JPH11208574A - Mid-oceanic cling method and device of fluid transferring hose - Google Patents

Abstract

PROBLEM TO BE SOLVED: To accurately connect a fluid transferring flexible hose, to be delivered to a floating body such as a tanker or the like from an oceanic base, to a stationary pipeline on the said floating body by properly operating it so as not to contact with the sea surface. SOLUTION: A fluid transferring pipe 5 in an oceanic base 1 is installed so as to make its pipe intermediate part 5a go along up to the intermediate position from the root part of a boom 4 in a crane 3 on the base 1, and then it is installed so as to separate downward from the boon 4 as a flexible hose hanging part 5b via a swivel joint 6. A hose tip part 5c is supported by a lifting rope 8, and it is connected to a fluid receiving stationary pipeline 17 on a tanker 2 via a hose adjsutable connecting means 7 with a clamp mechanism.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for connecting a fluid transfer pipe at an offshore base to a fixed fluid receiving pipe in a floating body such as a shuttle tanker.

[0002]

2. Description of the Related Art Demand for liquefied natural gas (LNG) using natural gas, which emits less CO ₂ and has higher energy efficiency, is expected to increase rapidly due to diversification of energy sources and increased conservation of the global environment. Have been.

[0003] In the case of large-scale offshore gas fields and short offshore distances which are the supply source for this demand, even if LNG is recovered by installing a fixed pipeline from an offshore production facility to an onshore base, However, it is difficult to secure economic efficiency with existing technology because of the difficulty in securing economic efficiency with existing technologies. It is also a known fact that many gas fields are sleeping. In order to secure a stable supply of natural gas in the future, it is urgently necessary to develop these small offshore gas fields with large offshore distances.

[0004] At present, in some offshore oil fields of small scale and large offshore distance, a method of transferring heavy crude oil by directly connecting a floating offshore base and a shuttle tanker with a flexible hose or the like has already been put to practical use. However, at present, fluid handling of LNG at sea has not yet been put to practical use, for the following reasons.

That is, when a flexible hose is used, a flexible hose having a sufficient length is required to follow the respective movements and distances between the offshore base or tanker and the shuttle tanker. The flexible hose will be connected in a form that floats on the sea surface.

[0006] In the case of LNG, the fluid temperature is as low as -164 ° C. Even if the flexible hose has some heat insulating effect, if the flexible hose is immersed in seawater, the area around the flexible hose freezes,
It no longer serves the role of a flexible hose and cannot be used.

[0007]

SUMMARY OF THE INVENTION In view of the above-mentioned problems in the prior art, the present invention aims at preventing a fluid transfer flexible hose passed from an offshore base to a floating body such as a tanker from contacting the sea surface. It is an object of the present invention to provide a method and an apparatus which can be appropriately operated and can be properly connected to a fixed pipe on the floating body.

[0008]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, a method for connecting a fluid transfer hose to an offshore sea according to the present invention comprises connecting a fluid transfer pipe mounted on an offshore base to a fluid in a floating body near the base. When connecting to the receiving fixed pipe, the pipe is moved along the boom from the base of the crane boom installed at the base to the middle position of the boom length, and then separated downward as a flexible hose. ,
While positioning the hose above the water surface, support the distal end of the hose with a hanging cable hanging down from the boom of the crane, and then align the distal end of the hose with the fixed pipe in the floating body. It is characterized by being connected.

In the above-described method of the present invention, the fluid transfer pipe at the offshore base includes a pipe intermediate portion extending from the base of the crane boom to an intermediate position of the boom length at the base, and Since a vertical plane including a hanging portion of a flexible hose whose tip is supported by a suspended hanging cable is formed, the vertical plane can be formed by turning the boom of the crane toward a floating body such as a tanker. By turning, the pipe middle portion and the hose hanging portion are appropriately directed to a tanker or the like as a floating body.

[0010] By controlling the undulation of the boom and the length of the hanging of the suspension cable, alignment with the fixed piping in the tanker or the like can be accurately performed.
In this manner, the connection between the distal end of the hose hanging portion and the fixed pipe in a floating body such as a tanker can be easily performed.

