KR20150013988A - Drill Ship Capable of Laying Pipeline - Google Patents

Abstract

The present invention relates to a drill ship capable of laying a pipeline, which can install the pipeline on the sea floor by using the drill ship without an additional pipeline installation ship as a pipe installation unit is installed in a hull of the drill ship capable of a drilling operation to be able to install the pipeline on the sea floor. The present invention can simplify an overall drilling process and perform the pipeline installation operation during the drilling operation or as soon as the drilling operation is finished, thereby providing the drill ship capable of laying the pipeline to save drilling costs by shortening the time required for drilling.

Description

[0001] The present invention relates to a drill ship,

The present invention relates to a drill ship capable of pipeline installation work. More specifically, by installing a pipe installation unit on the bottom of the drill ship for drilling operation, it is possible to install the pipeline on the bottom of the sea using a drill ship without a separate pipeline installation vessel, This can simplify the entire drilling process, enable pipeline installation work during subsea well drilling operations or as soon as drilling operations are completed, and reduce pipeline drilling costs by reducing drilling periods. It is about drillship.

As the international phenomenon of industrialization and industry develops, the use of resources such as petroleum is gradually increasing, and thus the stable production and supply of oil is becoming a very important issue on a global scale.

For this reason, the development of the marginal field or deep-sea oil field, which had been neglected due to economic difficulties, has become economic in recent years. Therefore, along with the development of submarine mining technology, drilling rigs with drilling facilities suitable for the development of such oilfields are being developed.

Various drilling equipment such as derrick, riser, and drill string are installed on the drill ship to drill oil and gas existing under the sea floor, and they are used to form a well on the bottom of the seabed.

Once these wells are formed on the bottom of the seabed by these drill rigs, pipelines are connected to the seabed wells to transport oil or gas from the seabed wells. The pipeline is installed on the bottom of the sea floor. It can be installed more than several Km depending on the transportation distance, and generally, a plurality of pipelines are installed.

In order to install these pipelines on the bottom of the sea floor, a separate pipeline laying vessel is used. Pipeline Installation Ships can be divided into S-Lay, J-Lay and Reel-type vessels according to the pipeline installation method and appropriate pipeline installation vessels are selected and applied considering the environment for submarine wells. .

In order to connect the pipelines to the seabed wells after the seabed wells are formed on the bottom of the seabed through the drill ship, a separate pipeline installation vessel must be additionally operated to install the pipelines. Therefore, the process is complicated, Thereby increasing the cost. In other words, since an additional auxiliary vessel for pipeline installation is required in addition to the drill ship, there is a problem that the overall process may be delayed and the drilling cost is increased.

Korean Patent Laid-Open No. 10-2012-0100635

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and an object of the present invention is to provide a pipe installation unit for installing a pipeline on a bottom of a drill ship, The pipeline can be installed on the submarine floor using drillships without vessels, which can simplify the entire drilling process, and can be used to perform pipeline installation work during drilling or subsea well drilling, To reduce drilling costs and to provide pipeline installation work.

The present invention provides a drill rig capable of drilling a submarine oil well by forming a derrick and a door pool on a hull, the pipe line extending downward from the hull to the bottom of the sea floor, And a mounting unit is mounted on the base.

At this time, the pipe installation unit may be configured to install the pipeline in a Reel Lay manner.

Further, the pipe installation unit may include: a winding reel mounted on the hull and wound around the pipeline so as to continuously supply the pipeline; A guide lamp installed in the derrick and guiding a movement path of the pipeline so that the pipeline wound up from the take-up reel is moved downward through the door frame; And a line track for moving the pipeline downward through the guide ramp.

Further, the pipeline is supported by a separate fixing member in a section arranged to pass through the door pool from the guide lamp, and the fixing member is connected to a traveling block mounted on the derrick, Up and down movement of the pipeline caused by the traveling block can be compensated by the traveling block.

Further, the pipeline is supported by a separate fixing member in a section arranged to pass through the door pool from the guide lamp, and the fixing member is connected to a riser tensioner mounted on the derrick, The up and down movement of the pipeline that occurs can be compensated by the riser tensioner.

In addition, a ray lamp may be mounted on the door frame to guide the downward movement path of the pipeline during the passage of the pipeline through the door frame.

The present invention provides a method for installing a pipeline on the bottom of a sea floor through a drill with a derrick and door pool on a hull, the pipe installation unit being mounted on the hull so that the pipeline can be extended downward to the bottom of the sea floor through the door pool And installing the pipeline on the bottom of the sea floor using the pipe installation unit.

According to the present invention, by installing a pipe installation unit for installing a pipeline on the bottom of a drill ship capable of drilling, the pipeline can be installed on the bottom of the seabed using a drill without a separate pipeline installation vessel Thus, the entire drilling process can be simplified, the pipeline installation operation can be performed during the subsea well drilling operation or immediately after the drilling operation is completed, and the drilling period can be shortened to reduce the drilling cost.

