유체-구조 연성해석 기반 해저케이블 위해인자의 수중낙하 특성 비교

유체-구조 연성해석 기반 해저케이블 위해인자의 수중낙하 특성 비교

It is known that damages to the subsea cables used for electric power transmission between islands and countries, including renewable energy from offshore wind power, current, tides, etc., cost much to restore, which causes social and economic losses. Various types of fishing rigs and anchors have b...

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Bibliographic Details
Published in:Han-guk haeyang gonghak hoeji (Online) Vol. 32; no. 5; pp. 324 - 332
Main Authors: 장경호(Gyung-Ho Jang), 김정훈(Jeong-Hun Kim), 송창용(Chang Yong Song)
Format: Journal Article
Language:Korean
Published: 한국해양공학회 2018
Subjects:
해양공학
Protection facility 보호설비
Subsea cable 해저 케이블
Hazard apparatuses 위해인자
Underwater drop velocity 수중낙하속도
Fluid-structure interaction analysis 유체-구조 연성해석
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Summary:It is known that damages to the subsea cables used for electric power transmission between islands and countries, including renewable energy from offshore wind power, current, tides, etc., cost much to restore, which causes social and economic losses. Various types of fishing rigs and anchors have been reported to be the greatest hazards to subsea cables. It is possible to design and construct a suitable protection facility for a subsea cable by precisely estimating the underwater behavior of such hazardous apparatuses. In this study, numerical simulations of the underwater behaviors of various hazardous apparatuses were carried out using fluid-structure interaction (FSI) analysis as a basic study to simulate the actual behavior phenomena of hazardous apparatuses in relation to a subsea cable. In addition, the underwater drop characteristics according to the types of hazardous apparatuses were compared. In order to verify the accuracy of the FSI analysis method used in this study, we compared the test results for underwater drops of a steel ball bearing. Stock anchors, stockless anchors, and rocket piles, which were actually reported to be the cases of damage to subsea cables along the southwest coast of Korea, were considered as the hazardous apparatuses for the numerical simulations. Each hazardous apparatus was generated by a Lagrangian model and coupled with the fluid domain idealized by the Eulerian equation to construct the three-dimensional FSI analysis model. The accuracy of the numerical simulation results was verified by comparing them with the analytical solutions, and the underwater drop characteristics according to the types of hazard apparatuses were compared.
Bibliography:KISTI1.1003/JNL.JAKO201833469090223
https://doi.org/10.26748/KSOE.2018.6.32.5.324
ISSN:1225-0767
2287-6715
DOI:10.26748/KSOE.2018.6.32.5.324