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海上风机与养殖网箱融合系统中网箱系泊绳张力与导管架基础结构的安全性 被引量:1

Mooring rope tension and jacket infrastructure safety in integrated system of offshore wind turbine and fish cage
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摘要 海洋牧场与海上风电融合发展是现代渔业和清洁能源产业融合发展的典型代表,有利于构建“海上粮仓+清洁能源”的新产业模式。本研究基于福建漳浦六鳌海上风电场风机导管架构建养殖网箱与海上风机融合系统,运用Aqua-FE™有限元工具探究极端波流条件下不同网箱布设深度、波流入射角、生物附着程度对网箱系泊绳张力的影响;采用海洋工程专用设计软件SACS,计算分析风机导管架结构在波流及网箱系泊绳张力作用下的应力分布,评估养殖网箱系泊绳张力对风机导管架基础结构安全性的影响。结果显示,网箱布设深度的增加能够减少网箱系泊绳最大张力,显著改善网箱风机整体结构受力状态;波流入射角的改变对于网箱风机整体结构安全性影响不大;网衣生物附着程度的增加会显著增加网箱系泊绳最大张力,从而造成风机导管架基础杆件大量失效。研究表明,养殖网箱可布设于适当水深以减少受力,同时应及时清理附着生物,适当增加网箱系泊点附近的导管架杆件和导管架底部桩土点杆件的壁厚,以确保养殖网箱与海上风机融合系统结构安全。该结果可为深入研究网箱与风机融合系统的受力,评估该系统的安全性,优化设计养殖网箱与风机融合系统提供数据支撑。 The combination of offshore wind power and aquaculture industry has developed rapidly,which can comprehensively utilize marine space,maximize the benefits of aquaculture and offshore wind power industry,and realize the simultaneous and efficient output of clean energy and high-quality aquatic products.As one of integrated development modes of offshore wind power and cage culture,the integrated system of fish cage and wind turbine using the pile foundation of wind turbines to form the fish cage is exposed to the extreme sea states with severe waves and currents.The hydrodynamic of the fish cage and wind turbine integrated system,as well as the evaluation of the structural safety of the pile foundation,are the basis for the construction of the integrated system.It is of great necessity to conduct a more systematic study on the hydrodynamic characteristics of fish cage and offshore wind turbine pile foundations.In this paper,an integrated system of offshore wind turbine and fish cage was constructed based on the wind turbine jacket of offshore wind power in Liuao,Zhangpu,Fujian Province.The finite element toolbox,Aqua-FE™,was used to investigate the impacts of different deployment depth,wave-current incident angle and percentages of biofouling on mooring rope tension of fish cage in extreme waves and currents.The relationship between the mooring rope tension at the upper end of the upstream side and the deployment depth of fish cage was fitted by nonlinear regression.The effects of waves and currents parameters,as well as mooring line tension of the fish cage,on the stress variations of the wind turbine jacket structure were analyzed by the specialized design software SACS for ocean engineering,and the safety of the wind turbine jacket foundation structure was evaluated.The results show that the increase in the deployment depth of the fish cage could reduce the maximum tension of the mooring rope,significantly improving the stress state of the integrated system.The variation of wave-current incident angles had little effect on the safety of integrated system of offshore wind turbine and fish cage;the rise of the percentage of biofouling significantly increased the maximum tension of mooring ropes,resulting in structural failures of many foundation rods of the wind turbine jacket.In summary,the fish cage can be arranged in an appropriate water depth to reduce stress.At the same time,the fouling organisms shall be cleaned in time,and the thickness of the jacket rod near the mooring point of the fish cage and the pile-soil point rod at the bottom of the jacket shall be appropriately increased to ensure the structural safety of the integrated system.The results can provide data support for further study of the forces in integrated system of offshore wind turbine and fish cage,safety evaluation of the system,and design optimization of the system.
作者 林旻 邬骞力 田会元 黄六一 黄桂芳 刘波 王欣欣 王刚 LIN Min;WU Qianli;TIAN Huiyuan;HUANG Liuyi;HUANG Guifang;LIU Bo;WANG Xinxin;WANG Gang(Shanghai Surveying,Design and Research Institute Co.,Ltd.,Shanghai 200000,China;College of Fisheries,Ocean University of China,Qingdao 266000,China;Fisheries Research Institute of Fujian,Xiamen 361013,China)
出处 《水产学报》 CAS CSCD 北大核心 2024年第6期190-202,共13页 Journal of Fisheries of China
基金 国家重点研发项目(2019YFD0901003) 中国长江三峡集团公司科研项目(CTGFB/0004-2020)。
关键词 海上风电 养殖网箱 风机导管架 系泊绳张力 结构安全性 数值模拟 offshore wind power fish cage jacket structure mooring rope tensions structural safety numerical simulation
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