The hose hanging portion is operated so that the hose hanging portion does not come into contact with the sea surface when receiving the control of the boom up / down control and the hanging length of the hanging cable. When the LNG is transferred, the outer periphery of the hose hanging part can be prevented from freezing, and the flexibility of the hose hanging part can appropriately absorb the fluctuation of the mutual interval between the base and the floating body. Become.

Further, the offshore connecting apparatus for a fluid transfer hose according to the present invention comprises a fluid transfer pipe mounted on an offshore base and a crane installed on the base, wherein the pipe is connected to the crane. A flexible hose hanging part that has a pipe middle part arranged along the boom base from the root part of the boom to a middle position of the boom length, and that is connected to the pipe middle part through a swivel joint and hung downward. A suspension cable having a tip end of the flexible hose hanging portion suspended from a position above the swivel joint in the boom to hold the flexible hose hanging portion above the water surface; and A hose with a clamp mechanism that grips the tip and aligns and connects to the fixed fluid receiving pipe in the floating body near the base And covering connecting means is characterized by being provided.

In the above-described apparatus of the present invention, a fluid transfer pipe mounted on an offshore base is suspended as a flexible hose from a middle position of a crane boom on the base via a swivel joint. Since the portion is supported by the hanging cable from the upper position of the crane boom, the swing of the hanging portion of the hose is smoothly permitted by the swivel joint.

In order to prevent the hanging portion of the flexible hose from coming into contact with the sea surface, it is necessary to drop the hanging portion of the hose from a relatively high position in the middle of the boom of the crane. With the installation of the swivel joint, the suspension of the flexible hose is appropriately held in combination with the support of the hose tip by the hanging cable of the crane.

The tip of the hanging part of the flexible hose held in this manner is hung on a floating body by controlling the swinging and raising and lowering of the boom of the crane and the hanging length of the hanging cable, and a hose with a clamp mechanism is provided. It is connected to the fixed piping on the floating body while being accurately positioned by the matching connecting means.

[0016]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a method and an apparatus for connecting a fluid transfer hose to the sea according to an embodiment of the present invention. FIG. FIG. 2 is a perspective view showing a hose aligning and connecting means with a clamp mechanism in the above apparatus.

As shown in FIG. 1, a fluid collected from an underground gas field or oil field in the ocean is stored in a tank of an offshore base 1 as a floating body or a deck supported on the seabed via legs. At this time, the natural gas is subjected to a low-temperature liquefaction process. The fluid obtained as a resource as described above is carried out by a shuttle tanker 2 as a floating body approaching the vicinity of the base 1, and the transfer of the fluid is performed via a pipe 5 mounted on the base 1.

In this embodiment, in particular, the pipe 5 is arranged along the boom 4 from the base of the boom 4 of the crane 3 erected at the end of the base 1 to an intermediate position of the length of the boom 4. The boom-mounted pipe intermediate portion 5a is provided, and a flexible hose hanging portion 5b that hangs downward from the pipe middle portion 5a through the boom-mounted swivel joint 6 and separates from the boom 4 is provided.

The flexible hose hanging portion 5b
Of the boom 4 is supported by a suspension cable 8 suspended from a pulley 4a at the distal end of the boom 4. The tank 5 is controlled by the crane 3 to control turning and undulation of the boom 4 and to control the length of suspension of the suspension cable 8. 2 to the hose matching connection means 7 with a clamp mechanism.

It is desirable that the hose hanging portion 5b is supported not only by the hanging cable 8 from the pulley 4a at the boom tip but also by the hanging cable 9 from the pulley 4b at the middle of the boom.

Hose alignment connecting means 7 with clamp mechanism
As shown in FIG. 2, a guide rail 12 fixed on the tanker 2 as a floating body, and a coupler 18 of a fixed pipe 17 for receiving fluid on the tanker 2 guided by the rail 12
And a groove-shaped member 10 for receiving the hose that can slide toward the flange 17f, and the groove-shaped member 10 is formed so that the hose tip 5c received by the groove-shaped member 10 can be gripped.
Clamp member attached to one side via a hinge 13
And a hydraulic cylinder 14 for opening and closing the clamp member 11 via a lever 15. Further, a screw type or hydraulic type drive rod 16 capable of moving the groove-shaped member 10 along the guide rail 12 is provided on the tanker 2.

