摘要
目前,建立在静水面上的FPV电站单浮体结构已经不能完全适应复杂多变的海上环境,故提出适用于海上水动力学FPV阵列系统的3种浮筒式浮体结构,以1×5阵列FPV系统为研究对象,采用大型通用软件AQWA对1×5FPV阵列系统进行水动力研究,分析这3种浮体结构在不同工况下的稳定性和端部缆绳的受力情况。结果显示,单浮筒结构浮体适合在风荷载较小的水面安装,多浮筒结构的浮体更适合安装在复杂多变的海上环境。研究结果对未来FPV阵列系统的设计提供一定的理论基础。
At present,the single-floating structure of the FPV power station built on the still water cannot fully adapt to the complex and changeable offshore environment.Therefore,three pontoon-type floating structures are proposed for the FPV array system for offshore hydrodynamics.Taking the 1×5 array FPV system as the research object,the large-scale general software AQWA is used to conduct hydrodynamic research on the 1x5 array FPV system,the stability of the three floating structures under different working conditions and the force of the end cables are analyzed.The results show that the single-buoy structure buoy is suitable for installation on the water surface with less wind load,and the multi-buoy structure buoy is more suitable for installation in the complex and changeable offshore environment.The research results provide an important theoretical basis for the design of future FPV array systems.
作者
张景飞
易玲
郭攀
ZHANG Jing-fei;YI Ling;GUO Pan(School of Mechanics and Safety Engineering,Zhengzhou University,Zhengzhou 450001,China)
出处
《舰船科学技术》
北大核心
2023年第19期104-110,共7页
Ship Science and Technology
