Abstract
Slug flow is characterized by the variations of internal flow parameters with time and position. This study aims to investigate the slug flow effect (SFE) on the cross-flow Vortex-Induced Vibration (VIV) of a flexible riser. A steady slug-flow model is adopted using several assumptions and empirical correlations. A distribution of van der Pol oscillators is employed to create the VIV effect. A novel approach has been proposed to capture the intermittent feature which is validated by comparisons with experiments. The SFE is explored by comparisons of the dynamic behaviors of a flexible riser subject to two uniform currents, assuming the pipe is filled with still liquid, transporting a single-phase liquid flow and a two-phase slug flow. It has demonstrated that the SFE is much more profound than the single-phase internal flow effect. A flexible riser conveying a slug flow can exhibit quite distinguished dynamics owing to the intermittent feature. Apart from triggering new modes, the combination of slug flow frequency and VIV frequency can generate an amplitude-modulation phenomenon of excited modes. Most distinctively, beating behaviours which corresponds to the resonant synchronization have been captured. This study can contribute to fatigue analysis of a flexible riser conveying a two-phase slug flow.
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