KR101651456B1 - Asset integrity management method of offshore platform mooring system - Google Patents

Abstract

An asset integrity management method of an offshore platform mooring system according to an embodiment of the present invention includes a step of receiving measurement data from each of offshore information measuring instruments, a step of evaluating asset integrity for the offshore platform mooring system and the offshore information measuring instruments by comparing the measurement date with predetermined reference data, and a step of visually displaying an evaluation result. Therefore, the asset integrity is evaluated based on the measured data of the offshore platform mooring system. It is visually provided. So, a manager can check the residual life of the offshore platform.

Description

[0001] The present invention relates to a method of managing an integrity of a mooring system of a marine platform,

Embodiments of the invention relate to a method for managing the integrity of a mooring system on a marine platform.

In general, among the waste gases emitted from vessels, those regulated by the International Maritime Organization are nitrogen oxides (NOx) and sulfur oxides (SOx), and are also trying to regulate the emission of carbon dioxide (CO2).

In this way, propulsion engines using petroleum as fuel have been mainly used for ships, but due to recent rise in oil prices and environmental regulations, interest in ships using environmentally friendly fuels other than petroleum is increasing rapidly.

If the mooring system of the offshore platform producing crude oil or natural gas is in trouble, the overall platform safety problem of the offshore platform will occur, and in the worst case the offshore platform will be lost, resulting in loss of life and astronomical marine pollution.

In addition, if the offshore platform can not produce crude oil or natural gas due to breakdown of the offshore platform, hurricane or other reasons, damage is occurring and safety management of the assets is increasing.

Korean Patent Laid-Open No. 10-2014-0122089 relates to a ship mooring system and a method of operating the ship mooring system, and discloses that the management control device for managing ship yard facilities can integrate various functions in addition to existing mooring control.

Korean Patent Laid-Open No. 10-2015-0072230 discloses a wall mooring system for typhoons. In the case of mooring a ship or an offshore structure in preparation for a typhoon, a mooring wall installed in a space recessed below the mooring wall is used, And it is possible to solve the situation where the work of the mobile terminal is complicated and the bit on the wall is insufficient.

Korean Patent Laid-Open Publication No. 10-2013-0057796 discloses a liquefied fuel gas-assisted offshore platform, which provides a liquefied fuel gas-supplying offshore platform for supplying liquefied fuel gas to ships and the like.

Korean Patent No. 10-1144712 discloses a floating offshore structure for producing liquefied natural gas, which improves the performance of the athlete's maneuver by changing the linearity of the offshore structure and the effective arrangement of the propulsion plant, It is possible to reduce the sloshing load in the cargo hold due to the transverse waves.

However, the prior art does not disclose a solution for solving the above problems.

Korean Patent Publication No. 10-2014-0122089 Korean Patent Publication No. 10-2015-0072230 Korean Patent Publication No. 10-2013-0057796 Korean Patent No. 10-1144712

The present invention provides a mooring system asset integrity management method of a marine platform that allows an administrator to check the remaining life of a mooring system of a marine platform by evaluating and visually providing asset integrity based on various measurement data of the marine platform The purpose.

It is another object of the present invention to provide an asset integrity management method of a marine platform which can prevent economic damage by preventing a marine platform from being unable to produce crude oil or natural gas.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

In one embodiment, a method for managing mooring system asset integrity on a marine platform includes receiving metrology data from each of a plurality of marine information meters, comparing the metrology data and previously generated metric data, Evaluating asset health for the mooring system of the platform, and visually displaying the evaluation results.

Among the embodiments, a mooring system asset integrity management system of a marine platform includes a plurality of marine information meters for measuring metrology data for a marine environment and metrology data received from each of the plurality of marine information meters and previously generated reference data Evaluating asset health for the plurality of marine information measuring instruments and the mooring system of the marine platform, and visually displaying the evaluation results.

The details of other embodiments are included in the detailed description and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

According to the present invention, the asset integrity is evaluated and visually provided based on the measurement data of the mooring system of the marine platform, thereby allowing the manager to confirm the remaining life of the mooring system of the marine platform.

Further, according to the present invention, there is an advantage that economic damage can be prevented by preventing a floating sea platform from being unable to produce crude oil or natural gas due to an abnormality of a mooring system in advance.

1 is a network configuration diagram illustrating a mooring system asset integrity management system of a marine platform according to an embodiment of the present invention.
2 is a network configuration diagram for explaining an embodiment of a mooring system asset integrity management system of a marine platform according to an embodiment of the present invention.
3 is a flowchart illustrating a method for managing mooring system asset integrity of a marine platform according to an embodiment of the present invention.
4 is a flowchart for explaining another embodiment of a mooring system asset integrity management method of a marine platform according to the present invention.

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

As used herein, the term "offshore platform" refers to a production platform for producing crude oil or natural gas.

