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S-spar平台垂荡板数目确定及立管系泊系统耦合分析 被引量:1

On Number of Heave Damping Plates of S-spar Platform and Coupling Analysis of Risers and Mooring System
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摘要 考虑到目前S-spar平台垂荡板数目是参考Truss Spar平台3块垂荡板的设计,而未结合平台本身特性进行深入研究,因此基于SESAM对S-spar平台进行频域分析,确定S-spar平台采用4块垂荡板更为合适。在4块垂荡板的S-spar平台频域分析的基础上,对系泊系统及立管进行耦合分析,对比有无立管情况,发现考虑立管后平台各自由度上运动显著减小。为解决立管张力过大的问题,在立管上安装浮子,讨论浮子位置、浮子浮力对立管张力的影响,确定安装500 k N的浮子在距立管悬垂段距顶端65%处为最优方案。 The number of heave damping plates in S-spar platform is more reference to 3 heave damping plates in Truss Spar platform,and is not deeply studied according to its own characteristics. Based on SESAM,the S-spar platform was analyzed in frequency domain,and the most suitable number of heave damping plates of the S-spar platform was 4. Based on the frequency domain analysis of the S-spar platform with 4 heave damping plates,the coupling analysis of the mooring system and the riser was carried out,showing that the motions of the platform could be significantly reduced after considering the riser. In order to solve the problem of excessive tension of the riser,the buoyancy block was installed,the influence of its position and its buoyancy to the tension of the riser was discussed. The installation of 500 k N of the buoyancy block at 65% of the overhanging length from the top of the riser was determined.
作者 孙洁莹 张淑华 陈辉 封磊
机构地区 河海大学港口海岸与近海工程学院
出处 《船海工程》 北大核心 2018年第1期89-93,共5页 Ship & Ocean Engineering
关键词 S-spar平台 垂荡板 耦合分析 张紧式系泊 立管张力 浮子 S-spar platform heave damping plates coupling analysis tensioned mooring tension of the riser buoyancy block
分类号 U661.4 [交通运输工程—船舶及航道工程]
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  • 1张帆,杨建民,李润培.Spar平台的发展趋势及其关键技术[J].中国海洋平台,2005,20(2):6-11. 被引量:61
  • 2石红珊,柳存根.Spar平台及其总体设计中的考虑[J].中国海洋平台,2007,22(2):1-4. 被引量:12
  • 3高鹏,柳存根.Spar平台垂荡板设计中的关键问题[J].中国海洋平台,2007,22(2):9-13. 被引量:12
  • 4韩凌,杜勤.深水半潜式钻井平台锚泊系统技术概述[J].船海工程,2007,36(3):82-86. 被引量:16
  • 5Prslin I, Blevins R D, Halkyard J E. Viscous damping and added mass of solid square plates[A]. OMAE98, Proceeding of OMAE 1998 [ C ]. Portugal: ASME, 1998.
  • 6Holmes S, Bhat S, Beynet P, et al. Heave plate design with computational fluid dynamics [J]. Journal of Offshore Mechanics and Artic Engineering, 2001, 123(1) :22- 28.
  • 7Rho J B, Choi H S, Lee W S, et al. Heave and pitch motions of a Spar platform with damping plate[ A]. ISOPE02, Proceeding of ISOPE2002[ C ]. Japan: The International Society of Offshore and Polar Engineers,2002:198- 201.
  • 8Fischer F J, Gopalkrishnan R. Some observations on the heave behavior of Spar platforms[ J]. Journal of Offshore Mechanics and Arctic Engineering, 1998,120:221 - 225.
  • 9Ran Z H, Kim M H. Hull/Mooring/Riser coupled Spar motion analysisi with buoyancy-can effect[A]. ISOPES02, Proceeding of ISOPE2002[ C]. Japan: International Society of Offshore and Polar Engineers,2002:223 - 230.
  • 10Liu T J, Chen X H. Global performance and mooring analysis of a Truss Spar[A]. ISOPES03, Proceeding of ISOPF_2003[C]. USA: International Society of Offshore and Polar Engineers, 2003:256- 262.

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