KR20110026148A - Tensioned leg plat form type fooating marine structure and mothod for changing tendon of the same - Google Patents

Abstract

PURPOSE: A TLP-type floating member and a method of replacing the tendon thereof are provided to reduce the installation and maintenance cost of a tendon since a working period of time can be shortened. CONSTITUTION: A method of replacing the tendon of a TLP-type floating member(100) is as follows. Tension control units are provided to be corresponded to each of tendons of the floating member. If there is a need for a tendon to be replaced, the tendon is replaced with other tendon. Before replacing, the tension of that tendon to be replaced is reduced using a corresponding tension control unit. Before reducing the tension of that tendon, a candidate tendon is arranged between the floating member and a foundation. After replacing that tendon, the candidate tendon is removed.

Description

TLP type offshore float and tendon replacement method {TENSIONED LEG PLAT FORM TYPE FOOATING MARINE STRUCTURE AND MOTHOD FOR CHANGING TENDON OF THE SAME}

The present invention relates to a method for replacing a tendon of a TLP type marine floating body, and more particularly, using a preliminary tendon when replacing a tendon that is difficult to maintain tension due to aging or other circumstances such as an emergency. The present invention relates to a tendon replacement method of a TLP type marine floating body which allows the tendon to be replaced to maintain the tension to be maintained so that the tendon can be replaced while maintaining the ballasting. The present invention also relates to a technology in which a preliminary tendon can be additionally installed in addition to tendons already installed, in order to stably attract a marine floating body only when necessary, such as in an emergency or an emergency situation.

In general, a tension leg platform (TLP) for mining and / or drilling or for other uses is used in the offshore gas or petroleum industry or other offshore applications. TLP is used for the mining and / or drilling of relatively deep oil or natural gas. The TLP is moored using vertical tendons connected to a foundation anchored to the seabed. Tendon is tensioned by the buoyancy of the partially submerged TLP hull.

Typically, the TLP has a horizontal flat bottom hull structure and several columns supporting the platform. Such hull structures provide buoyancy to columns and platforms. The TLP is secured to the bottom of the sea floor by tendons and piles and is held stationary by tension due to buoyancy in the tendons.

The hull is generally divided into several watertight compartments to meet stability requirements during ballasting installations. TLP is debalanced to keep the platform within design limits at any time by tensioning the tendon during installation.

In the above TLP-type floating structure, if the tendon is aged and it is difficult to maintain the tension over a certain level, it is necessary to replace the tendon, and in general, to reduce the tension acting on the tendon in order to be able to perform the replacement work. In order to increase the draft pontoons through ballasting.

As described above, the tendon replacement method according to the related art may reduce the tension acting on the tendon, thereby facilitating the replacement of the tendon, since the stability of the structure decreases rapidly as the tension of the tendon acting on the pontoon decreases. Because of the risk of overturning the structure, replacement work should be carried out only if the surrounding environment (wave height, wind, etc.) is very pleasant.

Therefore, since the time of the tendon replacement operation is not when the need for replacement due to aging of the tendon occurs, but when the environment is easy to replace, it is sometimes necessary to carry out the safety of the floating body with the risk of safety due to aging of the tendon for a long time. I had a problem to play a role.

The present invention is to solve the above problems, when replacing the tendon is difficult to maintain the tension due to aging by using the preliminary tendon to maintain the tension to maintain the ballast by the tendon of the replacement target tendon It is an object of the present invention to provide a tendon replacement method of the TLP-type marine floating body to be replaced.

Still another object of the present invention is to increase the reliability of the mooring system and to improve the reliability of the mooring system by additionally installing a preliminary tendon, which is provided in advance, in case of adverse conditions such as a circumstance or other emergency situation. It has the effect of maintaining stability.

