KR102495459B1 - Install structure of fluid transfer line and install method for spread mooring marine plant - Google Patents

Abstract

The present invention relates to an installation structure and installation method of a subsea drilling fluid transfer line in a multi-point mooring offshore plant, and a fluid transfer line hollow pipe guiding a subsea drilling fluid transfer line (FTL) employed in a multi-point mooring offshore plant. By being installed inside the hull, there is no need to separately install a protector that protects the subsea drilling fluid transfer line, and the platform of the subsea drilling fluid transfer line is installed on the main deck of the hull, improving structural stability, accessibility and maintenance. It is possible to prevent damage caused by objects floating on the sea, etc., thereby increasing safety from external impact. In addition, since the hollow tube of the fluid transfer line can be supported using a horizontal stringer, consumption of additional members due to the installation of the hollow tube of the fluid transfer line can be minimized and the access passage can be utilized.

Description

Installation structure and installation method of subsea drilling fluid transfer line of multi-point mooring offshore plant

The present invention relates to an installation structure and method for installing a subsea drilling fluid transfer line in a multi-point mooring offshore plant, and more particularly, to a fluid guiding a subsea drilling fluid transfer line (FTL) employed in a multi-point mooring offshore plant. Since the transfer line hollow tube is installed vertically inside the hull, there is no need to separately install a protector to protect the subsea drilling fluid transfer line, and the platform of the subsea drilling fluid transfer line is the main platform of the hull while making the most of the existing hull support structure. It relates to an installation structure and installation method of a subsea drilling fluid transfer line of a multi-point mooring offshore plant that can be installed on the upper deck to improve structural stability and accessibility.

An offshore plant is a facility that excavates, drills, and produces resources such as oil and gas (hereinafter referred to as 'marine resources') buried in the ocean. These offshore plants are rapidly emerging as a major industry as energy shortages and high oil prices continue due to increased energy demand in rapidly growing emerging countries.

These offshore plants are connected to subsea drilling facilities and have a connection line such as a fluid transfer line (FTL: Fluid Transfer Line or Riser) for transporting various fluids, voltages, hydraulics, chemicals, etc. produced crude oil and transferring working fluids. are equipped

In particular, among offshore plants, a multi-point mooring offshore plant such as a floating crude oil production storage and offloading facility (FPSO) is equipped with a fluid transfer line (FTL: FLUID TRANSFER LINE) as shown in FIGS. 1 and 2.

1 is a perspective view schematically showing an installation structure of a subsea drilling fluid transfer line of a floating offshore plant according to the prior art, and FIG. 2 is a longitudinal cross-sectional view schematically showing an installation structure of a subsea drilling fluid transfer line of a floating offshore plant according to the prior art. It is also

As shown in FIGS. 1 and 2, the subsea drilling fluid transfer line installation structure of the conventional floating offshore plant has a structure in which the subsea drilling connection line 10 is installed outside the hull, and accordingly, a winch (a riser pull) at the upper end It is necessary to install a support structure 20 for supporting the riser pull-in winch 21 and a separate protection structure 30 for supporting and protecting the subsea drilling fluid transfer line 10.

However, the conventional subsea drilling fluid transfer line installation structure requires a separate structure for protection due to exposure to the outside of the hull, which increases man-hours and air due to the increase in materials, difficulties in design and production/installation, and economic feasibility There is a problem with this fall.

In addition, the conventional subsea drilling fluid transfer line installation structure is exposed to the outside of the hull, so it is vulnerable to impact by floating objects and is affected by the surrounding environment.

Republic of Korea Patent Publication No. 10-2013-0038405 (2013.04.12.) Republic of Korea Patent Publication No. 10-2015-0000275 (2015.01.02.)

Therefore, the technical problem to be achieved by the present invention is that a fluid transfer line hollow pipe guiding a subsea drilling fluid transfer line (FTL) employed in a multi-point mooring offshore plant such as FPSO is vertically installed inside the hull, There is no need to separately install a protector to protect the subsea drilling fluid transfer line, and the platform of the subsea drilling fluid transfer line is installed on the upper part of the main deck of the hull to improve structural stability and accessibility. We would like to provide an installation structure and installation method.

In addition, design and production/installation work is relatively easy, accessibility for inspecting the connection part of the fluid transfer line hollow pipe is excellent, so maintenance is excellent, and multi-point mooring offshore drilling that can prevent damage by floating objects at sea It is intended to provide an installation structure and installation method of a fluid transfer line.

The present invention provides an installation structure and installation method of a subsea drilling fluid transfer line of a multi-point mooring offshore plant.

In the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention, a fluid transfer line hollow pipe is installed vertically through the inside of the hull of the offshore plant, and the subsea drilling fluid transfer line is installed in the fluid transfer line hollow tube. is installed

The fluid transfer line hollow pipe is installed penetrating from the main deck of the hull of the offshore plant to the bottom of the ship, the subsea drilling fluid transfer line is inserted into the fluid transfer line hollow tube, and is installed at the lower end of the fluid transfer line hollow tube. After the tube is installed, a bell mouth and a band stiffener may be connected to the tube.

