KR101836900B1 - Drain apparatus of leakage for lng fpso - Google Patents

Abstract

The LNG liquefied module 400 is discharged from the LNG liquefaction module 400 through a drain pipe through a drain tray so that the leaked LNG does not directly contact the hull of the LNG FPSO. The present invention relates to an apparatus for treating a leakage liquid of an LNG FPSO, which is capable of safely protecting a hull by preventing LNG leaking from a facility from directly contacting the hull.

Description

[0001] DRAIN APPARATUS OF LEAKAGE FOR LNG FPSO [0002]

The present invention relates to an apparatus for treating a leaking liquid of an LNG FPSO, and more particularly, to an apparatus for treating a leaking liquid of an LNG FPSO, which comprises an LNG And an apparatus for treating leakage liquid of FPSO.

LNG In LNG FPSO, LNG is produced from a liquefaction module of LNG placed on the topside. It is usually a cryogenic fluid at -162 ° C. When a small amount of LNG comes into contact with a material such as a steel plate forming a hull, Causing brittleness.

Here, such low-temperature embrittlement may weaken the strength of the hull, thereby causing cracks and other defects in the structure of the hull by a slight bending moment. In severe cases, the brittle structure may be exposed to a fatal weakness will be.

In this case, if the flammable gas evaporated immediately after the liquid LNG directly touches the hull is spread around the hull, if it comes into contact with a small amount of flammable material, it may lead to fire.

Especially, when the LNG transportation line is adjacent to the LNG liquefaction module, the LNG FPSO as well as the LNG transportation line aboard the LNG FPSO are faced with the risk that the leaked LNG can lead to a major accident will be.

Open Patent No. 10-2010-0106741 (October 04, 2010) Published Patent No. 10-2010-0110171 (October 12, 2010) Published Patent No. 10-2011-0048923 (May 12, 2011) Published Application No. 20-2011-0004667 (May 12, 2011)

Disclosure of the Invention The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an LNG FPSO leak preventing LNG leaking from an LNG liquefaction facility disposed on the top side of an LNG FPSO, And to provide a liquid processing apparatus.

According to an aspect of the present invention, there is provided a liquefied natural gas (LNG) liquefaction module, comprising: a drain tray disposed on a lower side of an LNG liquefaction module disposed on a top side of an LNG FPSO and collecting a leakage liquid of an LNG from an LNG liquefaction module; And a drain pipe extending from the LNG liquefaction module to the outside of the hull of the LNG FPSO to form a flow path through which the leakage liquid is discharged. The end of the drain pipe is opposed to the LNG FPSO The present invention can provide an apparatus for treating a leaked liquid of an LNG FPSO.

Here, the drain tray has a virtual straight line extending from one imaginary straight line connecting both side edges of the support plate to the drain hole from one edge of the support plate with respect to the drain hole, and extends from the drain hole to the other edge of the support plate And the second angle made by the inclined surface formed from the other edge with respect to the second straight line is the angle formed by the second straight line with respect to the first straight line, Is preferably larger than one angle.

At this time, the drain tray considers a hypothetical first straight line connected from one side edge of the support plate to the drain hole, a hypothetical second straight line shorter than the first straight line and connected to the drain hole from the other edge of the support plate, The angle formed by the inclined surfaces is preferably 0.5 to 1.5 degrees.

The drain pipe has a first pipe connected to the bottom surface of the drain tray in the gravity direction, a second pipe bent from the end of the first pipe to the opposite side, and a second pipe bent from the end of the second pipe and extending in the gravity direction And a second pipe connected to the second pipe.

At this time, it is preferable that the second pipe extends at an angle of 0.5 to 1.5 degrees downward with respect to an imaginary third straight line extending in a direction orthogonal to the end of the first pipe.

The distance from the end of the third pipe to the opposite side is preferably about 1 to 3 m.

In addition, in the apparatus for treating a leakage liquid of an LNG FPSO, the leakage liquid can be vaporized and discharged through the end of the third pipe along the forming direction of the drain pipe. In addition, a combustor is mounted at the end of the third pipe, It may be possible to burn the leaked liquid through which it is discharged to be safely discharged.

