KR20130003925A - Strip change method of seabed pipe line - Google Patents

Abstract

The present invention relates to a strip replacement method of a subsea pipeline using a lifting jig, the strip irradiation step of finding a failure of the strip binding the subsea pipeline and the submarine communication cable located on the bottom of the seabed, and the damaged strip found in the strip irradiation step A lifting jig descending step of moving the lifting jig toward the subsea pipeline where the strip is located; a gripping step of the subsea pipeline, in which the lifting jig is wrapped around the outer diameter of the subsea pipeline after the lifting jig descending step; If the lifting jig stably holds the subsea pipeline in the gripping step, the seam pipeline lifting step of lifting the lifting jig to lift the subsea pipeline, and the gap between the subsea pipeline and the bottom of the sea floor through the subsea pipeline lifting step. Wave is formed A strip replacement step of replacing the strip with a new strip; a subsea pipeline laying step for placing a subsea pipeline lifted by the lifting jig at the bottom of the sea bottom by lowering the lifting jig after the strip replacing step; After the step, the lifting jig separation step of separating the lifting jig holding the subsea pipeline from the subsea pipeline is disclosed. From this, it is possible to quickly perform the replacement of the strip using the lifting jig when the strip connecting the subsea pipeline and the subsea communication cable installed on the sea floor is broken.

Description

How to replace strip in subsea pipeline using lifting jig {STRIP CHANGE METHOD OF SEABED PIPE LINE}

The present invention relates to a method for replacing a strip of a subsea pipeline using a lifting jig, and a replacement of a strip bound to fix a small diameter pipe and a submarine communication cable installed in a subsea pipeline by being connected to a pipeline and a cable embedded in the subsea It relates to a method of replacing the strip of the subsea pipeline using a lifting jig that can be convenient.

Generally, crude oil or gas extracted from offshore crude oil or offshore gas extraction facilities is transported to the offshore storage facility via subsea pipelines. Thus, subsea pipelines are formed to extend from offshore oil or gas extraction facilities to onshore storage facilities, with lengths ranging from tens of kilometers to hundreds of kilometers or more.

Submarine pipelines laid in this way are usually 0.5 to 1.5 m or more in diameter and have a unit length of about 12 m by combining thousands to tens of thousands of unit pipes, and thus the entire length of the submarine pipeline reaches tens of kilometers to hundreds of kilometers.

In the installation method of such a subsea pipeline, a relatively short length of pipe manufactured on land is pulled to the sea floor by using a tugboat (barge) of the sea, rubbing and laying down while rubbing with the sea floor (pulling method). Floating and sinking method where the buoyancy tank is attached to the tugboat to the laying position while floating on the sea level, below the sea level, or on the bottom of the sea. method) or lay barge method in which a submarine pipe and a short pipe are welded and joined in a working ship (barge line), and then settled while moving the installation ship.

As such, the subsea pipelines buried in the seabed are provided with a subsea communication cable for communication between the offshore oil or offshore gas extraction facility and the onshore storage facility.

1 is a cross-sectional view showing a seabed pipeline installed on the seabed. Referring to the drawings, when the subsea pipeline 10 is installed on the sea floor G, the submarine communication cable 30 is coupled with the subsea pipeline 10 by the strip 20. In addition, a protector 40 is provided to surround and protect the subsea communication cable 30 that is coupled to the subsea pipeline 10.

However, according to the situation of the seabed bottom G in contact with the seabed pipeline 10, the strip 20 that binds the seabed pipeline 10 and the seabed communication cable 30 may be damaged and endure. . That is, when the seafloor bottom (G) where the seafloor pipeline (10) is installed is hard, the strip (20) rubs with the seafloor (G) while the seafloor pipeline (10) is slightly swung left and right for the same reason. It is broken.

As such, when the strip 20 that binds the subsea pipeline 10 and the subsea communication cable 30 is broken, the strip 20 in which the diver is broken is removed from the subsea pipeline 10 and the subsea communication cable 30. After the separation, the submarine pipeline 10 and the submarine communication cable 30 are bound by a new strip.

At this time, in order to bind the new strip to the subsea pipeline 10, the diver excavates the subsea bottom G where the subsea pipeline 10 is placed by using a high pressure jet, thereby creating a gap between the subsea pipeline 10 and the subsea bottom. The new strip is then passed through the gap to bind the subsea pipeline 10 and the subsea communication cable 30.

