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基于两步法的沙漏型浮体砰击压强分析

Analysis on slamming pressure of sandglass-type floating body based on two-step method
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摘要 为探究沙漏型FPSO的砰击压强特性,采用两步法对浮体在典型波浪环境下砰击次数和砰击压强展开研究。基于波浪势流理论计算沙漏型FPSO在典型波浪环境的运动响应,利用多项式拟合浮体典型剖面在入水前后时刻的垂向速度时间历程曲线;基于计算流体力学理论数值模拟浮体二维剖面入水砰击压强。模拟结果表明,具有优异水动力性能的沙漏型浮体,距离水线面越近的横剖面平均入水砰击次数和有效砰击速度越大;最大砰击压强区域在沙漏型FPSO上浮体舷侧的两端;底部形状越平或曲率半径越来越大,二维剖面的砰击压强峰值越大。 In order to explore the characteristics of the sandglass-type FPSO, two-step method is used to study the numbers and pressure of slamming of floating body in typical wave environment. Motion response of the sandglass-type FPSO in waves is computed based on potential wave theory, and vertical velocity of a 2D cross section during water-entry is handled with polynomial fitting method. Slamming pressure on the section is numerically simulated with computational fluid dynamic(CFD)method. The simulation results show that the sandglass-type float with excellent hydrodynamic performance has higher average times of numbers of slamming and effective velocity of water entry along the cross section nearer to the water line surface. The maximum slamming pressure area is at both ends of the floating body side on the sandglass-type FPSO. The flatter the bottom shape or the larger the radius of curvature, the larger the peak of slamming pressure in the two-dimensional profile.
作者 张帆 张学伟 盛其虎 王文华 纪仁玮 ZHANG Fan;ZHANG Xue-wei;SHENG Qi-hu;WANG Wen-hua;JI Ren-wei(College of Shipbuilding Engineering,Harbin Engineering University,Harbin 150001,China;School of Naval Architecture and Ocean Engineering,Dalian University of Technology,Dalian 116024,China)
出处 《舰船科学技术》 北大核心 2024年第1期68-75,共8页 Ship Science and Technology
基金 国家自然科学基金资助项目(51879064)。
关键词 沙漏型FPSO 砰击 两步法 砰击压强 sandglass-type FPSO slamming phenomena two-step method slamming pressure
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