According to the present invention having the above-described structure, a drain tray communicating with a drain pipe extending toward the opposite side of the side where the LNG transportation line is bared is provided on the lower side of the liquefaction module disposed on the top side of the LNG FPSO, The risk of fire and explosion can be minimized by preventing the contact and diffusion of the leaking LNG with the hull.

Therefore, the present invention can secure the safety of workers working on the lower side of the liquefaction module.

Particularly, the present invention can prevent the danger of fire and explosion from being transferred to the LNG transportation line by extending the drain pipe toward the opposite side of the side where the LNG transportation line is bared.

1 is a perspective view showing the overall structure of a drain tray which is a main part of an apparatus for treating a leakage liquid of an LNG FPSO according to an embodiment of the present invention;
2 is a conceptual diagram showing a state in which an apparatus for treating a leaking liquid of an LNG FPSO according to an embodiment of the present invention is installed in an LNG FPSO

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view showing the overall structure of a drain tray, which is a main part of an apparatus for treating a leakage liquid of an LNG FPSO according to an embodiment of the present invention. FIG. 2 is a cross- LNG FPSO.

The leakage of the LNG leaking from the LNG liquefaction module 400 through the drain tray 100 through the drain pipe 200 is prevented so that the leaked LNG does not directly contact the hull 310 of the LNG FPSO One structure can be identified.

The drain tray 100 is disposed on the lower side of the LNG liquefaction module 400 disposed on the top side of the LNG FPSO 300 and collects the leakage liquid of the LNG from the LNG liquefaction module 400.

The drain pipe 200 is connected to one side of the bottom surface of the drain tray 100 and extends to the outside of the hull 310 of the LNG FPSO 300 having the LNG tank 320 therein, to be.

It is preferable that the end of the drain pipe 200 is disposed on the opposite side of the LNG FPSO 300 with respect to the LNG FPSO 300 where the LNG carrier (not shown)

Accordingly, the above-described arrangement structure of the drain pipe 200 is a technical means for minimizing the risk of fire and explosion by separating the distance of the LNG carrier from the LNG carrier as much as possible.

It is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention.

The drain tray 100 collects the leaking liquid of the LNG as described above and it is understood that the barrier 120 is provided along the edge of the support plate 110 on which the inclined surface 130 is formed.

The support plate 110 is coupled between a plurality of supports 410 projecting from the deck of the LNG FPSO and supporting the LNG liquefaction module 400 and includes a drain hole 111 And is a member that covers the bottom surface of the LNG liquefaction module 400.

The barrier 120 is a member that extends along the edge of the support plate 110 to prevent the leakage liquid from flowing down to the deck side.

The inclined surface 130 is formed to be inclined downward from the edge of the support plate 110 to the drain hole 111 so that the leakage liquid is easily collected toward the drain hole 111 toward the gravity direction.

Here, the drain holes 111 are preferably disposed on one side of the support plate 110 so as to be spaced as far as possible from the LNG transportation lines adjacent to the LNG FPSO adjacent to the LNG liquefaction module 400.

A portion from the one side edge of the support plate 110 to the drain hole 111 is defined as a virtual first straight line ll (1) from an imaginary straight line connecting both side edges of the support plate 110 with respect to the drain hole 111, And a portion from the drain hole 111 to the other edge of the receiving plate 110 is assumed to be the imaginary second straight line l2.

The first angle? 1 formed by the inclined plane 131 formed from one side edge of the support plate 110 with respect to the first straight line? 1 is 0.5 to 1.5 degrees. The first angle? 1 from the other edge with respect to the second straight line? The second angle? 2 formed by the inclined plane 132 formed is preferably larger than the first angle? 1.

The first angle [theta] 1 is more preferably about 1.25 degrees with a margin of approximately 0.25 degrees to the generally considered heel of 1 degree inclination.

A grating made of a material such as stainless steel or glass reinforced fiber may be installed on the upper side of the drain tray 100 to facilitate facilities and other equipment such as the LNG liquefaction module 400 on the upper side It is also possible to consider allowing access to and work with.

The drain pipe 200 provides a flow path for discharging the leakage liquid from the drain tray 100 as described above and includes a first pipe 210, a second pipe 220, and a third pipe 230 It is possible to recognize that the structure is included.