1 is a network configuration diagram illustrating a mooring system asset integrity management system of a marine platform according to an embodiment of the present invention. 2 is a network configuration diagram for explaining an embodiment of a mooring system asset integrity management system of a marine platform according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, a mooring system asset integrity management system of a marine platform includes a plurality of marine information meters 100_1 to 100_N and an asset integrity management server 200.

The plurality of marine information measuring instruments 100_1 to 100_N measure marine information and provide measurement data to the asset integrity management server 200. [

The plurality of marine information measuring instruments 100_1 to 100_N includes an atmospheric meteorological instrument for measuring atmospheric weather information, a structural strain meter for measuring structural deformation information, and a marine meteorological instrument for measuring marine meteorological information. For example, the plurality of marine information measuring instruments 100_1 to 100_N may be implemented as a satellite sensor 100_1, a tension sensor 100_2, a wind direction / wind speed sensor 100_3, and a bird / farrow sensor 100_4 as shown in FIG. have.

The atmospheric meteorological instrument measures the wind direction, the wind speed, the temperature and humidity, and the atmospheric pressure and provides measurement data to the asset integrity management server 200. The structural strain gage measures the vibration acceleration, the slope, the strain, and the tension, and provides measurement data to the asset integrity management server 200. The marine meteorological instrument provides measurement data to the asset integrity management server 200 by measuring digging, wave period, wave, spectrum, tide, flow velocity and direction.

The asset integrity management server 200 evaluates the asset soundness of each of the plurality of marine information meters 100_1 to 100_N using the measurement data received from each of the plurality of marine information meters 100_1 to 100_N.

Here, the asset integrity management server 200 evaluates the asset soundness, which means that the plurality of marine information meters 100_1 to 100_N evaluate whether or not the current situation is compared with the initial plan. That is, the asset integrity management server 200 evaluates the degree of accuracy with which measurement data measured by the plurality of marine information meters 100_1 to 100_N are presently more accurate than the initial values.

To this end, the asset integrity management server 200 receives difference information between measurement data received from each of the same types of marine information measuring instruments located at a specific radius, centering on a specific marine information measuring instrument among the plurality of marine information measuring instruments 100_1 to 100_N, The accuracy rating of the measurement data measured by the plurality of marine information meters 100_1 to 100_N is evaluated.

For example, if the difference information between the measurement data received from each of the marine information measuring instruments is below the specific threshold information, the asset integrity management server 200 can measure the accuracy level of the measurement data measured by the marine information measuring instrument low The asset integrity management server 200 measures the accuracy level of the measurement data measured by the marine information measuring instrument if the difference information between the measurement data received from each of the marine information measuring instruments is more than the specific threshold information .

In addition, the asset integrity management server 200 compares the measurement data received from each of the plurality of marine information meters 100_1 to 100_N and the previously generated reference data to evaluate the asset health of the mooring system of the marine platform.

Here, the asset integrity management server 200 evaluates the asset soundness of the mooring system of the offshore platform, which means that the mooring system of the offshore platform evaluates the current situation as compared with the initial plan. That is, the asset integrity management server 200 means that the mooring system of the marine platform is evaluated as to whether or not the current situation is compared with the initial plan.

To this end, the asset integrity management server 200 compares measurement data and previously generated measurement data, and generates the fatigue of the mooring system of the offshore platform by the measurement data according to the comparison result.

At this time, the asset integrity management server 200 compares the measurement data and the previously generated measurement data, and if the measurement data is more than the previously generated measurement data, generates fatigue of the mooring system of the offshore platform with reference to the fatigue database for each measurement data .

In this embodiment, the asset integrity management server 200 generates fatigue of the mooring system of the marine platform by position and time according to the position of each of the plurality of marine information meters 100_1 to 100_N.

Then, the asset integrity management server 200 extracts lifetime reduction information corresponding to the fatigue of the mooring system of the offshore platform with reference to the fatigue lifetime reduction information database by fatigue, The remaining life is generated by reflecting the reduction information.

In addition, the asset integrity management server 200 displays the result of evaluating the asset health of the mooring system of the offshore platform. For example, the asset integrity management server 200 refers to the fatigue and fatigue life reduction information database of the mooring system of the offshore platform due to a typhoon, and obtains lifecycle reduction information and life reduction corresponding to the fatigue of the mooring system of the ocean platform Displays the remaining lifetime with information reflected.

At this time, the asset integrity management server 200 displays the remaining service life of the mooring system of the offshore platform or the marine information (e.g., waves, etc.) influencing the life reduction.

For example, the asset integrity management server 200 may be implemented with various types of graph charts to display the remaining lifetime over the entire lifetime of the mooring system.

3 is a flowchart illustrating a method for managing mooring system asset integrity of a marine platform according to an embodiment of the present invention. One embodiment disclosed in FIG. 3 relates to an embodiment in which the asset health of each of a plurality of marine information meters can be evaluated.

Referring to FIG. 3, the asset integrity management server 200 receives measurement data from each of the same types of marine information measuring instruments located in a specific radius centering on a specific marine information measuring instrument 100_1 among a plurality of marine information measuring instruments S310).