According to one aspect of the invention, there is provided a tendon replacement method for replacing the tendon between the TLP-type floating body and the foundation of the seabed, the tendon replacement method, the tension adjusting portion to correspond to each of the tendons of the marine floating body Providing a process, and if there is a tendon that needs to be replaced, replacing the tendon with another tendon, but before the replacing process, the tension of the tendon that needs to be replaced is reduced by using a correspondingly provided tension adjusting unit. The process is performed first.

Preferably, before the process of reducing the tension of the corresponding tendon, a preliminary tendon in place of the corresponding tendon is disposed and operated between the sea floating body and the foundation. Here, actuating the preliminary tendon means applying tension to the preliminary tendon to balance the marine float.

In addition, after the replacement of the corresponding tendon, the preliminary tendon is removed, and a preliminary tension adjusting unit is provided to correspond to the preliminary tendon, and the preliminary tension adjusting unit is configured for the arrangement and operation of the preliminary tendon, the preliminary tendon Increase the tension and reduce the tension of the preliminary tendon before removal of the preliminary tendon. The preliminary tension adjusting part used in the claims and the detailed description means a tension adjusting part provided corresponding to the preliminary tendon.

According to another aspect of the present invention, a tendon of a TLP type marine floater, which is moored using a vertical tendon connected to a foundation fixed to an anchor located at the seabed, is tensioned by buoyancy of the partially submerged float. Replacement methods are provided. The replacement method includes: a first process further comprising a connecting means for preliminary tendons in the anchor, the tension adjusting unit capable of adjusting the tension between the tendons connected to the anchors and the preliminary tendons; When the tendon of the replacement target is confirmed by examination or inspection, a second process of connecting the preliminary tendon to the anchor to which the corresponding tendon is connected and maintaining the tension of the preliminary tendon as the tension for maintaining the balance of the float through the tension adjusting unit and; A third process of replacing the existing tendon with a new tendon in a state where the tension of the preliminary tendon is sufficiently maintained through the second process; A fourth process of maintaining, when the new tendon is replaced with the existing tendon through the third process, the tension applied to the new tendon by the tension adjusting unit is maintained at the tension maintained by the current tendon; And a fifth process of dismantling the preliminary tendons when the tension for maintaining the balance of the floating body is maintained in the new tendons through the fourth process.

According to another aspect of the present invention, there is provided a TLP-type sea floating body comprising a plurality of tendons, one end of which is fixed to itself and the other end of which is anchored to a foundation of the seabed, wherein the TLP-type sea floating body comprises: the plurality of tendons In preparation for each replacement, tension adjustments are configured to reduce or increase the tension of each of the plurality of tendons.

According to another aspect of the present invention, there is provided a marine float comprising a plurality of tendons, one end of which is fixed to itself and the other end of which is anchored to a foundation of the seabed, wherein the TLP-type marine float is provided for each of the plurality of tendons. In preparation for the replacement, it further comprises a plurality of preliminary tendons participating in balancing the maritime float on behalf of the tendons.

According to another aspect of the present invention, there is provided a marine float comprising a plurality of tendons, one end of which is fixed to itself and the other end of which is anchored to a subsea foundation, wherein the TLP-type marine float is in addition to the plurality of tendons. It further includes one or more preliminary tendons, which further participate in balancing the marine floats.

According to one embodiment of the present invention, the replacement of the tendon used to maintain the position of the floating structure and suppress the movement can be performed simply and safely when necessary, regardless of the surrounding environment, by adjusting the length of the tendon Since work is progressing, it can reduce the time required than the work through ballasting, which has the effect of reducing the cost of installation and repair of tendon.

According to another embodiment of the present invention, when there is a bad condition such as the Nether situation or other emergency situation, by installing a preliminary preliminary tendon in advance to distribute the tension applied to one tendon to increase the reliability of the mooring system and the motion of the floating body And there is an effect that can maintain stability.

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

The embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, and the following examples can be modified in various other forms, and the scope of the present invention is as follows. It is not limited to an Example.