However, when the bottom of the sea floor G is solid, it is difficult for the diver to form a gap between the seabed pipeline 10 and the bottom of the seabed G by using a high pressure jet, so that it takes not only a long time but also a special work that works on the sea floor. Because of the situation, divers cannot dive for a long time, making stripping difficult.

In particular, the sea floor in the Middle East, unlike the sea floor in other sea areas, the bottom of the bottom is made of hard soil, there is a problem that the bottom of the bottom is not excavated by the high-pressure sprayer used by the diver makes it more difficult to replace the strip.

The present invention is to solve the above problems, the submarine pipelines using a lifting jig that can quickly perform the replacement of the strip when the strip connecting the submarine pipeline and the submarine communication cable is installed on the seabed is broken The purpose is to provide a strip replacement method.

According to the technical idea of the present invention for achieving the above object, the strip irradiation step of finding the failure of the strip binding the subsea pipeline and the submarine communication cable located on the bottom of the seabed, and the broken strip found in the strip irradiation step A lifting jig descending step of moving a lifting jig toward a subsea pipeline located therein; a gripping step of the subsea pipeline, wherein the lifting jig is wrapped around the outer diameter of the subsea pipeline after the lifting jig descending step; When the lifting jig stably grips the subsea pipeline, the lifting jig raises the subsea pipeline to lift the subsea pipeline, and a gap is formed between the subsea pipeline and the bottom of the sea through the subsea pipeline lifting step. When the broken strip is new After the strip replacement step of replacing the strip, and after the strip replacement step, the lifting jig is lowered to place the subsea pipelines lifted by the lifting jig at the bottom of the seabed and the subsea pipeline laying step A stripping method of a subsea pipeline using a lifting jig includes a lifting jig separating step of separating a lifting jig holding a pipeline from a subsea pipeline.

Herein, the strip irradiation step photographs the damaged strip while the remotely controlled unmanned submarine equipment (ROV) moves along the seabed pipeline located on the bottom of the seabed, and provides the photographed information to a work vessel located at sea. Preferably, the method further includes a broken strip identifying step of identifying a strip in which the diver is broken based on the information providing step and the information provided by the remote control unmanned subsea equipment.

In addition, when the subsea pipeline is lifted from the bottom of the seabed by the subsea pipeline lifting step, a spacer insertion step of inserting a spacer between the subsea pipeline and the bottom of the seabed, and a subsea pipe lifted by a lifting jig after the spacer insertion step When the broken strip is replaced with a new strip through a supporting step for lowering the line to be supported by the spacer and a strip replacement step after the supporting step, the spacer is lifted up with the subsea pipeline while lifting the subsea pipeline supported by the spacer. It is preferred to include a spacer removal step of separating from between the seabed bottoms.

In addition, the spacer is preferably a sand bag filled with sand.

In addition, when a gap is formed between the seabed pipeline and the bottom of the seabed by the seabed pipeline lifting step, the diver further includes a lifting height measuring step of measuring a distance between the seabed pipeline and the bottom of the seabed.

According to the strip replacement method of the subsea pipeline using the lifting jig according to the present invention, when the strip connecting the subsea pipeline and the submarine communication cable installed on the seabed is broken, the strip can be quickly replaced using the lifting jig. have.

In particular, in the soil where the bottom of the sea floor is hard and the bottom of the sea floor is not piped by the high pressure sprayer, the lifting jig is used to replace the strip due to the breakage of the strip that binds the seabed pipeline and the seabed communication cable. By lifting the subsea pipeline to a height easy to replace the strip, the strip can be replaced quickly and conveniently.

1 is a cross-sectional view showing a seabed pipeline installed on the seabed.
Figure 2 is a flow chart illustrating a strip replacement method of a subsea pipeline using a lifting jig according to the present invention.
Figure 3 is a schematic diagram showing a state in which the lifting jig descends toward the seabed pipeline located on the bottom of the seabed of the strip replacement method of the seabed pipeline using the lifting jig according to the present invention.
Figure 4 is a schematic diagram showing a state just before the lifting jig gripping the subsea pipeline of the strip replacement method of the subsea pipeline using the lifting jig according to the present invention.
5 is a schematic view showing a lifting jig lifted after gripping the subsea pipeline in the strip replacement method of the subsea pipeline using the lifting jig according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a strip replacement method of a subsea pipeline using a lifting jig according to the present invention, and FIGS. 3 to 5 are schematic views illustrating a process of lifting a subsea pipeline by a lifting jig.