The asset integrity management server 200 generates difference information between measurement data received from each of the marine information measuring instruments of the same kind (step S320).

If the difference information between the measurement data is equal to or more than the specific threshold information (step S330), the asset integrity management server 200 measures the accuracy degree of the marine information measuring instrument to a high degree (step S331).

If the difference information between the measurement data is less than or equal to the specific threshold information (step S340), the asset integrity management server 200 can measure the accuracy degree of the measurement data measured by the structural distortion meter low (step S332).

The asset integrity management server 200 generates the fatigue of each of the plurality of marine information meters with reference to the fatigue database for each accuracy level of the measurement data (step S340).

The asset integrity management server 200 extracts lifetime reduction information corresponding to the fatigue of each of the plurality of marine information measuring instruments with reference to the fatigue lifetime reduction information database (step S350). The asset integrity management server 200 generates the remaining lifetime by reflecting lifetime reduction information at the time of establishment of each of marine information measuring instruments of marine (Step S360).

The asset integrity management server 200 displays the result of evaluating the asset soundness of each of the plurality of marine information meters (step S370).

FIG. 4 is a flowchart for explaining another embodiment of a mooring system asset integrity management method of a marine platform according to the present invention. One embodiment disclosed in FIG. 4 relates to one embodiment that can assess the asset health of an offshore platform.

Referring to FIG. 4, the asset integrity management server 200 receives measurement data from each of a plurality of marine information meters of a plurality of marine information (step S410). The asset integrity management server 200 compares the measurement data and the previously generated reference data (step S420).

The asset integrity management server 200 generates the fatigue of the mooring system of the marine platform with reference to the fatigue database for each measurement data (step S440) if the measurement data is more than the previously generated measurement data (step S430).

The asset integrity management server 200 extracts lifetime reduction information corresponding to the fatigue of the mooring system of the offshore platform with reference to the fatigue lifetime reduction information database (step S450). The asset integrity management server 200 generates the remaining lifetime by reflecting lifetime reduction information at the time of establishment of the mooring system of the offshore platform (step S460).

The asset integrity management server 200 displays the result of evaluating the asset health of the mooring system of the marine platform (step S470).

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

100_1 to 100_N: a plurality of marine information measuring instruments
200: Asset integrity management server

Claims (1)

Receiving measurement data from each of a plurality of marine information meters;
Comparing the measurement data and previously generated reference data to evaluate asset health for the plurality of marine information meters and the mooring system of the offshore platform; And
And visually displaying the evaluation result,
The step of evaluating the asset soundness
Comparing the measurement data and pre-generated measurement data to generate a fatigue of the mooring system of the offshore platform by the measurement data according to the comparison result;
Extracting lifetime reduction information corresponding to the fatigue of the mooring system of the offshore platform with reference to a fatigue lifetime reduction information database;
Generating a remaining lifetime by reflecting the lifetime reduction information at the time of establishment of the mooring system of the offshore platform,
Wherein the step of receiving measurement data from each of the plurality of marine information meters
Receiving measurement data including a wind direction, a wind speed, a temperature and a humidity, and an atmospheric pressure from an atmospheric gas meter;
Receiving measurement data including vibration acceleration, inclination, strain and tension from the structural strain gauge; And
Comprising the steps of: receiving metrology data from a marine meteorological instrument including wave, wave, wave, spectrum, tidal, velocity and direction,
Wherein assessing asset health for the plurality of marine information meters and the mooring system of the offshore platform
Wherein the specific ocean information measuring instrument includes a plurality of marine information measuring instruments, and the plurality of marine information measuring instruments are provided with a plurality of marine information measuring instruments, Evaluating the accuracy rating of the measurement data measured by the marine information meter;
Evaluating the asset soundness according to the accuracy class,
The step of evaluating the accuracy class of the measurement data
The difference information between the measurement data received from each of the same type of marine information measuring instruments located at a specific radius and the measurement data received from the specific marine information measuring instrument centering on a specific marine information measuring instrument among the plurality of marine information measuring instruments, Measuring an accuracy level of the measurement data measured by the specific oceanographic information measuring device to a low level; And
The difference information between the measurement data received from each of the same type of marine information measuring instruments located at a specific radius and the measurement data received from the specific marine information measuring instrument centering on a specific marine information measuring instrument among the plurality of marine information measuring instruments, Measuring a degree of accuracy of the measurement data measured by the specific marine information measuring instrument,
The step of creating the fatigue of the mooring system of the offshore platform
Generating a fatigue of a mooring system of a marine platform by position and time according to positions of the plurality of marine information meters;
Extracting lifetime reduction information corresponding to the fatigue of the mooring system of the offshore platform with reference to the fatigue lifetime reduction information database by fatigue; And
And displaying marine information together with the remaining lifetime versus the lifetime of the mooring system of the offshore platform or affecting the lifecycle reduction of the mooring system.

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