1 is an exemplary view of a TLP-type marine floating body to which a tendon replacement method according to the present invention is applied, and FIG. 2 is a block diagram of a tendon tension adjusting device for applying the tendon replacement method according to the present invention. 3 to 10 is a view illustrating a process according to the tendon replacement method according to the present invention.

As shown, in order to apply the tendon replacement method according to the present invention, as shown in FIG. 1, it must have a structure in which another tendon may be connected to the anchor A connected to the tendon T.

Furthermore, a tendon tension adjusting device as shown in FIG. 2 is to be provided, but the present invention is not limited to the example shown in FIG.

1, four tendons (T) are used for the TLP-type floating object 100 of FIG. 1, but in general, the tendons have a size, work purpose, and work of the float 100 within a range of 4 to 16. The number is adopted when designing the floating body considering the environment.

In the present invention is applied by utilizing the tendon tension adjustment device as shown in Figure 2, briefly look at the configuration, one to one to each tendon (T) connected to each element of the float (100). Tension state detection unit 110 for detecting the tension state of the connected tendon and the plurality of tendons (typically 4 to 16: T) provided for fixing the position of the floating body 100, respectively Tendon tension adjusting unit 140 to adjust the tension applied to the connected tendon (T: including the preliminary tendon) by the control signal is provided in one-to-one and input to each of the preliminary tendon (ST) that is provided in one-to-one and activated when replacing the tendon )Wow; Based on the information on the tension state of the tendon is detected and input in real time from the plurality of tension state detection unit 110 selects the tendon to check the aging state, and determines that the selected tendon should be replaced due to aging ( In the case of an inspector or an operator's judgment), the preliminary tendon ST is equilibrated while the main tendon T is replaced by adjusting the tension of the preliminary tendon ST and the main tendon T through the tendon tension adjusting unit 140. Ballasting control unit 120 to provide a tension for maintaining the state; And a ballast water control system 130 that assists the ballasting operation during the replacement of the tendon through the tendon tension adjusting unit 140 by the control of the ballasting control unit 120.

Referring to Figures 3 to 10 attached to the process of the tendon replacement method of the TLP-type marine floating body according to the present invention on the premise of such a configuration as follows.

As shown in FIG. 3, when the tendon is aged, the tension is loosened and the floating body 100 is shaken. At this time, the tension state sensing unit 110 of FIG. This will identify the state of the tendon and select tendons that need to be replaced.

Afterwards, as shown in the accompanying FIG. 4, the preliminary tendon (ST) is connected around the tendon (T) that needs to be replaced, and the position maintenance and movement suppression performance may be weakened when a large deviation from the existing position occurs. Naturally, the position of the connection is specified by precalculation.

At this time, the shaking by the ballast water control system 130 of FIG. 2 is suppressed as much as possible.

After that, as shown in FIG. 5, the tension of the preliminary tendon ST through the tension adjusting unit is used to maintain the tension of the preliminary tendon through the tendon tension adjusting unit 140. Adjust with

As a result, the shaking of the floating body 100 is suppressed to maintain an equilibrium state.

Subsequently, in the state where the balance of the floating body 100 is maintained by the preliminary tendons ST as described above, as shown in the accompanying FIG. 6, the tension of the tendons T to be replaced is reduced, and furthermore, Remove the tension.

Subsequently, as shown in FIG. 7, a new tendon T is connected to the existing tendon connecting portion of the anchor A. FIG.

Thereafter, as shown in FIG. 8, the tension of the new tendon T is maintained at the tension currently maintained by the preliminary tendon ST.

When the tension of the new tendon T is maintained at a sufficient tension for maintaining the balance of the floating body through the process of FIG. 8, as shown in FIG. 9, the tension maintained by the preliminary tendon ST is released. To increase the convenience of dismantling.

Finally, as shown in FIG. 10, the preliminary tendon ST is removed.

According to a preferred embodiment of the present invention as described above, since the tension for maintaining the balance of the floating body is maintained through the preliminary tendon during the replacement work, the replacement work of the tendon used for maintaining the position of the floating structure and suppressing movement It can be done simply and safely when needed regardless of the environment.