The first pipe 210 is connected to the drain hole 111 which is the lowest point of the inclined surface 130 in the gravity direction and the second pipe 220 is connected to the first pipe 210 The third pipe 230 is bent from the end of the second pipe 220 and extends in the gravitational direction. The third pipe 230 extends from the end of the second pipe 220 to the opposite side.

The second pipe 220 is connected to a third imaginary third line L 3 extending in a direction orthogonal to the end of the first pipe 210 to induce smooth discharge of the LNG leakage liquid leaked from the LNG liquefaction module 400. (See &thetas; 3 in Fig. 2).

In this case, the angle 3 formed by the second pipe 220 is more preferably about 1.25 degrees, corresponding to the first angle? 1 formed by the inclined surface 131 formed at one side edge of the support plate 110 Do.

The drain pipe 200 may be connected to the end of the third pipe 230 through a burner (not shown), and the drain pipe 200 may be connected to the end of the third pipe 230 (Not shown), so that the leakage liquid discharged through the drain pipe 200 can be burned and discharged safely.

However, when the amount of the leakage liquid is large due to malfunction of the LNG liquefaction module 400 or the like, the drain pipe 200 (not shown) may be used. A bypass line connected to the end of the third pipe 230 may be provided to temporarily store the leakage liquid in the temporary storage tank or to connect the bypass line with the LNG liquefaction module 400 to return the leakage liquid will be.

As described above, the present invention provides an apparatus for treating a leaking liquid of LNG FPSO that can safely protect a ship by preventing LNG leaking from an LNG liquefaction facility disposed on the top side of the LNG FPSO from coming into direct contact with the ship. It is understood that it is thought.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

100 ... drain tray 200 ... drain pipe

Claims (8)

A drain tray disposed on a lower side of the LNG liquefaction module arranged on the top side of the LNG FPSO and collecting the leakage liquid of the LNG from the LNG liquefaction module; And
And a drain pipe communicating with one side of the bottom surface of the drain tray and extending outside the hull of the LNG FPSO to form a flow path through which the leakage liquid is discharged,
And an end of the drain pipe is disposed on the opposite side of the LNG FPSO from the LNG FPSO where the LNG carrier is unloaded from the LNG liquefaction module.
The method according to claim 1,
The drain tray
A support plate protruding from a deck of the LNG FPSO and coupled between a plurality of supports supporting the LNG liquefaction module, a drain hole communicating with the drain pipe at one side thereof and covering the bottom of the LNG liquefaction module,
A barrier wall extending along an edge of the bed plate to prevent the leakage liquid from flowing down to the deck side,
And an inclined surface formed to be inclined downward from an edge of the receiving plate to the drain hole,
And the drain hole is disposed at one side on the support plate.
The method of claim 2,
The drain tray
Wherein a portion from an edge of one side of the base plate to the drain hole is defined as an imaginary first straight line from an imaginary straight line connecting the opposite side edges of the base plate to the other side edge of the base plate Quot; is defined as a virtual second straight line,
Wherein the first angle made by the inclined surface formed from the one side edge with respect to the first straight line is 0.5 to 1.5 degrees and the second angle formed by the inclined surface formed with the other side edge with respect to the second straight line is greater than the first angle Features of LNG FPSO leakage liquid treatment system.
The method according to claim 1,
The drain pipe
A first pipe connected to a bottom surface of the drain tray in a gravity direction,
A second pipe bent from an end of the first pipe and extending to the opposite side of the first pipe,
And a third pipe bending from the end of the second pipe and extending in the gravity direction.
The method of claim 4,
Wherein the second pipe extends at an angle of 0.5 to 1.5 degrees with respect to an imaginary third straight line extending in a direction orthogonal to the end of the first pipe.
The method of claim 4,
And the distance between the end of the third pipe and the opposite side is 1 to 3 m.
The method of claim 4,
In the leakage liquid treating apparatus of the LNG FPSO,
Wherein the leakage liquid is vaporized and discharged through an end of the third pipe along a forming direction of the drain pipe.
The method of claim 4,
And a bypass line connected to an end of the third pipe and returning the leakage liquid discharged to the third pipe to the LNG liquefaction module.

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