Referring to the drawings, the strip replacement method of the subsea pipeline using the lifting jig according to the present invention, the strip irradiation step (S110) and lifting jig falling step (S120) and the subsea pipeline holding step (S130) and the seabed Pipeline lifting step (S140) and strip replacement step (S150) and the subsea pipeline placement step (S160) and lifting jig separation step (S170).

The strip irradiation step (S110) is to find the breakage of the strip that binds the subsea pipeline 10 and the subsea communication cable 30 located on the sea floor bottom (G), for this purpose the subsea pipeline (10) According to the remote control unmanned submarine equipment (REMOTELY OPERATED VEHICLE, ROV) (not shown) is used for information providing step (S112) and broken strip identifying step (S114) to check again the information obtained in the information providing step (S112) is Is performed.

That is, the information providing step (S112) photographs the broken strip while moving the remote control unmanned subsea equipment along the seabed pipeline (10) located on the sea floor (G), and the photographed information on the working ship (mido) City).

Thus, based on the obtained information, the diver submerged into the subsea pipeline 10 where the strip is broken and errors in the information obtained from the remote control unmanned subsea equipment, that is, the image taken by the remote control unmanned subsea equipment is due to the situation of the seabed. Since the unbroken strip can be mistaken as broken, the diver performs the step of identifying the broken strip (S114) to check whether the strip is actually broken.

When the strip irradiation step (S110) is performed as described above and the damaged strip is confirmed, the lifting jig lowering step (S120) of lowering the lifting jig 100 from the work line located at sea is performed.

The lifting jig lowering step S120 moves the lifting jig 100 toward the subsea pipeline 10 where the broken strip found in the strip irradiation step S110 is located.

Figure 3 is a schematic diagram showing a state in which the lifting jig descends toward the seabed pipeline located on the bottom of the seabed of the strip replacement method of the seabed pipeline using the lifting jig according to the invention.

Referring to the drawings, the lifting jig 100 is connected to the lifting wire rope 110 drawn from the crane provided on the work vessel located at sea, the lifting jig 100 is located at the sea at the tip largely A pair of arms 120, which are alternately installed, and rollers 122, on which the lifting wire rope 110, which is pulled out from the crane of the working ship, is installed, are alternately intersected with the pair of arms 120 alternately. The subsea pipelines 10 are formed at hinge bases 130 through which the arms 120 pivotally support, and bases of a pair of arms 120 pivotally pivoting around the hinge axis 130. It is composed of a chain block 150 which is bound to each of the holding portion 140 and the holding portion 140 wrapped around the holding portion 140 to open or pinch.

As shown in the drawing, the pair of arms 120 are provided with a pair of arms 120 having a predetermined length to be staggered in an “X” shape, and the tip of the arm 120 is a crane located at sea. The roller 122 is wound around the lifting wire rope 110 drawn out from it.

The pair of arms 120 staggered in the form of an "X" is connected by a hinge shaft 130, and the hinge shaft 130 penetrates a portion where the pair of arms 120 cross each other. The arm 120 is pivotally supported about the hinge axis 130.

In addition, each of the arm 120 has a gripping portion 140 is formed at each of the base end, the gripping portion 140, the arm 120 so as to surround the gripping seabed pipeline 10 located on the bottom of the seabed Holding parts 140 having a semicircular shape are formed at each of the proximal ends thereof.

Each of the gripping portions 140 has a shape corresponding to the outer diameter of the half of the subsea pipeline and has a shape matching the outer diameter of the subsea pipeline 10 when the respective holding portions 140 are combined.

The lifting jig 100 is engaged with the lifting wire rope 110 drawn from the crane located at sea, and the lifting jig 100 moves toward the subsea pipeline 10 located at the bottom of the sea bottom by the operation of the crane. Done.

After the lifting jig lowering step S120 is performed in which the lifting jig 100 moves toward the subsea pipeline 10, the lifting jig 100 is wrapped and wrapped around the outer diameter of the subsea pipeline 10. Subsea pipeline holding step (S130) is performed.

Figure 4 is a schematic diagram showing a state just before the lifting jig gripping the subsea pipeline of the strip replacement method of the subsea pipeline using the lifting jig according to the present invention.

