KR20150137352A - Marine structures fixed method - Google Patents

Abstract

The present invention relates to a method for fixing a marine structure and, more specifically, to a method for fixing a floating marine structure installed in the littoral sea. To achieve the same, the method for fixing the marine structure installed in the littoral sea includes: a step of floating a ballast water tank at sea by injecting ballast water; a step of manufacturing the marine structure by loading an upper structure on the top of the ballast water tank floating on the sea; a step of moving the manufactured marine structure to a place of the littoral sea where the marine structure is to be installed; a step of installing multiple supporting means in the sea bottom of the littoral sea where the moved marine structure is to be installed; a step of seating the marine structure on the supporting means installed in the sea bed by controlling the ballast water received in the ballast water tank of the moved marine structure; and a step of minutely setting and adjusting the place where the marine structure seated on the supporting means is to be finally fixated.

Description

Marine structures fixed method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for fixing an ocean structure, and more particularly, to a method for fixing a floating ocean structure installed in a coastal sea.

In general, buoyant offshore structures are installed on facilities that contain environmental pollution and accident risks when installed and operated on land, and facilities for oil and gas production, storage and unloading.

These offshore buoyant offshore structures, which may include, for example, ships, platforms, troughs, buoys or spas, each typically comprise a buoyancy hull supporting a top structure TOPSIDE. The hull is internally compartmentalized to store ballast water, and the upper structure provides drilling and production equipment and space.

These offshore structures are subject to forces due to environmental factors such as wind, waves, glaciers, algae and currents.

Thus, the forces of environmental factors cause acceleration to the offshore structures, and displacement and vibration movements. The responsiveness of the floating offshore structures to the forces due to these environmental factors is affected not only by the structure of the hull but also by the superstructure, as well as by the anchoring systems and accessories of the ship. Accordingly, the floating offshore structure must meet various constitutive requirements, ie, adequate reserve buoyancy to safely support the weight of the superstructure and the loading cargo, stability under all conditions and good maritime safety.

In particular, with regard to the requirements of good maritime stability, the ability to reduce the vertical undulations of the waves is highly desirable.

1 is a state view of a conventional offshore structure. As shown in FIG. 1, conventionally, a method of using a wire 11 to fix a float breakable structure 10 to the seabed surface of a coastal sea has been used .

In the case of the above-mentioned method, it is difficult to secure a fixed position for the environmental factors of the ocean such as wind, waves and algae, and there is a problem that the function of the upper structure is limited.

Korean Patent Publication No. 10-2012-0079447

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art described above, and it is an object of the present invention to provide a method and apparatus for stably mounting an offshore structure up to the seabed surface to maintain a fixed state of an offshore structure according to environmental factors, And to provide a method of fixing an offshore structure which can not be restricted.

According to an aspect of the present invention, there is provided a method of fixing an offshore structure installed in a coastal waterside, comprising: injecting a ballast water to float the ballast water tank in the sea; Mounting an upper structure on an upper part of the floating ballast floating on the sea to manufacture an offshore structure; Moving the manufactured offshore structure to a position where the offshore is to be installed; Installing a plurality of support means on the undersurface of the offshore sea where the moved offshore structure is to be installed; Adjusting the ballast water contained in the ballast water reservoir of the moved offshore structure to seat the offshore structure on the supporting means installed on the sea floor; And finely adjusting an ultimate fixing position of an offshore structure seated on the supporting means.

At this time, the support means of the step of installing a plurality of support means on the sea floor of the offshore sea includes a concrete block embedded in the sea floor and made of concrete, and a concrete block installed on the concrete block, The rubber is preferably made of rubber.

It is preferable that the step of installing a plurality of supporting means on the seabed surface of the off-shore is such that only a lower part of the supporting means is buried in the sea floor, and the upper part of the concrete block and the rubber are installed outside.

The method of fixing an offshore structure according to the present invention has the following effects.

By controlling the ballast water, the offshore structure can be placed in close contact with the sea floor, and the offshore structure is placed on the seafloor through the support means installed on the sea floor. The position of the offshore structure is not changed and the fixed position can be maintained.

