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Study on Collision Characters for SPAR Platform 被引量:1

Study on Collision Characters for SPAR Platform
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摘要 This paper presents the research on the external mechanism of collision characters for a SPAR platform. The collision characters of SPAR platform have not attracted so much attention as that of ships in the past, because short of this kind of collision accidents reported. But with the increasing number of SPAR platforms in the world, the possibility of such kind of accident also increases. Therefore, it is necessary to master the character of SPAR collision. Model test technique is employed to study the external mechanism. The collision scenario is a ship colliding with a SPAR platform moored in the site with 1500 meters water depth. The striking ship hits the SPAR platform on the hard tank near water surface in its longitudinal direction. The specifics of the SPAR's motions and the tension forces of the mooring lines are collected to summarize the hydrodynamic characters in the collision scenario. It is found that the maximal displacements and the maximal pitch angles of the SPAR platform, and the maximal tension forces of mooring lines are all linearly proportional to the initial velocity of the striking ship basically. Mooring lines play elastic roles in the collision course. This paper presents the research on the external mechanism of collision characters for a SPAR platform. The collision characters of SPAR platform have not attracted so much attention as that of ships in the past, because short of this kind of collision accidents reported. But with the increasing number of SPAR platforms in the world, the possibility of such kind of accident also increases. Therefore, it is necessary to master the character of SPAR collision. Model test technique is employed to study the external mechanism. The collision scenario is a ship colliding with a SPAR platform moored in the site with 1500 meters water depth. The striking ship hits the SPAR platform on the hard tank near water surface in its longitudinal direction. The specifics of the SPAR's motions and the tension forces of the mooring lines are collected to summarize the hydrodynamic characters in the collision scenario. It is found that the maximal displacements and the maximal pitch angles of the SPAR platform, and the maximal tension forces of mooring lines are all linearly proportional to the initial velocity of the striking ship basically. Mooring lines play elastic roles in the collision course.
作者 胡志强 崔维成
机构地区 State Key Laboratory of Ocean Engineering China Ship Scientific Research Center
出处 《China Ocean Engineering》 SCIE EI 2008年第1期131-139,共9页 中国海洋工程(英文版)
基金 This work was supported by Science and Technology Commission of Shanghai Municipality (Grant No.05DJ14001) National High Technology Research and Development Program of China (863 Program, Grant No.2006AA09A107)
关键词 collision character external mechanism SPAR platform model test collision character external mechanism SPAR platform model test
分类号 P752 [天文地球—海洋科学]
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参考文献7

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同被引文献12

  • 1胡志强,崔维成.船舶碰撞机理与耐撞性结构设计研究综述[J].船舶力学,2005,9(2):131-142. 被引量:53
  • 2YAGI S, KUMAMOTO H, MURAGISHI O, et al. A study on collision buffer characteristic of sharp en- trance angle bow structure [J]. Marine Structures, 2009,22( 1 ) : 12-23.
  • 3WANG L L, YANG L M, HUANG D J, et al. An im- pact dynamics analysis on a new crashworthy device against ship-bridge collision [J]. International Journal of Impact Engineering, 2008, 35 (8) : 895-904.
  • 4TABRI K, MATUSIAK J, VARSTA P. Sloshing inter- action in ship collisions-an experimental and numeri- cal study [J]. Ocean Engineering, 2009, 36 (17/18) : 1366-1376.
  • 5HOU S J, LI Q, LONG S Y, et al. Multiobjective opti- mization of multi-cell sections for the crashworthiness design [Jl. International Journal of Impact Engineer- ing, 2008, 35( 11 ) : 1355-1367.
  • 6KLANAC A, EHLERS S, JELOVICA J. Optimization of crashworthy marine structures [J]. Marine Struc- tures, 2009, 22(4):670-690.
  • 7TOYAMA Y. Drift-wood collision load on bow struc- ture of high-speed vessels [J]. Marine Structures, 2009,22( 1 ) : 24-41.
  • 8PEDERSEN P T, ZHANG S M. On impact mechanics in ship collisions [Jl. Marine Structures, 1998, 11 (10) :429-449.
  • 9刘敬喜,叶文兵,胡紫剑.单壳船舷侧结构的碰撞分析[J].中国造船,2008,49(B10):124-133. 被引量:15
  • 10郭君,朱枫,姚熊亮,周维星.被撞船舷侧典型结构单元的吸能机理分析[J].中国舰船研究,2011,6(1):12-17. 被引量:1

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China Ocean Engineering
2008年 第1期

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