When the subsea drilling fluid transfer line is arranged in a vertical direction, an I-shaped tube may be installed among the tubes.

A riser pull-in winch platform and a riser porch platform are located above the subsea drilling fluid transfer line, and the riser pull-in winch platform and the riser porch platform are disposed above the main deck It can be. The hollow tube of the fluid transfer line may be supported by a horizontal stringer. In this way, the hollow tube of the fluid transfer line can be more firmly installed using the existing horizontal stringer.

On the other hand, in the installation method of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention, the fluid transfer line hollow pipe is installed by vertically penetrating the inside of the hull of the offshore plant, and the fluid transfer line hollow tube is installed by a horizontal stringer. supporting; installing the subsea drilling fluid transfer line into the fluid transfer line hollow tube, and arranging a riser pull-in winch platform and a riser porch platform on top of the main deck; After installing a tube at the lower end of the hollow tube of the fluid transfer line, connecting a bell mouth and a band stiffener to the tube.

As described above, the present invention eliminates the need to separately install a protector to protect the fluid transfer line by installing the hollow tube of the fluid transfer line, which guides the subsea drilling fluid transfer line employed in the multi-point mooring offshore plant, inside the hull, The platform of the subsea drilling fluid transfer line is installed on the main deck of the hull, improving structural stability, accessibility and maintenance, as well as preventing damage from floating objects at sea, increasing safety from external impact.

In addition, since it is possible to support the fluid transfer line hollow pipe using a horizontal stringer while maximizing the support structure of the existing hull, consumption of additional members due to the installation of the fluid transfer line hollow pipe can be minimized and can be used as an access passage.

In addition, after installing I-Tube or J-tube at the end of the hollow pipe of the fluid transfer line, it is configured to connect the bell mouth and band stiffener underwater, and depending on the direction of the subsea drilling fluid transfer line, I-tube or J-tube is appropriately A J-shaped tube can be selected and installed.

1 is a perspective view schematically showing an installation structure of a subsea drilling fluid transfer line of a floating offshore plant according to the prior art;
2 is a longitudinal cross-sectional view schematically showing an installation structure of a subsea drilling fluid transfer line of a floating offshore plant according to the prior art;
3 is a plan view showing the bow of the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention;
4 is a longitudinal cross-sectional view showing the installation structure of a subsea drilling fluid transfer line of a multi-point mooring offshore plant according to the present invention;
Figure 5 is an enlarged view of the lumbar excerpt of Figure 4, and
6 is a view showing a tube and band stiffener.

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

The structure of the subsea drilling connection line of the multi-point mooring offshore plant according to the present invention described below is not only a multi-point mooring offshore plant such as a floating crude oil production storage and offloading facility, but also fluid transfer for transporting produced crude oil and delivering working fluids. It can be applied to all offshore plants where connection lines such as FTL (Fluid Transfer Line or Riser) are installed.

In the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention, the hollow tube of the fluid transfer line is installed inside the hull penetrating from the main deck to the bottom of the ship, so that the configuration can be simplified by omitting necessary components, thereby designing and The production/installation work is relatively easy, the manufacturing cost can be reduced, and the connection of the hollow pipe of the fluid transfer line can be accessed from the inside of the hull, so the accessibility for inspection is excellent and maintenance is excellent. It can prevent breakage, so safety from external impact can be secured.

Hereinafter, an installation structure and installation method of a subsea drilling fluid transfer line of a multi-point mooring offshore plant according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 3 to 6 .

Figure 3 is a plan view showing the bow of the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention, Figure 4 is a plan view showing the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention A longitudinal cross-sectional view, FIG. 5 is an enlarged view of the main part of FIG. 4, and FIG. 6 is a view showing a tube and a band stiffener.

As shown in FIGS. 3 to 6, in the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention, the fluid transfer line hollow pipe 100 is installed vertically through the inside of the hull of the offshore plant. And, the subsea drilling fluid transfer line 110 is installed in the fluid transfer line hollow pipe 100.

The fluid transfer line hollow pipe 100 is installed penetrating from the main deck of the hull of the offshore plant to the bottom of the ship, the subsea drilling fluid transfer line 110 is inserted into the fluid transfer line hollow tube 100, and the fluid transfer line hollow tube After a tube 120, for example, an I-shaped tube or a J-shaped tube is installed at the lower end of 100, a bellmouth 140 and a bellmouth 140 are connected to the tube 120 using a clamp not shown in the drawing. It is configured so that the band stiffener 130 can be connected.

When the subsea drilling fluid transfer line 110 is arranged in a vertical direction, an I-shaped tube may be installed among the tubes 120.