In addition, by connecting the pipeline to the traveling block or the riser tensioner, it is possible to compensate the upward and downward movement of the pipeline caused by the up and down movement of the hull, thereby maintaining the pipeline in a constant arrangement regardless of the up- So that a more smooth and stable pipeline installation operation can be performed.

FIGS. 1 to 4 schematically illustrate various forms of dripping capable of installing a pipeline according to an embodiment of the present invention; FIG.
FIG. 5 is a view schematically showing the configuration of the ray lamp shown in FIGS. 1 to 4. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIGS. 1 to 4 are views schematically showing various types of dripping that can be installed in a pipeline according to an embodiment of the present invention. FIG. 5 is a schematic view showing the configuration of the ray lamp shown in FIGS. Fig.

The drill rig according to an embodiment of the present invention is a drill rig capable of drilling the bottom of the seabed to form a submarine oil well. In the hull 100, as shown in FIGS. 1 to 4, drilling equipment 200, A riser deck 111, a drill pipe deck 121, and the like. One derrick 200 may be provided, but two derrick 200 may be provided as shown in FIGS. Since the general construction for such a drill is well known in the art, detailed description thereof is omitted here.

The drill rig according to an embodiment of the present invention is configured to install the pipeline on the bottom of the seabed although the drill ship is a drill ship, and the pipe installation unit 300 is mounted on the hull 100 for this purpose.

The pipe installation unit 300 is formed to extend the pipeline P downward to the bottom of the sea through the door 210 formed below the derrick 200 to install the pipeline P on the bottom of the sea floor, At this time, it is preferable that the pipe installation unit 300 is formed to be able to install the pipeline by Reel Lay method.

The pipeline can be divided into S-Lay, J-Lay, and Reel Layers as described in the Background Art. In the S-Lay scheme, the shape of the pipeline extending downward to the bottom of the seabed is " S "shape, and the J-Lay method is a method of extending the pipeline down to the bottom of the sea to form a" J "shape. That is, in the J-Lay scheme, pipelines extending from the hull to the bottom of the seabed are arranged substantially vertically. The S-Lay system and the J-Lay system consist of a system in which a unit pipe having a unit length is sequentially welded and supplied from the hull. On the other hand, the Reel Lay method is a method in which a single continuous pipeline is continuously wound on a reel. In this case, the downward extension of the pipeline through the Reel Lay scheme can be made to follow the S-Lay or J-Lay scheme, which forms an "S" character or a "J" character.

According to the pipeline installation method, the pipe installation unit 300 according to an embodiment of the present invention is installed with a pipeline in a Reel Lay manner, in which the derrick 200 and the platform 210 are vertically arranged It is preferable that the downward extension of the pipeline among the Reel Lay scheme is configured to follow the J-Lay scheme having a "J " shape.

The pipe installation unit 300 includes a take-up reel 310 in which the pipeline P is wound so that the pipe line P can be continuously fed and a pipe line P in which the pipe line P is unwound from the take- A guide lamp 320 for guiding the movement path of the pipeline P to move downward through the guide tube 210 and a line track 330 for moving the pipeline P passing through the guide lamp 320 downward .

The take-up reel 310 can be applied in the same manner as the type used in a general pipeline installation ship, and the pipeline P is wound and coupled to the hull 100. For example, (111) or the drill pipe deck (121). A riser stall 110 may be coupled to the riser deck 111 to load a riser (not shown), as shown in Figures 1 and 2, Can be rotatably coupled. Similarly, the drill pipe deck 121 may be coupled with a drill pipe station 120 for loading a drill pipe (not shown) as shown in Figs. 3 and 4, The take-up reel 310 can be rotatably engaged.

The guide lamp 320 may be formed in a circular ring-shaped frame shape so that the pipeline P wound from the take-up reel 310 can be guided in a form that the pipe line P is wound in a certain section, . Accordingly, the pipeline P is guided by the guide lamp 320 and extends downward toward the door frame 210.

The line track 330 may be installed in the derrick 200 to be positioned below the guide lamp 320 and may be installed in the pipe 200 such that the pipeline P, which has passed through the guide lamp 320, And pushes the line P downward.

When the take-up reel 310 is coupled to the riser station 110 as shown in FIGS. 1 and 2, the guide ramp 320 and the line track 330 are connected to the stern side When the take-up reel 310 is coupled to the drill pipe station 120 as shown in FIGS. 3 and 4, the guide lamp 320 and the line track 330 may be installed in the derrick 200 of the forward side among the two derrick 200. [

According to this structure, the pipeline P is continuously supplied from the take-up reel 310 in such a manner as to be unwound from the take-up reel 310, and passes through the guide roll 320 and the platform 210 formed at the vertically lower portion. Thereafter, the pipeline P continues to extend to the bottom of the seabed so that it is installed in the J-Lay form on the bottom of the seabed.

