机电工程技术2026,Vol.55Issue(4):67-74,8.DOI:10.3969/j.issn.1009-9492.2026.04.011
海上风电新型柔性海缆保护装置疲劳性能研究
Research on Fatigue Performance of a Novel Flexible Submarine Cable Protection Device for Offshore Wind Power
摘要
Abstract
Offshore wind power is a rapidly developing new energy source globally.The reliability of submarine cable systems,serving as the"lifeline"for offshore energy transmission,is emerging as a critical bottleneck hindering the large-scale development of the industry.Common issues affecting submarine cables include abrasion,corrosion,and fatigue damage caused by alternating loads.Among these,the suspended section of submarine cables,subjected to long-term wave-current coupling effects and dynamic bending loads,exhibits fatigue damage rates 3~5 orders of magnitude higher than those of the flat-laid sections,making it a high-incidence area for fatigue failure.To address this problem,a novel flexible submarine cable protection device is proposed featuring a streamlined integrated tubular structure with built-in reinforcement layers to enhance mechanical properties.By combining ABAQUS and Fe-safe software to simulate vortex-induced vibration and wave-current coupled loads,a fatigue life analysis of the submarine cable is conducted to verify the protective effect of the new device on the suspended section.Research results demonstrate that under 50-year return period conditions,the flexible protection device reduces the peak displacement in the U1 direction by 82%and increases fatigue life by 133 times.Under annual return period conditions,it reduces the peak displacement in the U1 direction by 79%and increases fatigue life by 1 000 times,significantly decreasing the amplitude of fatigue cycles and extending the submarine cable's fatigue life.关键词
海缆保护/疲劳损伤/涡激振动Key words
submarine cable protection/fatigue damage/vortex-induced vibration分类
信息技术与安全科学引用本文复制引用
于梦怡,朱嵘华,刘凤伟,徐清富..海上风电新型柔性海缆保护装置疲劳性能研究[J].机电工程技术,2026,55(4):67-74,8.基金项目
广东省科技专项资金项目(SDZX2020006) (SDZX2020006)
阳江市2024年省科技支撑"百千万工程"项目(BQW2024002) (BQW2024002)