In addition, in addition to the replacement of the main tendons, the reserve tendons are also used to participate in the maintenance of the float in addition to the main tendons already installed, in order to keep the marine float more reliable and stable in emergency situations such as the Nether. Can be.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions and modifications within the scope without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. And it is apparent that changes are possible, and such modified embodiments will be included in the technical spirit described in the claims of the present invention.

1 is an illustration of a TLP-type marine floating body is applied to the tendon replacement method according to the present invention

Figure 2 is an exemplary configuration of a tendon tension adjusting device for applying the tendon replacement method according to the present invention

3 to 10 is a view illustrating a process according to the tendon replacement method according to the present invention

<Explanation of symbols for the main parts of the drawings>

210: tension state detection unit

220: ballasting control unit

230: ballast water control system

240: tendon tension adjustment unit

M: motor

G: Tension variable part

T: tendon

ST: spare tendon

Claims (8)

As a method for replacing tendons between a TLP type floating body and a foundation of the seabed, Providing tension adjusting units corresponding to each of the tendons of the marine float; If there is a tendon that needs to be replaced, include replacing the tendon with another tendon, Before the replacing process, the process of reducing the tension of the corresponding tendon that needs to be replaced by using a tension adjusting unit provided correspondingly to the tendon replacement method of the TLP-type marine floating body, characterized in that first performed. The method of claim 1, wherein before the process of reducing the tension of the tendon, the tendon replacement of the TLP-type floating float, characterized in that the arrangement and operation of the preliminary tendon in place of the tendon between the sea floating body and the foundation. Way. The method according to claim 2, wherein after replacing the tendon, the preliminary tendon is removed. The preliminary tension adjusting unit is provided to correspond to the preliminary tendon, and the preliminary tension adjusting unit increases the tension of the preliminary tendon for the arrangement and operation of the preliminary tendon, and before removing the preliminary tendon. And a tendon replacement method of the TLP-type marine float, characterized in that to reduce the tension of the preliminary tendon. In a method of replacing tendons of a TLP type seafloat, which is moored using a vertical tendon connected to a foundation fixed to an anchor located at the bottom of the sea, and is tensioned by buoyancy of the partially submerged float: A first process further comprising a connecting means of the preliminary tendon in the anchor, the tension adjusting unit capable of adjusting the tension of the tendon and the preliminary tendon connected to the anchor; When the tendon of the replacement target is confirmed by examination or inspection, a second process of connecting the preliminary tendon to the anchor to which the corresponding tendon is connected and maintaining the tension of the preliminary tendon as the tension for maintaining the balance of the float through the tension adjusting unit and; A third process of replacing the existing tendon with a new tendon in a state where the tension of the preliminary tendon is sufficiently maintained through the second process; A fourth process of maintaining, when the new tendon is replaced with the existing tendon through the third process, the tension applied to the new tendon by the tension adjusting unit is maintained at the tension currently maintained by the preliminary tendon; And And a fifth process of dismantling the preliminary tendons when the tension for maintaining the balance of the floats is maintained in the new tendons through the fourth process. It is a TLP type marine floating body comprising a plurality of tendons, one end fixed to itself and the other end anchored to the foundation of the seabed, And a tension adjusting unit configured to reduce or increase the tension of each of the plurality of tendons in preparation for the replacement of each of the plurality of tendons. A marine float comprising a plurality of tendons, one end fixed to itself and the other end anchored to a foundation of the seabed, And a plurality of preliminary tendons that participate in maintaining the balance of the maritime float on behalf of the tendons in preparation for the replacement of each of the plurality of tendons. A marine float comprising a plurality of tendons, one end fixed to itself and the other end anchored to a subsea foundation, The TLP-type floating float further comprises one or more preliminary tendons that, under adverse conditions, further participate in maintaining the balance of the floating float in addition to the plurality of tendons.

Images