Referring to the drawings, the holding portion 140 formed on each of the base of the pair of arms 120 has a shape bent from each of the arms 120, a pair provided alternately in the "X" shape By distal end of the arm 120 toward or away from each other, the holding portion 140 formed at the base of the arm 120 is opened or retracted to grip the subsea pipeline 10 located on the bottom of the sea floor. Will be.

At this time, the lifting jig 100 of the present invention descending from above the subsea pipeline 10 is pushed by the alga without descending from the subsea pipeline 10 by the algae of the seabed or the like from the subsea pipeline 10. Can be located away.

Accordingly, the gripping portion which is lowered in the open state by the diver guides the lifting jig 100 that descends toward the subsea pipeline 10 so that the lifting jig 100 can come in position (directly above the subsea pipeline). The diver guides the lifting jig 100 so that the subsea pipeline 10 is located inside the 140.

When the lifting jig is ready to grasp the subsea pipeline 10 by the diver as described above, the diver manipulates the chain block 150 in the water to retract the open gripper 140 so that the lifting jig can remove the subsea pipeline. Will be gripped.

That is, when the holding part 140 of the lifting jig 100 is located on both sides of the subsea pipeline 10 located at the bottom of the sea floor G, the holding part 140 is opened by a diver operating the chain block 150 in the water. ), The subsea pipeline 10 is gripped.

5 is a schematic view showing a lifting jig lifted after gripping the subsea pipeline in the strip replacement method of the subsea pipeline using the lifting jig according to the present invention.

Referring to the drawings, when the subsea pipeline 10 is stably gripped by the lifting jig 100, a crane provided on a work line located on the sea is operated to pull the lifting jig 100 to pull the subsea pipeline 10 Will be lifted.

As such, when the seabed pipeline 10 is lifted from the bottom of the seabed G by the seabed pipeline lifting step S140, a spacer for fitting the spacer 170 between the seabed pipeline 10 and the bottom of the seabed G is provided. The insertion step S210 is performed by the diver.

At this time, the diver inserts the spacer 170 by using a tool such as a rod when the spacer 170 is inserted between the seabed pipeline 10 and the bottom of the seabed G, thereby lifting during the spacer insertion step S210. The subsea pipeline 10 may fall to the bottom of the sea floor G to prevent a safety injury to the diver.

The spacer 170 consists of a sand-filled sandbag and is located between the lifted subsea pipeline 10 and the bottom of the seabed G so that the diver replaces the broken strip with a new strip while the subsea pipeline 10 and the seabed A gap is formed between the bottoms G, and the seabed pipeline 10 is prevented from flowing from changes in the seabed such as tidal currents.

In particular, the spacer 170 is made of a sand-filled sandbag, the spacer 170 in the supporting step (S220) described below while matching the bottom of the outer diameter of the subsea pipeline 10, the subsea pipeline 10 It is supported so as not to flow in the current.

After the spacer insertion step S210 is performed as described above, a supporting step S220 is performed to lower the subsea pipeline 10 lifted by the lifting jig 100 to be supported by the spacer 170.

In this way, after the supporting step S220 is performed, in which the spacer 170 is fitted between the subsea pipeline 10 and the bottom of the seabed G, which is lifted up, in some cases, it is sufficient to replace the broken strip with a new strip. A lifting height measuring step of measuring a distance of a gap formed between the seabed pipeline 10 and the seabed bottom G to check whether a space is secured may be performed.

As such, when a gap is formed between the seabed pipeline 10 and the bottom of the seabed G through the supporting step S220, a strip replacement step S150 is performed in which the diver replaces the broken strip with a new strip.

In other words, as the lifting jig 100 rises, the seabed pipeline 10 held by the gripper 140 is lifted from the bottom of the seabed G, and the bottom of the seabed G and the bottom pipeline 10 are lifted. A gap is formed between them.

If a gap is formed between the subsea pipeline 10 and the bottom of the sea floor G as described above, the diver inserts a new strip into the gap and binds the subsea pipeline 10 and the subsea communication cable 30.

After the broken strip is replaced with a new strip and the strip replacement step of tightly binding the subsea pipeline 10 and the subsea communication cable 30 is completed, the spacer 170 is replaced with the subsea pipeline 10 and the subsea bottom ( A spacer removing step S230 for separating from between G) is performed.

