KR101422153B1 - Supporting structure for cryogenic facility and ship having cryogenic facility - Google Patents

Abstract

A ship having a cryogenic installation support structure and a cryogenic installation is provided. The support structure of the cryogenic facility according to this embodiment includes a support that supports the cryogenic facility and a housing that covers the support to prevent the support from being exposed to the outside so that the leaking cryogenic material contacts the support structure of the cryogenic facility It is possible to prevent the support structure from becoming unnecessarily large in order to prevent breakage.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cryogenic facility and a ship having a cryogenic facility,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a support structure for a cryogenic installation and a vessel having cryogenic installation.

Generally, LNG is stored or transported in a liquefied cryogenic condition to marine structures such as LNG carrier, LNG RV, LNG FPSO, and LNG FSRU.

However, when the liquid cryogenic liquid such as LNG leaks, the leaked LNG falls down to the bottom of the hull as it is, which may cause thermal deformation or brittle fracture of the support supporting the hull and the LNG facility.

Accordingly, the LNG storage tank is provided with a tray for preventing the leaked LNG from flowing down to the bottom of the hull and a device for preventing overflow of the LNG from the tray (disclosed in Korean Patent Laid-Open No. 10-2010-0123982) .

However, in facilities other than the LNG storage tank, there is a problem that the tray is not suitable for the apparatus for recovering leaked LNG, or the installation of the tray itself is difficult.

Therefore, in order to prevent damage due to LNG leakage, a separate coating film is applied to the hull and the support, but also in this case, it is difficult to cover the entire surface of the support with a coating film due to problems such as maintenance of the support. In addition, a coating film for preventing damage to the facility from cryogenic LNG is expensive, and thus it is difficult to increase the cost of the entire equipment when it is used in a large area.

Particularly, a stool supporting a cryogenic facility is a part where a high reinforcement is required to prevent fatigue failure. The stool is classified into a non-access area where a coating film is applied to the entire surface of the stool, It is necessary to form the stool reinforcing material thicker than necessary.

Korean Patent Application No. 10-2010-0123982

Embodiments of the present invention provide a cryogenic facility support structure capable of effectively preventing damage due to leaking cryogenic material while supporting a cryogenic facility and a vessel having cryogenic facilities.

According to one aspect of the present invention there is provided a cryogenic facility support structure comprising a support for supporting a cryogenic plant and a housing for protecting the support to prevent contact with the cryogenic material when the cryogenic material is leaked.

The support structure of the cryogenic facility may further include a coating layer formed on the outer surface of the housing to prevent damage to the housing due to the cryogenic material.

The housing is provided with an opening / closing opening / closing opening, through which the supporting portion can be inspected and repaired.

The housing may include a fixing part formed on at least one of the cryogenic temperature facility, the supporting part, and the bottom provided with the supporting part, and a panel coupled to the fixing part.

The panel is bolted to the fixing part and can be replaced.

The panel may be welded to the fixing portion.

The support portion may include a body supporting the cryogenic facility, and a reinforcement extending from a side surface of the body and dispersing a load applied to the body.

The coating layer may include a CSP (Cryogenic Spill Protection) coating.

According to another aspect of the present invention, there is provided a ship having a cryogenic facility including a hull, a cryogenic facility installed in the hull, and a support structure of the cryogenic facility coupled to the ship to support the cryogenic facility.

The coating film may be continuously formed on the hull and the housing.

According to embodiments of the present invention, it is possible to prevent leakage of the cryogenic material from coming into contact with the support structure of the cryogenic facility, thereby preventing the support structure from becoming unnecessarily large in order to prevent breakage.

In addition, it is possible to reduce the cost and time required for forming a coating film by protecting the support structure without forming an expensive coating film such as CSP on the support structure of the cryogenic facility.

In addition, when maintenance and repair are required, access to the support structure of the cryogenic facility can be facilitated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a supporting structure of a cryogenic facility according to an embodiment of the present invention and a ship equipped with the same.
2 illustrates a coupling of a housing in a support structure of a cryogenic plant according to an embodiment of the present invention;
3 shows a panel of a support structure of a cryogenic plant according to an embodiment of the invention.
4 is a view showing a support structure of a cryogenic facility according to another embodiment of the present invention and a ship provided with the support structure.
5 is a view showing a supporting structure of a cryogenic facility according to another embodiment of the present invention and a ship equipped with the same.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or corresponding parts throughout the several views, Is omitted.