Accordingly, it is possible to drastically reduce the base construction cost for fixing the offshore structure, and drastically reduce the installation and disassembly period of the offshore structure.

Fig. 1 is a view of a conventional installation of an offshore structure.
FIG. 2 is a view showing an installation state of an offshore structure according to the present invention. FIG.
3 is a front view of the support means used in the method of fixing an offshore structure according to the present invention;
4 is a flowchart of an anchoring method for an offshore structure 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 according to the present invention will be described in detail with reference to FIGS. 2 to 4 attached hereto.

3 is a front view of a supporting means used in the method of fixing an offshore structure according to the present invention, and FIG. 4 is a flowchart showing a method of fixing an offshore structure according to the present invention.

The method of fixing an offshore structure according to the present invention includes a step of floating a ballast water storage vessel 110 at a sea level (S100), an upper structure 120 being mounted on a ballast water storage vessel 110, A step S300 of moving the marine structure 100 to a position where the offshore is to be installed S300 of installing a plurality of supporting means 130 on the sea floor S400, (S500) of placing the support structure (100) on the support means (130), and finely adjusting the position where the offshore structure (100) is to be installed (S600).

In operation S100, the ballast water is flooded to the ballast water storage tank 110 in order to adjust the buoyancy of the offshore structure 100 by receiving the ballast water.

In this case, the ballast water storage tank 110 floats on the seawall for mooring.

Meanwhile, the inside of the ballast water storage room 110 is provided with a divided space, and the ballast water is accommodated in the space, and the predetermined space may be utilized as a cargo storage space in addition to the space for accommodating the ballast water.

That is, the ballast water tank 110 can float on the sea of the cargo considering the weight of the cargo and the weight of the ballast water.

It also provides the necessary space for the structure of the superstructure 120, which will be described later.

Next, a step S200 of mounting the upper structure 120 on the upper part of the ballast water storage room 110 to construct the offshore structure 100 is the step of mounting the upper structure 100 on the ballast water storage room 110 .

An upper structure 120 is mounted on a floating ballast 110 floating on the sea floor by a crane or the like to fabricate an offshore structure 100. The upper structure 120 includes FPSO, FPU, FSO And the like.

When the upper structure 120 is mounted on the ballast water storage 110, the ballast water stored in the ballast water storage 110 may be adjusted to float the offshore structure 100 on which the upper structure 120 is mounted .

Next, a step S300 of moving the offshore structure 100 to a location where the offshore is installed is a step of moving the offshore structure 100 floating on the sea to the actual offshore location to be installed.

It is preferable that the position of the offshore seawater is determined to be a maritime position having a water depth suitable for the draft corresponding to the size of the offshore structure 100.

At this time, it is moved to a position to be installed through a barge or the like while floating on the sea.

Next, the step of installing a plurality of support means 130 on the sea floor (S400) is a step of installing the support means 130 on the seabed surface of the off-shore side where the actual ocean structure 100 is to be installed.

A plurality of support means 130 are installed to support the offshore structure 100 on the seabed at the same position when the offshore structure 100 is moved to the offshore location where the offshore structure 100 is to be installed.

As shown in FIG. 3, the support means 130 is for supporting the bottom portion of the ballast water storage tank 110 in a close contact manner. The concrete block 131 partially embedded in the sea floor and made of concrete, And a rubber 132 installed on the block 131 to closely contact the bottom of the ballast water storage room 110 to generate frictional force.

That is, a part of the lower part of the concrete block 131 of the support means 130 is embedded in the sea floor, and the rubber 132 is supported by the lower part of the ballast water storage room 110.

Next, step S500 of placing the offshore structure 100 on the support means 130 is to settle the offshore structure 100 to the bottom of the sea through the ballast water control.

At this time, when the offshore structure 100 is mounted up to the support means 130 buried in the sea floor, the offshore structure 100 is supported on the bottom surface of the support means 130 by controlling the weight of the offshore structure 100 and the ballast water. .

The lower part of the ballast water storage tank 110 is seated on the rubber 132 of the support means 130 so that a frictional force is generated between the ballast water storage tank 110 and the rubber 132 to prevent the offshore structure 100 from being moved So that it can be held in a fixed position.

