Application of the monitoring and early warning system for internal solitary waves: Take the second natural gas hydrates production test in the South China Sea as an example

IF 4.6 3区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY China Geology Pub Date : 2023-10-01 DOI:10.31035/cg2022043

Dan-yi Su , Bin-bin Guo , Qian-yong Liang , Chu-jin Liang , Fei-long Lin , Su-meng Jiang , Yi-fei Dong , Xue-min Wu

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Abstract

Internal solitary waves (ISWs) contain great energy and have the characteristics of emergency and concealment. To avoid their damage to offshore engineering, a new generation of monitoring and early warning system for ISWs was developed using technologies of double buoys monitoring, intelligent real-time data transmission, and automatic software identification. The system was applied to the second natural gas hydrates (NGHs) production test in the Shenhu Area, South China Sea (SCS) and successfully provided the early warning of ISWs for 173 days (from October 2019 to April 2020). The abrupt changes in the thrust force of the drilling platform under the attack of ISWs were consistent with the early warning information, proving the reliability of this system. A total of 93 ISWs were detected around the drilling platform. Most of them occurred during the spring tides in October–December 2019 and April 2020, while few of them occurred in winter. As suggested by the theoretical model, the full-depth structure of ISWs was a typical current profile of mode-1, and the velocities of wave-induced currents can reach 80 cm/s and 30 cm/s, respectively, in the upper ocean and near the seabed. The ISWs may be primarily generated from the interactions between the topography and semidiurnal tides in the Luzon Strait, and then propagate westward to the drilling platform. This study could serve as an important reference for the early warning of ISWs for offshore engineering construction in the future.

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内孤波监测预警系统的应用：以南海第二次天然气水合物生产试验为例

内孤波（ISW）蕴含着巨大的能量，具有紧急性和隐蔽性的特点。为避免其对海洋工程的破坏，利用双浮标监测、智能实时数据传输、软件自动识别等技术，开发了新一代内孤波监测预警系统。该系统应用于南海神狐海域第二次天然气水合物（NGHs）生产试验，成功提供了 173 天（2019 年 10 月至 2020 年 4 月）的 ISWs 预警。钻井平台在 ISWs 袭击下的推力突变与预警信息一致，证明了该系统的可靠性。钻井平台周围共探测到 93 个 ISW。其中大部分发生在 2019 年 10-12 月和 2020 年 4 月的春潮期间，少数发生在冬季。根据理论模型，ISWs 的全深度结构为模式-1 的典型海流剖面，在海洋上层和海底附近，波浪诱导流的速度分别可达 80 cm/s 和 30 cm/s。ISWs 可能主要产生于吕宋海峡的地形和半日潮之间的相互作用，然后向西传播到钻井平台。本研究可为今后海洋工程建设的 ISWs 预警提供重要参考。

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