KR102066630B1 - Steel catenary riser supporting apparatus and floating marine structure having the same - Google Patents

Abstract

Disclosed are a steel cutlery riser support and a floating offshore structure having the same. Steel tinery riser support device of the present invention, the rotation arm is coupled to one side rotatable to the hull of the offshore structure; And one side is rotatably coupled to the rotary arm, the other side includes a riser support portion coupled to the steel catenary riser (SCR) for connecting the wellhead (wellhead) provided on the seabed and the marine structure.

Description

STEEL CATENARY RISER SUPPORTING APPARATUS AND FLOATING MARINE STRUCTURE HAVING THE SAME}

The present invention relates to a steel cutlery riser support device and a floating offshore structure having the same, and more particularly, a steel that connects a wellhead and an offshore structure provided on the seabed to become an oil or gas transfer path. The present invention relates to a steel cutlery riser support device for supporting a cutlery riser and a floating offshore structure having the same.

Crude oil or gas drawn from oil wells on the seabed is a steel caterary riser (SCR) that connects wellheads on the seabed with floating offshore structures that are floating on the seabed. Is supplied to the floating offshore structure.

The crude oil or gas supplied through the steel cutlery riser goes through the process of removing impurities from the production facilities in the floating offshore structure. Floating offshore structures with production facilities to remove impurities include Floating Production Storage and Offloading (FPSO) and Floating Producton Units (FPUs).

FPSO is the production and unloading of oil or gas buried in the seabed in a mooring or anchored state without moving its position in the installed sea. It is mainly produced by OIL-FPSO (Oil-Floating Production Storage Offloading). There is LNG FPSO (Liquefied Natural Gas-Floating Production Storage Offloading).

FPU is a production facility floating on the sea.Tension Leg Platform (TLP), SPAR platform, Semi-submergible vessel due to the difference of hull shape and mooring method. ) Type and the like.

The Tension Bridge Platform (TLP) is a floating production facility in which numerous tensioned bridges are embedded in the seabed, usually made of iron pipes or wire ropes (125 mm diameter) with large diameters (250-750 mm). . Tension bridge platforms play a unique role in mid-water bodies between fixed offshore installations and floating production systems (FPS).

SPAR platform is a long cylindrical structure submerged in the sea surface, the upper structure is a facility for storing oil or gas, the lower part serves as a bridge for the stability of the structure. The spa platform is suitable for depths of 610 to 3000 meters.

Semi-submergible vessels are in the form of large box-shaped vessels that can be sustained by paired hulls. It has a huge capacity to drain ballast water to a minimum surface area and up to 170,000 tonnes, and can remain intact under bad weather conditions or heavy waves. Semi-submersible ships are also known as semi-submersible leagues.

On the other hand, in the case of a hang off system for a steel cutlery riser, which plays an important role in the production of gas and crude oil at sea, a stress joint ( Special members such as stress joints and flexible joints are used.

Specifically, the lower end of the steel cutlery riser disposed on the seabed is coupled to the well head and the upper end is coupled to the hull of the floating offshore structure, and its length is also long. Thus, when affected by ocean currents, wave motion and other external forces, bending of the steel cutlery will occur if this external force is not offset.

Conventionally, to offset the bending occurring in the steel cutlery riser, the steel cutlery riser is connected with the stress joint or the flexible joint in an area proximate to the floating offshore structure.

However, stress joints or flexible joints are made of expensive alloy materials, such as titanium alloys, in consideration of the effects of strength and seawater, and are also expensive to manufacture because they are not easy to manufacture.

In addition, there is a problem in the supply due to the scarcity of the manufacturer, the stress joint or the flexible joint itself also had a problem that is damaged by tidal current, wave movement.

Therefore, there is a need for a new alternative that can solve the bending problem that occurs in steel caterary risers without using stress joints or flexible joints.

US Patent Publication US 2007-0056741 (TECHNIP FRANCE) 2007. 03. 15.

Therefore, the technical problem to be achieved by the present invention is to offset the bending stress (bending stress) acting on the steel cutlery riser without using a stress joint or a flexible joint, the steel cutlery riser support device that can reduce the manufacturing cost And to provide a floating marine structure having the same.

According to an aspect of the invention, the rotating arm is rotatably coupled to one side of the hull of the marine structure; And one side is rotatably coupled to the rotary arm, the other side includes a riser support portion is coupled to the well head (wellhead) provided on the seabed and a steel catenary riser (SCR) connecting the marine structure A steel cutlery riser support may be provided.

The riser support may be hinged to the rotary arm.

