Experimental investigation on the dynamic responses of a free-hanging water intake riser under vessel motion

Experimental investigation on the dynamic responses of a free-hanging water intake riser under vessel motion

A large-scale model test of a free-hanging water intake riser (WIR) is performed in an ocean basin to investigate the riser responses under vessel motion. Top end of the WIR is forced to oscillate at given vessel motion trajectories. Fiber Brag Grating (FBG) strain sensors are used to measure the WI...

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Veröffentlicht in:Marine structures 2016-11, Vol.50, p.1-19
Hauptverfasser: Wang, Jungao, Xiang, Sherry, Fu, Shixiao, Cao, Peimin, Yang, Jianmin, He, Jingxi
Format: Artikel
Sprache:eng
Schlagworte:
Cross sections
Drag
Dynamic tests
Dynamics
Liquefied natural gas
Marine
Mathematical models
Movement
Natural gas exploration
Ocean basins
Ocean currents
Oscillatory flow
Prediction models
Risers
Small KC number
Trajectories
Vessel motion
Vessels
Vibrations
Vortex-induced vibration
Vortex-induced vibrations
Water intake
Water intake riser
Water intakes
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container_end_page 19
container_issue
container_start_page 1
container_title Marine structures
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creator Wang, Jungao
Xiang, Sherry
Fu, Shixiao
Cao, Peimin
Yang, Jianmin
He, Jingxi
description A large-scale model test of a free-hanging water intake riser (WIR) is performed in an ocean basin to investigate the riser responses under vessel motion. Top end of the WIR is forced to oscillate at given vessel motion trajectories. Fiber Brag Grating (FBG) strain sensors are used to measure the WIR dynamic responses. Experimental results firstly confirms that the free-hanging WIR would experience out-of-plane vortex-induced vibrations (VIVs) under pure vessel motion even for the case with a KC number as low as 5. Meanwhile, comparison between numerical results and experimental measurements suggests a significant drag amplification by out-of-plane vessel motion-induced VIV. What’s more, further study on WIR response frequencies and cross section trajectories reveals a strong correlation between vessel motion-induced VIV and local KC number distribution, owing to the small KC number effect. The presented work provides useful references for gaining a better understanding on VIV induced by vessel motion, and for the development of future prediction models. •Vessel motion-induced VIV is confirmed for a free-hanging water intake riser.•Vessel motion-induced VIV for a free-hanging water intake riser is less time-varying owing to small KC number effects.•Vessel motion-induced VIV frequency has an integral relationship with the vessel motion frequency.•Vessel motion-induced VIV has a significant drag amplification effect.
doi_str_mv 10.1016/j.marstruc.2016.06.003
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source ScienceDirect Journals (5 years ago - present)
subjects Cross sections
Drag
Dynamic tests
Dynamics
Liquefied natural gas
Marine
Mathematical models
Movement
Natural gas exploration
Ocean basins
Ocean currents
Oscillatory flow
Prediction models
Risers
Small KC number
Trajectories
Vessel motion
Vessels
Vibrations
Vortex-induced vibration
Vortex-induced vibrations
Water intake
Water intake riser
Water intakes
title Experimental investigation on the dynamic responses of a free-hanging water intake riser under vessel motion
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