The bracket 14a for pivotally supporting the base end of the hydraulic cylinder 14 is connected to a connecting member so that the hydraulic cylinder 14 can slide on the deck of the floating body 2 integrally with the groove member 10.
It is connected to the channel member 10 by 10a.

When the clamp member 11 is inclined sideways and opened, the hose tip 5c cooperates with the clamp member 11.
It is desirable to provide an inclined guide plate 19 that can guide the user to descend from above. Further, a flange 5 that can be joined to the flange 17f of the fixed pipe 17 is provided at the hose tip 5c.
f is provided.

In the method of this embodiment, the fluid transfer pipe 5 at the offshore base 1 is a pipe middle part extending from the base of the boom 4 to the middle position of the boom 4 in the crane 3 on the base 1. 5a and a flexible hose hanging portion 5b supported by hanging cables 8, 9 suspended from the crane 3 to form a vertical surface.
By turning the boom 4 of the crane 3 in the direction of the tanker 2, the vertical plane also turns, and the pipe intermediate portion 5a
And the tanker 2 without the hose hanging portion 5b being twisted.
Will be properly directed to

By controlling the undulations of the boom 4 and the hanging lengths of the suspension lines 8, 9, the tanker 2 can be properly aligned with the fixed pipe 17, and thus the hose is hung. The connection between the tip 5c of the portion 5b and the fixed pipe 17 in the tanker 2 can be easily performed.

Further, the hose hanging portion 5b is operated so that the hose hanging portion 5b does not come into contact with the sea surface when receiving the up / down control of the boom 4 and the control of the hanging length of the suspension lines 8, 9. In addition, the outer periphery of the hose hanging portion 5b can be prevented from freezing even when the extremely low temperature LNG is transferred, and the flexibility of the hose hanging portion 5b allows the above-mentioned base 1 to be frozen.
Fluctuations in the distance between the tank and the tanker 2 are appropriately absorbed.

Further, in the apparatus of the present embodiment, the fluid transfer pipe 5 mounted on the offshore base 1 is connected to the crane 3 at the intermediate position of the boom 4 on the same base 1 via the swivel joint 6 and the flexible hose hanging part. 5b, and the tip 5c of the hose hanging portion 5b is supported by the hanging ropes 8, 9 from above the boom 4 of the crane 3, so that the swing of the hose hanging portion 5b is swiveled by the swivel joint 6. It will be smoothly accepted.

Then, the flexible hose hanging portion 5b
In order to prevent the hose from touching the sea surface, the hose hanging portion 5b needs to be hung from a relatively high position in the middle of the boom 4 of the crane 3 in the boom 4 of the crane 3, but by installing the swivel joint 6, In combination with the support of the hose distal end portion 5c by the hanging lines 8, 9 of the crane 3, the flexible hose hanging portion 5b is appropriately held.

The distal end of the flexible hose hanging portion 5b held in this manner is hung on the tanker 2 by controlling the swinging and raising and lowering of the boom 4 of the crane 3 and the hanging length of the suspension cables 8, 9. Thus, the hose is connected to the fixed pipe 17 on the tanker 2 while being accurately positioned by the hose alignment connecting means 7 with a clamp mechanism. That is, after the hose tip 5c descending to the groove member 12 is gripped by the clamp member 11 by the operation of the hydraulic cylinder 14, the flange 5f of the hose tip 5c together with the groove member 12 is actuated by the operation of the drive rod 16. It advances toward the flange 17f with the coupler 18 of the fixed pipe 17, and the flanges 5f, 17
After the joining of f, the two flanges are clamped and pressed by the coupler 18.

