10MW浮式风机平台系泊系统优化设计

本文针对中国石油管道局自主设计研发的适用于10MW风机的浮式平台，利用势流软件ANSYS-AQWA的时域分析方法，研究不同浪向下平台的运动响应、系泊张力和预张力特性。并通过定量研究对不同导缆孔位置、不同系泊链夹角及不同系泊链长度分析，探究其影响系泊系统的一般规律，最终提供一套满足美国石油学会(American Petroleum Institute，API)规范要求的10MW浮式风机平台系泊系统的优化方案。结果表明:系泊系统参数对平台响应具有显著影响。恰当配置这些参数，可显著优化平台的运动特性并改善系泊张力表现，从而有效增加平台的稳定性和安全性。

英文摘要:

This paper focuses on the floating platform designed and developed independently by China Petroleum Pipeline Engineering Co.,Ltd. for 10 MW wind turbines. Using the time-domain analysis method of the potential flow software ANSYS-AQWA, the motion response, mooring tension, and pre tension characteristics of the platform under different waves are studied. Through quantitative research on different positions of cable guide holes, different angles of mooring lines, and different lengths of mooring lines, explore the general laws affecting the mooring system, and ultimately provide an optimized solution for the mooring system of a 10 MW floating wind turbine platform that meets API specifications. The results indicate that different mooring system parameters have a significant impact on the response of the platform. Appropriate configuration of these parameters can significantly optimize the platform's motion response and enhance its mooring tension performance, thereby substantially increasing the platform's stability and safety.

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