论文信息 - A simplified method to predict fatigue damage of offshore riser subjected to vortex-induced vibration by adopting current index concept

A simplified method to predict fatigue damage of offshore riser subjected to vortex-induced vibration by adopting current index concept

Abstract In the present study, an innovative method for estimating fatigue performance of risers under vortex-induced vibration (VIV) is proposed. Generally, fatigue performance is affected by the surrounding environment such as wind, wave, and current. It is well known that current is the most influential load among all for offshore risers. In structural safety aspect, strength and fatigue are the most important factors for riser design. In addition, fatigue design is affinitive to the VIV phenomenon. For the analysis of fatigue performance of riser, SHEAR7 numerical simulation code which is commonly used in offshore industry is applied. In order to identify the relation between current load and fatigue performance of riser, Fatigue damage versus Current index (F-C) diagram has been proposed. F-C diagram may cover change of current profiles and help predict the fatigue damage under VIV. In case of current profile, a total of sixty cases of current scenarios are considered based on six representative sea-states. The obtained results from this study will be a useful guideline to predict the effect of current on the fatigue performance of riser.

[1] Yong Bai,et al. Subsea Engineering Handbook , 2012 .

[2] Han-Suk Choi,et al. A new method for strake configuration design of Steel Catenary Risers , 2016 .

[3] Do Kyun Kim,et al. Condition assessment of raking damaged bulk carriers under vertical bending moments , 2013 .

[4] Carl M. Larsen,et al. On fatigue damage accumulation from in-line and cross-flow vortex-induced vibrations on risers , 2006 .

[5] Yong Bai,et al. Subsea Pipelines and Risers , 2005 .

[6] Jeom Kee Paik,et al. Safety guidelines of ultimate hull girder strength for grounded container ships , 2013 .

[7] Jeom Kee Paik,et al. Comparison of residual strength-grounding damage index diagrams for tankers produced by the ALPS/HULL ISFEM and design formula method , 2013 .

[8] Zhi Zong,et al. Fatigue damage analysis of the deepwater riser from VIV using pseudo-excitation method , 2014 .

[9] Jeom Kee Paik,et al. Time-dependent residual ultimate longitudinal strength - grounding damage index (R-D) diagram , 2014 .

[10] Kristoffer Høyem Aronsen,et al. An Experimental Investigation of In-line and Combined In-line and Cross-flow Vortex Induced Vibrations , 2007 .

[11] Halvor Lie,et al. Experimental investigation of vortex-induced vibration of long marine risers , 2005 .