1 is a view showing a support structure of a cryogenic facility according to an embodiment of the present invention and a ship equipped with the support structure.

The ship according to the present invention includes not only ships having self-contained ability to store and transport cryogenic materials but also marine structures for storing or treating cryogenic materials.

The support structure of the cryogenic facility according to an embodiment of the present invention includes a support portion 10 and a housing 20 and has a structure that is coupled with the hull 1 so as to support the cryogenic facility 5 installed on the ship .

The support 10 is a part that supports the cryogenic facility 5 for storing or treating cryogenic material and can include a variety of known load supports. At this time, the cryogenic facility 5 includes various types of facilities such as tanks for storing cryogenic materials such as LNG, pipe structures for transporting cryogenic materials, and factory facilities for processing cryogenic materials.

As shown in Fig. 1, the support portion 10 of the present embodiment is provided in the hull 1 and includes a stool for supporting a facility for treating LNG, which is a cryogenic material, on the upper portion. Specifically, the stool serving as the support portion 10 includes a body 12 which is erected on the hull 1 and supports the LNG equipment and receives a load, and a stool 12 extending from the side of the body 12 and connected to the hull 1, And a stiffener 14 for dispersing a load applied to the stiffener 14.

Particularly, the support portion 10 of the present embodiment is protected from LNG leaked by the housing 20 and the coating film 30 to be described later, so that the body 12 and the stiffener 14 are not unnecessarily thickened.

The housing 20 is a portion that covers the support portion 10 and basically blocks the support portion 10 from contacting the cryogenic material when the cryogenic material leaks. Accordingly, it is possible to save the cost and time required for forming the coating film by protecting the supporting portion 10 without forming the expensive coating film 30 such as CSP directly on the supporting portion 10 of the cryogenic facility.

2 is a view illustrating the coupling of the housing 20 in the support structure of the cryogenic facility according to an embodiment of the present invention.

As shown in Figs. 1 and 2, the housing 20 of the present embodiment covers the side surface of the support portion 10 from the outside by using a plurality of panels 22 surrounding the support portion 10. That is, in the present embodiment, the upper surface of the support portion 10 is covered by the bottom surface of the cryogenic facility 5 having a flat plate structure, so that the housing 20 is installed to cover the side surface of the support portion 10. To this end, the fixing sections 24 and 26 are provided on the cryogenic temperature facility 5 and the bottom 1 where the hull (supporting section 10) is installed, and the plurality of panels 22 are coupled to the fixing sections 24 and 26 (See A in Fig. 1).

Specifically, as shown in Fig. 2, the end portions of the respective panels 22 can be coupled with the bolts 25 to the fixing portions 24, 26. As shown in Fig. Accordingly, the panel 22 can be easily replaced even when the panel 22 is broken due to contact with the cryogenic material or external impact.

At this time, the plurality of panels 22 may be arranged in a shape corresponding to the shape of the support portion 10. For example, when the support portion 10 is formed in the form of a square pillar, the support portion 10 can be covered in the form of a rectangular box to which four panels 22 are coupled.

Further, in this embodiment, an access port 23 that can be opened and closed can be additionally formed in the housing 20 to facilitate access to the support portion 10 when maintenance and repair are required.

3 shows a panel 22 of a support structure of a cryogenic plant according to an embodiment of the invention.

As shown in Fig. 3, in this embodiment, an entrance 23 is provided in one panel 22 of the plurality of panels 22. This makes it possible to easily approach the support portion 10 through the entrance 23 when the inspection of the support portion 10 (in particular, the inspection of the fatigue failure of the reinforcing member 14) is required.

In this embodiment, a coating film 30 may be additionally formed on the surface of the housing 20 in order to further enhance the protection effect on the support 10.

The coating film 30 is a part that minimizes the damage to the structure due to contact with the cryogenic material. In this embodiment, the coating film 30 is formed so as to cover the housing 20 on the outer surface of the housing 20.

1, the coating film 30 of the present embodiment is continuously formed on the hull 1 together with the housing 20 so as to protect the ship on which the cryogenic facility 5 is installed. Accordingly, when the cryogenic material is exposed in the cryogenic facility 5, it is possible to prevent the cryogenic material from directly contacting the hull 1 and the housing 20, thereby minimizing damage to the ship. Further, since the coating film 30 lowers the heat transfer rate, the structure is prevented from being rapidly cooled and broken by the cryogenic material.

