9 formed in the metal plate 2 and fixed to the metal plate 2 by bolting. The stud 3 comprises a cup 10 which limits the portion of the stud 3 inserted into the orifice 8 and the functioning function of attaching the metal plate 2. The cup 10 makes it possible to restore the fluid sealing barrier between the vapor barrier of the concrete and the stud 3.

The studs 4, 5, 6, and 7 extend into the wall 1, perpendicular to the metal plate 2 on the opposite side of the metal plate 2. The studs are each welded at four corners of the metal plate 2.

Four panels of the thermal insulation barrier are located side by side at four respective corners in front of the fixing system. Each stud 4, 5, 6, and 7 is fixed to the corner of each one of the four panels. Thus, the fastening system allows four corners of four adjacent panels to be connected to the support structure by forming only one fastening point for the stud 3. In addition, adjacent panels can be as close to each other as desired, for example to be in contact with each other.

In the example shown in FIGS. 1 and 2, the stud 3 is located in the center of the metal plate 2. However, if the center of the metal plate 2, which is located in consideration of the arrangement of the panels, is not a suitable point for drilling the orifice 8, the studs 3 can be positioned differently. By doing so, the holes 9 and the orifices 8 are formed at appropriate positions during assembly. The stud 3 is therefore not necessarily spaced the same distance from all of the studs 4, 5, 6, and 7. Thus, the fastening system allows the fastening point to be offset with respect to the position of the panel if required.

Of course, as one alternative, the fastening system may comprise different numbers of studs on opposite sides to the wall 1. For example, to connect two adjacent rectangular panels to the support structure, only two studs would be sufficient, along the edges of the panels.

Although the present invention has been described in connection with one particular embodiment, it is not intended to be limited to this embodiment in any way and to include all technical equivalents of the described means and combinations thereof within the scope of the invention. It is obvious.

Claims (6)

A tank for storing low temperature fluid, comprising a concrete support structure, at least one fluid sealing barrier, and at least one insulating barrier,
Within the tank the thermal barrier comprises a plurality of panels secured to the support structure, the panels comprising two or more adjacent first panels secured to the support structure by a common fixing system. In the tank to
The securing system comprises a plate (2), a first stud (3) extending from the first side of the plate and at least one second stud (4) and a third stud (5) extending from the second side of the plate. Wherein the first stud is fixed in the support structure, and the second stud and the third stud are respectively fixed to each one of the first panels.
Tank for storing cold fluids.
The method of claim 1,
The panel includes two or more adjacent second panels, the securing system further comprises a fourth stud 6 and a fifth stud 7, the fourth stud and the fifth stud respectively being the second stud. Fixed to each one of the panels,
Tank for storing cold fluids.
The method of claim 2,
The first panel and the second panel are each rectangular sections, and the securing system is located at four adjacent corners of the first panel and the second panel,
Tank for storing cold fluids.
The method of claim 1,
Each of the first panels is a rectangular cross section, and the securing system is located along two adjacent edges of the first panel and the second panel,
Tank for storing cold fluids.
The method according to any one of claims 1 to 4,
The first panel is in contact with each other,
Tank for storing cold fluids.
6. The method according to any one of claims 1 to 5,
Wherein the first stud is closer to the second stud than the third stud,
Tank for storing cold fluids.

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