That is, the supporting means 130 is installed on the sea floor at a coastal sea location where the offshore structure 100 will be installed, and the offshore structure 100 is seated on the supporting means 130 through ballast water control.

Next, the final step of finely adjusting the position where the offshore structure 100 is to be installed (S600) is a step of checking and adjusting the position of the offshore structure 100.

It is checked whether or not the marine structure 100 seated on the support means 130 is seated in a position where the marine structure 100 is finally fixed, and the marine structure 100 is finely adjusted if necessary.

Hereinafter, the operation sequence and operation of the above-described method for fixing the offshore structure will be described with reference to FIGS. 2 and 4. FIG.

First, the ballast water is injected into the ballast water storage tank 110 to float the ballast water storage tank 110 adjacent to the seawall.

Then, the upper structure 120 is mounted on the ballast water storage 110 to manufacture the offshore structure 100. At this time, the offshore structure 100 floats on the sea floor considering the weight of the upper structure 120 Adjust the ballast water to

The offshore structure 100 is then moved to the offshore installation location, ie, the sea of water with a depth corresponding to the required draft of the offshore structure 100.

Next, a plurality of support means 130 are installed on the sea floor of the sea where the offshore structure 100 is to be installed.

The ballast water is then adjusted and seated so that the offshore structure 100 can be placed on the rubber 132 of the support means 130.

In addition, it is also possible to finely adjust the position of the offshore structure 100 if necessary.

The lower part of the ballast water storage tank 110 is in close contact with the upper part of the rubber 132 and the lower part of the ballast water storage tank 110 is in contact with the upper part of the rubber 132 due to the weight of the offshore structure 100 and the ballast water. As the frictional force is generated, the offshore structure 100 can be maintained in a fixed state. That is, even if environmental factors such as wind, waves, and algae occur, the position of the offshore structure 100 can be maintained in a fixed state without changing.

When the sea structure 100 is to be dismantled and demolished after the installation of the offshore structure 100, it is possible to complete the dismantling operation simply by floating the offshore structure 100 to the sea level by moving the balance structure 100 using a crane and a barge line by adjusting the ballast water .

As described above, the offshore structure 100 can be seated on the seabed surface by controlling the ballast water. In a state where the offshore structure 100 is seated on the seabed surface through the support means 130 installed on the seabed surface As the load of the offshore structure 100 acts, the position of the offshore structure 100 is not changed by friction force with the support means 130, and the fixed position can be maintained.

Accordingly, the foundation construction cost for fixing the offshore structure 100 can be drastically reduced, and the installation and disassembly period of the offshore structure 100 can be greatly reduced.

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. .

100: offshore structure 110: ballast water tank
120: upper structure 130: support means
131: concrete block 132: rubber

Claims (3)

A method for fixing an offshore structure installed in a coastal sea,
Injecting ballast water to float the ballast water reservoir 110 (S100);
A step (S200) of constructing an offshore structure (100) by mounting an upper structure (120) on the floating ballast pool (110) floating on the sea floor;
Moving the manufactured offshore structure 100 to a position where the offshore is to be installed (S300);
(S400) of installing a plurality of support means (130) on the sea surface of the offshore sea where the moved offshore structure (100) is to be installed;
(S500) of placing the offshore structure (100) on the supporting means (130) installed on the sea floor by controlling the ballast water accommodated in the ballast water storage room (110) of the moved offshore structure (100); And
(S600) finely adjusting a position to be finally fixed to the marine structure (100) which is seated on the support means (130).
The method according to claim 1,
The supporting means 100 of the step S400 of installing a plurality of supporting means on the sea floor of the off-
A concrete block 131 embedded in the sea floor and made of concrete and a rubber 132 installed on the concrete block 131 and forming a frictional force by closely contacting the bottom of the ballast water storage room 110 Method of fixing marine structures.
3. The method according to any one of claims 1 to 3,
(S400) of installing a plurality of support means on the sea floor of the offshore sea,
Characterized in that only the lower part of the support means (130) is buried in the seabed surface and the upper part of the concrete block (131) and the rubber (132) are provided with the support means (130).

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