At this time, the coating film 30 of the present embodiment may be a CSP (Cryogenic Spill Protection) coating which minimizes damage due to cryogenic materials such as LNG leaking from a cryogenic facility. Specifically, in the present embodiment, the CSP paint applied to the housing 20 and the hull 1 is determined according to the risk analysis result and the recommendation of the paint manufacturer, and the thickness (DFT: Dry Film Thickness) thereof is determined. Examples of CSP paints include Intertherm 7050 for CSP, Chartek 7 for PFP, Firetex M89, Firetex M90 for CSP, and Firetex M90 for PFP (trade names).

On the other hand, the support structure of the cryogenic facility according to the present invention is not limited to the form in which the housing covers the whole of the support portion 10, and the housing selectively covers the main portion of the support portion 10 so as not to be exposed to the cryogenic material Or the like.

4 is a view showing a support structure of a cryogenic facility according to another embodiment of the present invention and a ship equipped with the support structure.

This embodiment differs from the above-described embodiment in that the cryogenic facility 6 has a structure that does not completely cover the upper portion of the support portion 10 (for example, when the support portion 10 carries a cryogenic material When supporting a pipe). That is, the supporting portion 10 of the present embodiment has a structure in which the supporting portion 10 is exposed to the outside when viewed from above the cryogenic facility 6. [ Accordingly, the housing 20 'of the present embodiment is coupled with the support portion 10 so as to surround the support portion 10 from the upper side so that the support portion 10 is not exposed to the upper side as much as possible.

4, the support portion 10 is also provided with the fixing portion 27 and the panel 22 is fixed to the fixing portion 27 of the support portion 10, as shown in Fig. The panel 22 is formed to be folded so as to be engaged with the fixed portion 26 of the hull.

At this time, the connection portion between the support portion 10 and the cryogenic facility 6 is inevitably exposed to the outside of the housing 20 ', so that the exposed support portion 10 is prevented from being damaged by the cryogenic material leaking out of the housing 20' You can set the height. That is, the height of the housing 20 'can be set so that the exposed support portion 10 does not contact the cryogenic material, considering the height of the cryogenic material rising or bouncing.

In addition, the coating film 30 may be formed only up to a certain height in consideration of the height at which the cryogenic material comes out or bounces.

Meanwhile, in the support structure of the cryogenic facility according to the present invention, the housing is not limited to being installed by bolt connection, and the housing can be installed on the ship by various known joining methods.

5 is a view showing a supporting structure of a cryogenic facility according to another embodiment of the present invention and a ship equipped with the same.

As shown in Fig. 5, in this embodiment, a plurality of panels constituting the housing 20 " are welded together to form an integrated housing 20 ". The integrated housing 20 '' is welded to the hull 1 and the support 10.

In this embodiment, a structure in which an expensive coating film 30 is not formed on the housing 20 '' is proposed. Thereby, when the housing 20 '' is damaged by the cryogenic material, the housing 20 '' is replaced or repaired to continuously protect the support 10.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Hull 5, 6: Cryogenic facility
10: Support part 12: Body
14: stiffener 20: housing
22: Panel 23: Entrance / exit
24, 26, 27: fixing part 30: coating film

Claims (10)

A supporting part supporting a cryogenic facility on the upper part and supporting a load of the cryogenic facility; And
And a housing that covers the support and protects the support from the leaking cryogenic material so that it does not come into contact with the cryogenic material when the cryogenic material leaks from the cryogenic facility,
The support portion
A body for supporting a load of the cryogenic facility; And
And a stiffener extending from a side surface of the body to distribute a load applied to the body.
The method according to claim 1,
Further comprising a coating layer formed on an outer surface of the housing to prevent damage to the housing due to the cryogenic material.
The method according to claim 1,
The housing is formed with an opening / closing opening / closing opening,
And the support portion can be inspected and repaired through the entrance.
The method according to claim 1,
The housing includes:
A fixing part formed on at least one of the bottom of the cryogenic installation, the supporting part and the supporting part; And
And a panel coupled to the fixed portion.
5. The method of claim 4,
Wherein:
Wherein the support structure is bolted to the fixing part and is replaceable.
5. The method of claim 4,
Wherein:
Wherein the support structure is welded to the fixing part.
delete delete hull;
A cryogenic facility installed in the hull; And
A cryogenic installation comprising a cryogenic installation support structure according to claim 2 coupled to said hull to support said cryogenic installation.
10. The method of claim 9,
The coating film may include,
Wherein the hull and the housing are continuously formed with the cryogenic facility.

Images