KR20140143936A - Method for installation of FPSO Spool connected riser - Google Patents

Abstract

The present invention relates to a method for installing an FPSO pipe structure connected to a riser. The method enables to minimize generation of errors to be corrected when the FPSO pipe structure is actually installed on the sea by manufacturing a model of the FPSO pipe structure, installing the model on a termination head, and reflecting error correction to manufacture the FPSO pipe structure. The method for installing the FPSO pipe structure connected to the riser comprises a first step of building an FPSO hull, and fixing an I-tube pipe fixing member and an I-tube on one side of the FPSO hull; a second step of installing a termination head model on one end of the I-tube; a third step of manufacturing the FPSO pipe structure and installing the manufactured FPSO pipe structure on one end of the termination head model; a fourth step of checking the design correction of the FPSO pipe structure model; a fifth step of manufacturing the actual FPSO structure reflecting the design correction; and a sixth step of installing the actual termination head and a flexible riser pipe on an FPSO and the FPSO pipe structure after transporting the FPSO and the FPSO pipe structure to the sea. The steps from the first step to the fifth step are performed on a yard.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method of installing a FPSO piping structure connected to a riser,

The present invention relates to a mounting method of an FPSO piping structure connected to a riser. More particularly, the present invention relates to a method of mounting an FPSO piping structure on a model of a termination head before installation of an FPSO piping structure and a termination head in the ocean, The present invention relates to a method of mounting an FPSO piping structure connected to a riser that minimizes the occurrence of modifications when mounting actual FPSO piping structures in the ocean by reflecting modifications to the FPSO piping structure.

Floating Production Storage Offloading (FPSO) or LNG Floating Production Storage Offloading (LNG FPSO) is a floating storage facility in the form of a ship or a barge (Korean Patent Publication No. 2012 -53760). FPSO is currently being used to produce crude oil from oilfields, and LNG FPSO has been actively exploited in recent years due to depletion of oil fields and increased demand for clean raw materials.

FPSO and LNG FPSO can be said to be a marine refinery capable of stagnating, storing and transporting crude oil or natural gas while floating in the sea.

When designing a hull of a conventional floating storage facility and planning a series of procedures for drying the hull, there are many difficulties in considering the structure derived from the outer surface of the hull. For example, there are a riser pipe (usually referred to as an 'I-tube') for protecting the riser and a protection structure for securing and protecting the riser pipe to the hull. Generally, a riser refers to a pipe that serves as a passage for transferring oil product, which is a mixture of oil, gas, and water, in the oil well to the production facility of the hull or filling the oil well with water instead of extracted oil.

The installation process of the riser related device according to the related art will be described as follows. First, a riser pipe (I-tube) is fixed to a riser pipe fixation member provided on one side of the hull in a yard (Yard, Onshore). Then, a termination head is mounted at one end of the riser pipe. The termination head is a medium connecting between the piping structure of the FPSO and the riser, and the piping structure of the FPSO refers to a piping structure composed of a pipe, a flange, and a valve. The hull is moved offshore and after moving to the ocean, the piping structure and riser of the FPSO are mounted on both ends of the termination head to complete the installation of the riser-related device.

In such a conventional technique, since the piping structure of the FPSO is moved to the ocean in a state of being manufactured in advance, there arises a problem that a complete coupling between the piping structure of the FPSO and the termination head occurs due to a process error or the like . This is inevitably caused by the fact that the piping structure of the FPSO and the termination head can not be combined in advance in the yard. The reason why the piping structure of the FPSO and the termination head can not be combined in advance is that the installation work of the termination head is carried out in the ocean and then the piping structure is mounted on the termination head.

Korea Patent Publication No. 2012-53760

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a FPSO piping structure, which is prepared before installation of an FPSO piping structure and a termination head in the ocean, The present invention provides a mounting method of an FPSO piping structure connected to a riser that minimizes the occurrence of modifications when mounting an actual FPSO piping structure in the ocean.