A riser pull-in winch platform 111 and a riser porch platform 112 are located above the subsea drilling fluid transfer line 110, and the riser pull-in winch platform 111 and A riser porch platform 112 may be placed on top of the main deck. The fluid transfer line hollow tube 100 may be supported by a horizontal stringer. In the drawing, only a part of the entire horizontal stringer is shown, but the fluid transfer line hollow pipe 100 is preferably supported by the entire horizontal stringer. In this way, the fluid transfer line hollow tube 100 can be more firmly installed by using the horizontal stringer installed on the hull.

On the other hand, in the installation method of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention, the fluid transfer line hollow pipe 100 is installed vertically through the inside of the hull of the offshore plant, and the fluid transfer line is supporting the hollow tube 100; installing a subsea drilling fluid transfer line 110 into the fluid transfer line hollow tube 100 and disposing a riser pull-in winch platform 111 and a riser porch platform 112 on the upper part of the main deck; After installing the tube 120 at the lower end of the hollow tube 100 of the fluid transfer line, connecting the bellmouth 140 and the band stiffener 130 to the tube 120.

As the subsea drilling fluid transfer line 110, for example, a production line for oil transfer, and a pig launcher to pierce a place clogged with mud using a low freezing point of methanol. Oil is transferred to the production line by injecting water into the Clean Up Line, the gas lift line, and the Subsea Separator, which is a subsea equipment because the specific gravity of water is higher than that of oil. Water Injection Line, which is a line that can transmit data and voltage to the control system for controlling hydraulic equipment and valves, which are subsi equipment, and umbilicals line, which is a line to supply hydraulic pressure and chemicals ( umbilicals line) and the like.

As described above, the present invention provides a separate protector for protecting the fluid transfer line by installing the hollow pipe of the fluid transfer line that guides the fluid transfer line (FTL) employed in the multi-point mooring offshore plant inside the hull. It does not need to be installed, and since the platform of the fluid transfer line can be installed on the main deck of the hull, structural stability, accessibility and maintenance are improved, as well as damage caused by floating objects at sea can be prevented, further increasing safety from external shocks. can be raised

In addition, since the hollow tube of the fluid transfer line can be supported using a horizontal stringer, consumption of additional members due to the installation of the hollow tube of the fluid transfer line can be minimized and the access passage can be utilized.

In addition, after installing I-Tube or J-tube at the end of the hollow tube of the fluid transfer line, it is configured to connect the bell mouth and the bend stiffener underwater, depending on the direction of the fluid transfer line. It can be installed by selecting an I-type tube or a J-type tube.

As described above, the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant according to the present invention has been described with reference to the illustrated drawings, but is not limited by the embodiments and drawings described above, and is within the scope of the claims. Of course, various modifications and variations may be made by those skilled in the art to which the present invention belongs.

100: fluid transfer line hollow tube
110: subsea drilling fluid transfer line
120: tube
130: band stiffener
140: Bellmouth
M: offshore plant

Claims (6)

As an installation structure of a subsea drilling fluid transfer line of a multi-point mooring offshore plant,
A plurality of fluid transfer line hollow tubes are installed vertically penetrating the inside of the hull of the offshore plant, and each of the subsea drilling fluid transfer lines is installed in the plurality of fluid transfer line hollow tubes,
The installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant, characterized in that the hollow pipe of the fluid transfer line is supported by a horizontal stringer formed inside the hull. The method of claim 1,
The fluid transfer line hollow pipe is installed penetrating from the main deck of the hull of the offshore plant to the bottom of the ship, the subsea drilling fluid transfer line is inserted into the fluid transfer line hollow tube, and is installed at the lower end of the fluid transfer line hollow tube. After the tube is installed, a bellmouth and a band stiffener are connected to the tube. The method of claim 2,
When the subsea drilling fluid transfer line is arranged in the vertical direction, the installation structure of the subsea drilling fluid transfer line of the multi-point mooring offshore plant, characterized in that an I-shaped tube is installed among the tubes. The method of claim 1,
A riser pull-in winch platform and a riser porch platform are located above the subsea drilling fluid transfer line, and the riser pull-in winch platform and the riser porch platform are disposed above the main deck Installation structure of a subsea drilling fluid transfer line of a multi-point mooring offshore plant, characterized in that. delete In the installation method of the subsea drilling fluid transfer line of the multi-point mooring offshore plant,
installing a plurality of fluid transfer line hollow tubes vertically penetrating the inside of the hull of the offshore plant, and supporting the fluid transfer line hollow tubes by horizontal stringers formed inside the hull;
installing each of the subsea drilling fluid transfer lines into the plurality of fluid transfer line hollow tubes, and arranging a riser pull-in winch platform and a riser porch platform on top of the main deck; and
A method of installing a subsea drilling fluid transfer line of a multi-point mooring offshore plant comprising the step of installing a tube at the lower end of the hollow tube of the fluid transfer line and then connecting a bell mouth and a band stiffener to the tube.

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