Laboratory Investigation of Helical Strakes With Serrated and Twisted Fins to Suppress VIV

Volume 2: CFD and FSI Pub Date : 2019-11-11 DOI:10.1115/omae2019-95129
G. Assi, Tommaso Crespi
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引用次数: 1

Abstract

Slender offshore structures of a cylindrical cross section, such as drilling and production risers, are susceptible to vortex-induced vibrations (VIV) when exposed to water currents. The present work presents an experimental investigation of the suppression of VIV of a circular cylinder by means of three different types of helical strakes: (i) a strake with continuous blades, (ii) a strake with serrated blades (or fins) and (iii) a strake with serrated blades individually twisted in relation to the incoming flow. By altering the blade geometry to produce the twisted-bladed strake, it was possible to keep the same level of suppression of the cross-flow vibration achieved by conventional strakes, but reducing drag in 15%. Experiments have been conducted in a recirculating water channel at moderate Reynolds numbers.
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带锯齿和扭曲鳍的螺旋条抑制VIV的实验室研究
细长的圆柱形截面海上结构,如钻井和生产隔水管,在暴露于水流中时容易受到涡激振动(VIV)的影响。本研究通过三种不同类型的螺旋条对圆柱涡激振动的抑制进行了实验研究:(i)连续叶片的条,(ii)锯齿叶片(或翅片)的条,以及(iii)锯齿叶片相对于来流单独扭曲的条。通过改变叶片的几何形状来产生扭曲的叶片条纹,可以保持与传统条纹相同的横流振动抑制水平,但可以减少15%的阻力。在中等雷诺数的循环水通道中进行了实验。
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Volume 2: CFD and FSI
Volume 2: CFD and FSI
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