In order to accomplish the above object, there is provided a method of mounting an FPSO pipe structure connected to a riser according to the present invention includes a first step of drying an FPSO hull, fixing an I-tube pipe fixing member and an I-tube to one side of the FPSO hull, A second step of mounting a termination head model to one end of the I-tube, a third step of manufacturing an FPSO piping structure and mounting the manufactured FPSO piping structure to one end of the termination head model, FPSO and FPSO piping structures are moved to the ocean and then the actual termination head and flexible riser pipe are mounted. The fourth step is to confirm the design modification of the FPSO and the FPSO piping structure. And a sixth step of mounting an actual FPSO piping structure to the other end of the termination head, wherein the first to fifth The step is characterized by proceeding in the yard.

The termination head model may be made of carbon steel.

The mounting method of the FPSO piping structure connected to the riser according to the present invention has the following effects.

FPSO piping structure connected to the riser Before the installation in the ocean, a model of the termination head is manufactured and pre-installed in the yard, so that the FPSO piping structure reflecting the design modifications can be manufactured. Thus, the actual FPSO piping The design change operation can be minimized when the structure is installed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flow chart for explaining a mounting method of an FPSO piping structure connected to a riser according to an embodiment of the present invention; FIG.
2 is a view for explaining a mounting method of an FPSO piping structure connected to a riser according to an embodiment of the present invention.

Hereinafter, a mounting method of an FPSO piping structure connected to a riser according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 and 2, an FPSO hull 200 is firstly dried (S101) in a yard, that is, a coastal shipyard, and an I-tube pipe fixing member 210 is installed on one side of the FPSO hull 200, (S102). The I-tube pipe fixing member 210 serves to fix the I-tube 220, and the I-tube 220 is fixed to one side of the I-tube pipe fixing member 210.

Then, the termination head model 230 is mounted on one end of the I-tube 220 (S103). The termination head model 230 is a medium that mediates connection between the FPSO piping structure and the riser 250. One end of the termination head model 230 connected to the riser 250 has a flexible jumper 231 . Mounting of the termination head model 230 proceeds in the yard. Here, the FPSO termination head model 230 refers to a model having the same shape as the actual FPSO termination head 232.

Next, the FPSO piping structure 241 is manufactured (S104), and the manufactured FPSO piping structure 241 is mounted on one end of the termination head model 230 (S105). FPSO piping structure 242 refers to a piping structure comprising a combination of pipes, flanges, and valves.

The reason why the FPSO piping structure 241 is attached to the termination head model 230 before mounting the actual FPSO piping structure 242 in the present invention is that the FPSO piping structure 242 has the same shape as the actual FPSO piping structure 242, 242 in order to reflect the manufacturing tolerances and field working conditions of the piping structure 241, the piping structure 241 is installed in the termination head model 230 at the yard, thereby correcting design errors and securing process margins. In addition, the installation work on the termination head model 230 of the FPSO piping structure 241 proceeds in the yard, and the termination head model 230 can be made of carbon steel.

The FPSO piping structure 241 is mounted on the termination head model 230 and then the actual FPSO piping structure 242 is fabricated by reflecting an error in design and the like in operation S106.

The actual termination head 232 is mounted and the actual termination head 232 is mounted on the other end of the actual FPSO piping structure 242 to move the riser 250. [ The installation method of the FPSO piping structure connected with the FPSO piping structure is completed (S108). Since the design error is pre-corrected and reflected through the installation of the FPSO piping structure (241) to the termination head model (230), the occurrence of the design modification when mounting the actual FPSO piping structure (242) is minimized, .

200: FPSO 210: I-Tube pipe fixing member
220: I-Tube 230: Termination Head Model
232: Actual Termination Head
231: riser fixing end 241: FPSO piping structure (yard mounting value)
242: FPSO piping structure (marine installation) 250: Flexible riser pipe

Claims (2)

A first step of drying the FPSO hull and fixing the I-tube pipe fixing member and the I-tube to one side of the FPSO hull;
A second step of attaching a termination head model to one end of the I-tube;
A third step of manufacturing an FPSO piping structure and mounting the manufactured FPSO piping structure to one end of the termination head model;
A fourth step of confirming the design modification of the FPSO piping structure model;
A fifth step of fabricating an actual FPSO piping structure reflecting the design modification;
And a sixth step of moving the FPSO and FPSO piping structures to the ocean and then mounting the actual termination head and the flexible riser pipe and mounting the actual FPSO piping structure to the other end of the termination head,
Wherein the first to fifth steps are performed in a yard. ≪ Desc / Clms Page number 20 >
The method of claim 1, wherein the termination head model is made of carbon steel.

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