The riser support may include a support body rotatably coupled to one side of the rotary arm; And a connector provided on the support body and connecting the pipe provided on the steel cutlery riser and the marine structure.

An incision groove is provided in the support body, and the connector may be accommodated in the incision groove.

The incision groove is provided in the longitudinal direction of the support body, the connector may be slid in the longitudinal direction from the incision groove.

The pipe may be fitted into the connector and the steel cutlery riser may be bolted to the connector.

The hull is provided with a bracket that is rotatably coupled to one side of the rotary arm, the bracket is provided with a larger size than the rotary arm and the riser support to withstand the tension generated in the seabed direction by the steel cutlery riser Can be.

Further, according to another aspect of the invention, the hull is provided with a production facility for oil or gas; A rotary arm rotatably coupled to one side of the hull; One side portion is rotatably coupled to the rotary arm, and the other side is a floating head including a well head (wellhead) provided on the seabed and a riser support portion coupled to the steel catenary riser (SCR) connecting the hull Offshore structures may be provided.

The hull is provided with a bracket that is rotatably coupled to one side of the rotary arm, the bracket is provided with a larger size than the rotary arm and the riser support to withstand the tension generated in the seabed direction by the steel cutlery riser Can be.

The floating offshore structure may comprise a Floatingg Production Unit (FPU) or Floating Production Storage and Offloading (FPSO).

Embodiments of the present invention, the steel category riser connected to the hull of the floating offshore structure is provided to be rotatable in multiple directions by the rotary arm and the riser support to the steel category riser without a stress joint or flexible joint It can counteract the applied bending stress.

In addition, since there is no need to install a stress joint or a flexible joint, it is possible to reduce the purchase cost of the stress joint or the flexible joint, thereby lowering the manufacturing cost of the floating offshore structure.

1 is a view schematically showing a state in which a floating offshore structure provided with a steel cutlery riser support device according to an embodiment of the present invention is provided at sea.
FIG. 2 is an enlarged view of an area "A" of FIG. 1.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

In this embodiment, the floating offshore structure may include Floating Production Storage and Offloading (FPSO) and Floating Producton Unit (FPU) as described in the background art of the invention.

1 is a view schematically showing a state in which a floating offshore structure provided with a steel cutlery riser support device according to an embodiment of the present invention is provided on the sea, and FIG. 2 is an enlarged view of region “A” of FIG. 1. One drawing.

As shown in these figures, the floating offshore structure 1 equipped with the steel cutlery riser support device according to the present embodiment is a bracket 10 provided on the hull and an upper portion of the bracket 10 is rotatable. Rotating arm 20 coupled to the upper arm, and rotatable upper side is rotatably coupled to the rotary arm 20, the lower portion is a steel catenary riser (SCR) connecting the wellhead and the hull provided on the seabed It is provided with a riser support 30 is coupled.

Bracket 10, as shown in Figure 2, is provided on the hull serves to support the rotatable arm 20 to be rotatable.

In the present embodiment, when the floating marine structure 1 is a semi-submersible ship, as shown in FIG. 1, the bracket 10 may be provided on the side of the hull pontoon PT. In addition, when the floating offshore structure is an FPU other than FPSO or semi-submersible ship, the bracket 10 may be provided in a hull side shell.

On the other hand, in this embodiment, the bracket 10 is larger in size than the rotary arm 20 and the riser support 30, as shown in Figure 2, in order to withstand the tension (tension) acting in the downward sea direction direction It can be produced as.

Specifically, the rotary arm 20 is connected to the bracket 10, the riser support 30 is connected to the rotary arm 20, the steel cutlery riser (SCR) is connected to the riser support 30, so the steel cutty The tension exerted by the riser is finally transferred to the bracket 10.

Therefore, in the present embodiment, the bracket 10 may be manufactured to have the width W more than twice the rotation arm 20 and the riser support part 30 in consideration of the aforementioned tension.

In this embodiment, the bracket 10 may be welded or bolted to the hull.

As shown in FIG. 2, the rotary arm 20 is rotatable in the left and right directions (reference to FIG. 2) at the lower side of the bracket 10, and when the steel cutlery riser SCR is twisted, the steel cutlery riser is rotated. It rotates like (SCR) and cancels the external force applied to the steel cutlery riser (SCR).

