49 / 2021-10-12 10:35:31
Vessel motion influenced in steel catenary riser touchdown zone
SCR; riser-soil interaction model; vessel motion; trench development; fatigue life.
Abstract Pending
陈嘉明 / 浙江海洋大学
Abstract: This work is focused on the second-order motion of vessel influenced on behavior at touchdown zone (TDZ) of steel catenary riser (SCRs). The complex TDZ dynamic response depends on several factors, such as seabed model, riser characteristics, and vessel motion. The vessel motion as the upper boundary condition of the whole riser system is one of the main causes of cyclic oscillation in the dynamic behavior of SCRs locally at the TDZ, thus causing fatigue damage in TDZ. With first- and second-order wave force the vessel motion response is different, and the second-order motion cause bigger drift motion amplitude. However, previous studies do not completely describe the phenomena resulting from the vessel practical motion, such as the second-order motion of the vessel. To demonstrate the second-order motion's influence, we consider a single SCR hosted by a tension leg platform, fatigue analysis and dynamic response of SCR TDZ are studied based on the time domain for different vessel motion responses. The results obtained as follow: the dynamic response of SCR TDZ is greatly influenced by the second-order motion of vessel; suction amplitude can be range different, because the pull-out velocity varies with different vessel motion, a slightly fatigue life reduction, suction amplitude larger and TDZ length increment can be appeared through a consideration of the practical vessel motion. The results of this study indicate that the second-order motion of the vessel should be considered as a whole in future study.

 
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    Oct 22

    2021

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    Oct 25

    2021

  • Sep 15 2021

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Sponsored By
SUT 中国分会
大连理工大学
中国石油大学(北京)
Supported By
辽宁省力学学会
大连市科学技术协会
工业装备结构分析国家重点实验室
海岸和近海工程国家重点实验室
橡塑制品成型数值模拟与优化学科创新引智基地
大连理工大学宁波研究院
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