基于运动数据和固有频率估计的FPSO系泊线完整性监测系统

José Lucas De Melo Costa, Asdrubal N. Queiroz Filho, Ismael H. F. Santos, Rodrigo A. Barreira, A. H. R. Costa, E. Gomi, E. Tannuri
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引用次数: 0

摘要

由于对能源的需求不断增长,海上生产设施在石油工业中发挥着核心作用。这些浮式结构的系泊系统是安全维护的关键部件。及时识别系泊线故障可以防止环境污染、财产损失和进一步的系统故障。本文提出了一种基于平台长漂移振荡运动纵轴和横轴自然周期的系缆故障检测与分类系统。该方案从假设发生断行时,平台的自然振荡周期增加,这种差异可能表明系泊系统出现故障。该系统的概念验证证明了利用自然周期检测浮式船舶系泊线故障的潜力,验证了最初的假设,即自然周期的差异出现在断线时,这种差异可能会检测到断线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
FPSO Mooring Line Integrity Supervising System Based on Motion Data and Natural Frequency Estimation
Offshore production facilities play a central role in the oil industry given the growing demand for energy resources. The mooring system of these floating structures is a critical component for safety maintenance. The timely identification of mooring lines failures can prevent environmental pollution, property losses and further system failures. In this paper we propose a system to detect and classify failures of the mooring lines based on the natural period in the longitudinal axis and in the lateral axis of the long drift oscillatory motion of the platform. The proposal starts from the hypothesis that when a line break occurs, the natural period of oscillation of the platform is increased, and this difference may indicate the malfunction of the mooring system. The proof of concept developed for the proposed system demonstrates the potential of using the natural period to detect failures in mooring lines for floating vessels, validating the initial hypothesis that the difference in a natural period appears when a line breaks and that this difference may detect line break.
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