Accordingly, by installing the pipe installation unit 300 on the drill rig, which is a drill ship, the pipeline P can be installed on the bottom of the sea using a drill without a separate pipeline installation vessel, thereby simplifying the entire drilling process And the drilling cost can be reduced by shortening the drilling period.

A ray lamp 340 may be mounted on the door frame 210 to guide the downward movement path of the pipeline P during the passage of the pipeline P through the door frame 210. 5, the lamp 340 includes a pipe-shaped core portion 341 that surrounds the outer circumferential surface of the pipeline P so as to guide the pipeline P, And a support portion 342 fixedly coupled to the inner circumferential surface of the door frame 210.

Therefore, even when the hull 100 of the drill string moves, it is possible to prevent the pipeline P from being pulled out of the pipeline P, The collision between the pipeline P and the inner circumferential surface of the door 210 can be prevented during the installation of the pipeline P because the relative position with respect to the door 210 is kept constant.

1 and 3, the pipeline P may be supported by a separate fixing member 420 in a section that is arranged to pass through the door frame 210 from the guide lamp 320, , The fixing member 420 may be connected to a traveling block 410 mounted on the derrick 200. A general configuration in which the traveling block 410 is mounted on the derrick 200 so as to compensate for the vertical movement of the drill string (not shown) may be applied, and a detailed description thereof will be omitted.

Since the pipeline P is connected to the traveling block 410 through the fixing member 420 in the section where the pipeline P passes from the guide lamp 320 through the door frame 210, Up and down movement of the pipeline P is compensated. That is, the pipeline P vibrates in the vertical direction in the same manner as the hull 100. In this case, the pipeline P vibrates in the vertical direction The vertical movement of the pipeline P is compensated for, and thus a stable arrangement of the pipeline P can be stably maintained, unlike the up / down movement of the hull 100. Therefore, it is possible to stably install the pipeline P more smoothly in the process of installing the pipeline P on the bottom of the sea floor.

Alternatively, a separate riser tensioner 430 may be mounted on the derrick 200 of the drill rig to compensate for vertical movement of the riser (not shown). According to an embodiment of the present invention, May be connected to the riser tensioner 430 so as to compensate for the upward and downward movements. 2 and 4, the pipeline P is supported by a separate fixing member 420 in a section arranged to pass through the door 210 from the guide lamp 320, 420 may be connected to a riser tensioner 430 mounted on the derrick so that the up and down motion of the pipeline P caused by the up and down movement of the hull 100 may be compensated by the riser tensioner 430 have.

The traveling block 410 or the riser tensioner 430 is selectively used in the above description. However, the two blocks may be used at the same time, A vertical motion compensating device may be applied.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: Hull 110: riser stance
120: Drill Pipe Stations 200: Derrick
210: a door frame 300: a pipe installation unit
310: take-up reel 320: guide lamp
330: Line track 340: Ray lamp
410: Traveling block 420: Fixing member
430: riser tensioner

Claims (7)

In a drill ship with a derrick and door pool formed in the hull to drill a subsea well,
Wherein a pipe installation unit is mounted on the hull so as to extend the pipeline downward to the bottom of the sea floor through the door pool and to install the pipeline on the bottom of the sea floor. The method according to claim 1,
Wherein the pipe installation unit is configured to install the pipeline in a Reel Lay manner. 3. The method of claim 2,
The pipe installation unit
A take-up reel mounted on the hull and to which the pipeline is wound so as to continuously supply the pipeline;
A guide lamp installed in the derrick and guiding a movement path of the pipeline so that the pipeline wound up from the take-up reel is moved downward through the door frame; And
A line track for moving the pipeline passing through the guide lamp downward;
≪ / RTI > The method of claim 3,
Wherein the pipeline is supported by a separate fixing member in a section arranged to pass through the door pool from the guide lamp, the fixing member is connected to a traveling block mounted on the derrick, The up and down movement of the pipeline being compensated by the travel block. The method of claim 3,
Wherein the pipeline is supported by a separate fixing member in a section arranged to pass through the door frame from the guide lamp, the fixing member is connected to a riser tensioner mounted on the derrick, Wherein the vertical movement of the pipeline is compensated by the riser tensioner. The method of claim 3,
And a ray lamp is mounted on the door frame to guide the downward movement path of the pipeline during the passage of the pipeline through the door frame. A method for installing a pipeline on the bottom of a seabed through a drill rig with a derrick and door pool on the hull,
Wherein the pipe installation unit is mounted on the hull so that the pipeline can be extended downward to the bottom of the sea through the portal, and the pipeline is installed on the bottom of the seabed using the pipe installation unit.

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