Effect of upward internal flow on dynamics of riser model subject to shear current |
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| Authors: | Zheng-shou Chen Wu-joan Kim Cong-bo Xiong |
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| Institution: | c a School of Naval Architecture and Civil Engineering,Zhejiang Ocean University,Zhoushan 316000,China b Department of Ocean Engineering,Mokpo National University,Mokpo 534-729,Republic of Korea c The First Institute of Oceanography,State Oceanic Administration,Qingdao 266061,China |
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| Abstract: | Numerical study about vortex-induced vibration (VIV) related to a flexible riser model in consideration of internal flow progressing
inside has been performed. The main objective of this work is to investigate the coupled fluid-structure interaction (FSI)
taking place between tensioned riser model, external shear current and upward-progressing internal flow (from ocean bottom
to surface). A CAE technology behind the current research which combines structural software with the CFD technology has been
proposed. According to the result from dynamic analysis, it has been found that the existence of upward-progressing internal
flow does play an important role in determining the vibration mode (/dominant frequency), vibration intensity and the magnitude
of instantaneous vibration amplitude, when the velocity ratio of internal flow against external current is relatively high.
As a rule, the larger the velocity of internal flow is, the more it contributes to the dynamic vibration response of the flexible
riser model. In addition, multi-modal vibration phenomenon has been widely observed, for asymmetric curvature along the riser
span emerges in the case of external shear current being imposed. |
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| Keywords: | internal flow upward-progressing fluid-structure interaction velocity ratio |
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