In this embodiment, the rotary arm 20 may be rotatably coupled to the bracket 10 in various ways. First, a protrusion is inserted into the bracket 10 at the upper end of the rotary arm 20, and a pin is inserted into the protrusion in the bracket 10 to allow the rotary arm 20 to rotate freely. have. Second, to provide a bearing in the inner bottom surface of the bracket 10, to the shaft to be inserted into the bearing on the upper end of the rotary arm 20, and to fix it with a pin so that the shaft is separated from the bearing to be pulled out of the bracket (10) Method and the like.

As shown in FIG. 2, the riser support part 30 is rotated in the vertical direction during the flow of the steel cutlery riser SCR coupled to the lower part by being rotatably coupled to the rotary arm 20 to the steel cutty. It counteracts bending stress applied to the NCR (SCR).

That is, in this embodiment, the stress is canceled by the left and right rotation of the rotary arm 20 when the left and right swing of the steel cutlery riser (SCR), the riser support portion 30 when the up and down flow of the steel cutlery riser (SCR) The vertical rotation of) can counteract the stress.

In this embodiment, the riser support part 30, as shown in Figure 2, one side portion is rotatably coupled to the rotary arm 20, the support body 31 is provided with a cutting groove 31a, and the support body 31 And a connector 33 connected to the steel cutlery riser SCR and the pipe P provided in the offshore structure.

The support body 31 may be hinged to the rotary arm 20, as shown in FIG. 2, so that the rotary arm 20 may be rotated in a vertical direction with respect to the reference axis.

As shown in FIG. 2, the cutting groove 31a provided in the support body 31 may be provided to be long in the longitudinal direction of the cutting body, and the connector 33 may be accommodated in the cutting groove 31a. . However, the release preventing groove into which the release preventing protrusion provided in the connector 33 is inserted may be provided on the wall surface of the receiving groove so that the received connector 33 is not separated.

In addition, a lower portion of the support body 31 is provided with a through hole through which a steel cutlery riser SCR can be inserted.

As shown in FIG. 2, the connector 33 is accommodated so as not to be separated from the cutout groove 31a of the support body 31 and connects the steel cutlery riser SCR to the pipe P provided in the hull. Play a role.

In the present embodiment, the pipe P provided in the hull may be a flexible pipe, and the pipe P may be fitted to the connector 33.

In addition, the steel cutlery riser SCR is inserted into the connector 33 after passing through the through hole of the support body 31, and is provided on the outer circumferential surface of the connector 33 by a bolt that is tightened into the connector 33. Can be bolted to 33.

Therefore, the crude oil and gas coming from the well of the seabed are supplied to the production equipment PS provided in the hull through the steel cutlery riser (SCR), the connector 33, the pipe (P).

And, in the present embodiment, the steel cutlery riser support device includes the above-described bracket 10, the rotary arm 20, the riser support 30.

As described above, the present embodiment is provided by the rotary arm and the riser support to be rotatable in a multi-direction by a steel category riser connected to the hull of the floating offshore structure without the stress joint or flexible joint Bending stress on the cutlery riser can be offset.

In addition, since there is no need to install a stress joint or a flexible joint, it is possible to reduce the purchase cost of the stress joint or the flexible joint, thereby lowering the manufacturing cost of the floating offshore structure.

As described above, the present invention is not limited to the described embodiments, and various modifications and changes can be made without departing from the spirit and scope of the present invention, which will be apparent to those skilled in the art. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

1: Floating offshore structure 10: Bracket
20: rotary arm 30: riser support
31 support body 32 connector
P: Pipe PS: Production Equipment
PT: Pontoon SCR: Steel Cutlery Riser

Claims (10)

A rotary arm rotatably coupled to one side of the hull of the offshore structure; And
One side portion is rotatably coupled to the rotary arm, and the other side includes a riser support portion to which a well head provided on the seabed and a steel catenary riser (SCR) connecting the marine structure are coupled.
The riser support portion,
A support body having one side rotatably coupled to the rotation arm; And
A connector provided on the support body and connecting the pipe provided on the steel cutlery riser and the marine structure;
The support body is provided with an incision groove,
The connector is accommodated in the incision groove,
The cutting groove is provided long in the longitudinal direction of the support body,
And the connector is slid in the longitudinal direction from the cutting groove. The method according to claim 1,
Steel riser support device, characterized in that the riser support is hinged to the rotary arm. delete delete delete The method according to claim 1,
The pipe is fitted into the connector,
And the steel cutlery riser is bolted to the connector. The method according to claim 1,
The hull is provided with a bracket that is rotatably coupled to one side of the rotary arm,
The bracket is provided in a larger size than the rotary arm and the riser support portion is a steel cutlery riser support device, characterized in that to withstand the tension generated in the seabed direction by the steel cutlery riser. delete delete delete

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