Tests for vortex-induced vibration in 2-DOF risers with helical strakes

被引：0

作者：

Zhou Y. ^{[1
]}

Huang W. ^{[2
]}

Yang B. ^{[3
]}

Pan C. ^{[3
]}

Song Z. ^{[3
]}

机构：

[1] School of Port and Transportation Engineering, Zhejiang Ocean University, Zhoushan

[2] Shandong Provincial Key Lab of Ocean Engineering, Ocean University of China, Qingdao

[3] Key Lab of Engineering Oceanography, Second Institute of Oceanography, State Oceanic Administration, Hangzhou

来源：

Zhendong yu Chongji/Journal of Vibration and Shock | 2018年 / 37卷 / 17期

关键词：

Helical strakes; Reynolds number; Riser; Strouhal number; Vortex-induced vibration (VIV);

D O I：

10.13465/j.cnki.jvs.2018.17.035

中图分类号：

学科分类号：

摘要：

In order to study suppression effect of helical strakes on risers' VIV, model test method was used to conduct tests for VIV of 2-DOF risers including one bare riser and 3 risers with helical strakes of different pitches under different Reynolds numbers in a water channel. VIV differences among the bare riser and 3 risers with helical strakes were analyzed, and the effects of different helical pitches on risers' VIV were studied. Moreover, wake flows of these 4 risers during their VIV were observed with the tracer method. The results showed that helical strakes can disturb risers wake flows' vortex discharge to effectively suppress risers vibration responses in their transverse flow direction; compared to the bare riser, vibration responses in transverse flow direction of risers with helical strakes can be reduced by 70 percent, but their in-line vibration responses increase; the helical strake with a 9D pitch has the best suppressing effect on risers' VIV; Strouhal number of the bare riser is larger than those of risers with helical strakes under different Reynolds numbers. © 2018, Editorial Office of Journal of Vibration and Shock. All right reserved.

引用

页码：249 / 255

页数：6

共 22 条

[11] Zhou T., Rrzali S.F., Hao Z., Et al., On the study of vortex-induced vibration of a cylinder with helical strakes, Journal of Fluids and Structures, 27, pp. 903-917, (2011)
[12] Korkischko I., Meneghini J.R., Experimental investigation of flow-induced vibration on isolated and tandem circular cylinders fitted with strakes, Journal of Fluids and structures, 26, pp. 611-625, (2010)
[13] Korkischko I., Meneghini J.R., Suppression of vortex induced vibration using moving surface boundary-layer control, Journal of Fluids and Structures, 34, 3, pp. 259-270, (2012)
[14] Huang S., Sworn A., Hydrodynamic coefficients of two fixed circular cylinders fitted with helical strakes at various staggered and tandem arrangements, Applied Ocean Research, 43, pp. 21-26, (2013)
[15] Yuan J., Huang W., Ansys-CFD analysis on the flow field of Helical Strakes around riser, Ocean Engineering, 39, 4, pp. 151-155, (2010)
[16] Wang Z., Huang W., Yuan J., Et al., Numerical analysis on the Helical Strakes around riser, Journal of Petrochemical Universities, 24, 4, pp. 80-83, (2011)
[17] Zhai Y., Kang Z., Song R., Et al., Experiment research on vortex-induced vibration VIV suppression devices of deepwater risers, Ship Engineering, 1, pp. 86-91, (2016)
[18] Wang Y., Sun L., Wu Z., Numerical simulation on the effectiveness of the pitch of Helical Strakes in Suppressing VIV, Journal of Wuhan University of Technology (Transportation Science & Engineering), 39, 1, pp. 175-179, (2015)
[19] Wang Y., Yang J., Li X., Et al., Research on vortex-induced motions of a floating cylinder in uniform currents, China Offshore Platform, 25, 1, pp. 8-15, (2010)
[20] Lin T.K., Yu M.H., An experimental study on the cross-flow vibration of a flexible cylinder in cylinder arrays, Experimental Thermal and Fluid Science, 29, 2, pp. 523-536, (2005)

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