The spacer removing step (S230) lifts the subsea pipeline 10 supported by the spacer from the spacer 170 and thus removes the spacer 170 from between the subsea pipeline 10 and the bottom of the seabed raised from the spacer. The diver is pulled out.

Subsequently, after the spacer 170 is removed as described above, the lifting jig 100 which lifts the subsea pipeline 10 is lowered to place the subsea pipeline 10 on the subsea bottom G. The line set-up step S160 is performed.

As such, when the subsea pipeline 10 and the subsea communication cable 30 are bound by the new strip, the lifting jig 100 is lowered to position the subsea pipeline 10 at the bottom of the sea bottom G. When 10 is stably positioned at the bottom of the sea floor G, the diver opens the grip 140 that grips the subsea pipeline 10 by manipulating the chain block 150.

As described above, when the holding part 140 is opened, the lifting jig separation step (S170) of lifting the lifting jig 100 to separate the lifting jig 100 from the subsea pipeline 10 is performed so that the strip is broken. This will complete the strip replacement of the subsea pipeline.

According to the strip replacement method of the subsea pipeline using the lifting jig of the present invention as described above, when the strip 20 that binds the subsea pipeline 10 and the submarine communication cable 30 installed on the seabed is damaged, the strip is replaced. Can be performed quickly.

In particular, the strip according to the breakage of the strip 20 that binds the seabed pipeline 10 and the seabed communication cable 30 in the soil where the seabed bottom G is hard and the seabed bottom G is not dug by the high pressure sprayer. Replacement can be done quickly using the lifting jig.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: subsea pipeline 20: strip
30: submarine communication cable 40: codec
100: lifting jig 110: lifting wire rope
120: arm 122: roller
130: hinge axis 140: gripping portion
150: chain block 170: spacer
S110: strip investigation step S112: information provision step
S114: step of identifying damaged strip S120: lifting jig descending step
S130: Subsea pipeline holding step S140: Subsea pipeline lifting step
S150: Strip replacement step S160: Subsea pipeline settling step
S170: lifting jig separation step S210: spacer insertion step
S220: support step S230: spacer removal step

Claims (5)

A strip irradiation step for finding breakage of the strip that binds the seabed pipeline and the seabed communication cable located at the bottom of the seabed;
A lifting jig lowering step of moving the lifting jig toward the subsea pipeline where the broken strip found in the strip irradiation step is located;
A subsea pipeline gripping step of holding and lifting the lifting jig around the outer diameter of the subsea pipeline after the lifting jig descending step;
A subsea pipeline lifting step of lifting the subsea pipeline by raising the lifting jig when the lifting jig stably grips the subsea pipeline in the subsea pipeline holding step;
A strip replacement step of replacing a broken strip with a new strip when a gap is formed between the seabed pipeline and the bottom of the seabed through the seabed pipeline lifting step;
A subsea pipeline settling step of lowering the lifting jig after the strip replacement step to place the subsea pipeline lifted by the lifting jig at the bottom of the sea bottom; And
And a lifting jig separating step of separating the lifting jig gripping the subsea pipeline from the subsea pipeline after the step of placing the subsea pipeline. 2. The method according to claim 1,
The strip irradiation step,
An information providing step of photographing a damaged strip while a remotely controlled unmanned submarine equipment (ROV) moves along a subsea pipeline located at the bottom of the sea, and provides the photographed information to a work vessel located at sea; And
And a broken strip identifying step of identifying a broken strip by a diver based on information provided by the remote control unmanned undersea equipment.
The method according to claim 1,
A spacer insertion step of inserting a spacer between the subsea pipeline and the sea bottom when the sea pipeline is lifted from the sea bottom by the sea pipeline lifting step;
A supporting step of lowering the subsea pipelines lifted by the lifting jig after being supported by the spacer to be supported by the spacer; And
If the damaged strip is replaced with a new strip through the strip replacement step after the supporting step, the spacer removing step of separating the spacer from between the seabed pipeline and the bottom of the seabed while lifting the seabed pipeline supported by the spacer; How to replace the strip of the subsea pipeline using a lifting jig.
The method according to claim 3,
And said spacer is a sand-filled sandbag.
The method according to claim 1,
A lifting height measuring step of measuring a distance between the seabed pipeline and the bottom of the seabed by a diver when a gap is formed between the seabed pipeline and the bottom of the seabed by the seabed pipeline lifting step; How to replace the strip.

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