Study on the burial depth calculation method for AC submarine cable based on the surface optical fiber monitoring temperature

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-07 DOI:10.1049/gtd2.13243
Qishun Li, Yanpeng Hao, Peng Zhang, Haotian Tan, Lin Yang
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Abstract

The partial exposure of submarine cable may cause damage to the metal sheath, which will affect its safe and stable operation. Existing detection methods for burial depth of submarine cables are difficult to implement and have a long detection period. In this contribution, a method is proposed to calculate the burial depth of alternating current (AC) submarine cable based on surface optical fiber monitoring temperature. According to the functional relationship between the transient temperature rise of submarine cable outer sheath above the ambient temperature and the burial depth (in the IEC-60853 standard), the burial depth of submarine cables is calculated. The optical fiber temperature, electric load and meteorological temperature data are used for 30 consecutive days in September 2020 to calculate the change of burial depth of AC 500 kV oil-filled submarine cable. The calculation results are basically consistent with the detection conclusion of side-scan sonar, which shows that the method can accurately calculate the burial depth of submarine cables and locate the exposed position. This provides a theoretical basis for the intelligent operation and maintenance of AC submarine cables.

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基于表面光纤监测温度的交流海底电缆埋深计算方法研究
海底电缆的部分暴露会造成金属护套的损坏,影响其安全稳定运行。现有的海底电缆埋深探测方法难以实现,且探测周期长。本文提出了一种基于表面光纤监测温度计算交流海底电缆埋深的方法。根据海底电缆外护套高于环境温度的瞬时温升与埋深之间的函数关系(IEC-60853 标准),计算海底电缆的埋深。利用 2020 年 9 月连续 30 天的光纤温度、电力负荷和气象温度数据,计算交流 500 kV 充油海底电缆的埋深变化。计算结果与侧扫声纳的探测结论基本一致,说明该方法能准确计算海底电缆埋深,定位裸露位置。这为交流海底电缆的智能运行和维护提供了理论依据。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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