[0030]

As described above in detail, according to the method and apparatus for connecting a fluid transfer hose to the sea, the following effects can be obtained. (1) In the method of the present invention, a fluid transfer pipe at an offshore base is hung from the crane on the crane's boom at the base from the base of the crane's boom to an intermediate position along the length of the boom. Since a vertical plane including a flexible hose hanging part whose tip end is supported by a hanging cable is formed, the vertical plane also turns by turning the crane boom toward a floating body such as a tanker. Thus, the pipe middle portion and the hose hanging portion can be appropriately directed to the tanker or the like. By controlling the boom undulation and the hanging length of the suspension cable, it is possible to accurately perform alignment with the fixed pipe in the tanker or the like, and in this manner, the tip of the hose hanging portion. And a fixed pipe in a floating body such as a tanker can be easily connected. Further, the hose hanging portion is operated so that the hose hanging portion does not come into contact with the sea surface when receiving the control of the boom undulation and the control of the hanging length of the suspension cable. During the transfer, the outer periphery of the hose hanging portion can be prevented from freezing, and the flexibility of the hose hanging portion can appropriately absorb the fluctuation in the mutual distance between the base and the floating body. (2) In the apparatus of the present invention, the fluid transfer pipe mounted on the offshore base is suspended as a flexible hose from the middle position of the crane boom on the base via a swivel joint, and the tip of the hose hanging part is Since the crane is supported by a hanging cable from an upper position on the boom, the swing of the hanging portion of the hose is smoothly permitted by the swivel joint. In order to prevent the hanging portion of the flexible hose from coming into contact with the sea surface, the hanging portion of the hose needs to be hung from a relatively high position in the middle of the boom of the crane. With the installation of the crane, the hanging end of the hose is supported by the hanging cable of the crane, and the hanging of the flexible hose is appropriately held. The tip end of the flexible hose hanging portion held in this manner is hung on a floating body by controlling the swinging and raising / lowering of the crane boom and the hanging length of the hanging cable, and the hose alignment connecting means with a clamp mechanism. As a result, it is connected to the fixed piping on the floating body while being positioned more accurately.

[Brief description of the drawings]

FIG. 1 is a side view showing a state in which a method of the present invention is performed using an offshore connecting device for a fluid transfer hose as one embodiment of the present invention.

FIG. 2 is a perspective view showing a hose alignment connecting means with a clamp mechanism in the apparatus of FIG. 1;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Marine base 2 Tanker (floating body) 3 Crane 4 Boom 4a, 4b Pulley 5 Fluid transfer pipe 5a Pipe middle part 5b Flexible hose hanging part 5c Hose tip 5f Flange 6 Swivel joint 7 Hose matching connection means with clamp mechanism 8, 9 Suspension cable 10 Hose receiving groove type member 11 Clamp member 12 Guide rail 13 Hinge 14 Hydraulic cylinder 15 Lever 16 Drive rod 17 Fixed piping 17f Flange 18 Coupler 19 Inclined guide plate

Claims (2)

[Claims] When connecting a fluid transfer pipe mounted on an offshore base to a fluid receiving fixed pipe on a floating body near the base, the pipe is connected to a base of a crane boom installed on the base. From the crane boom to the middle of the length of the boom, and then separate it downward as a flexible hose, and position the hose above the water surface while hanging the tip of the hose from the crane boom. A method for connecting a hose for fluid transfer on the sea, comprising supporting the hose with a suspended cable, and then aligning and connecting the tip of the hose to the fixed pipe in the floating body. 2. A crane installed on an offshore base and a fluid transfer pipe mounted on the base, wherein the pipe is located at an intermediate position of a length of the crane from the base of the boom of the crane. And a flexible hose hanging part that is connected to the middle part of the pipe via a swivel joint and hangs down, and holds the hanging part of the flexible hose above the water surface. In order to suspend and support the distal end of the flexible hose hanging portion from a position above the swivel joint in the boom, and to receive the fluid at a floating body near the base by gripping the distal end of the hose hanging portion. And a hose aligning and connecting means with a clamp mechanism for aligning and connecting to the fixed pipe for use with the fluid. Offshore connecting device for transfer hose.