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An investigation of the dynamic behaviour of two rigid cylinders in a tandem arrangement under vortex-induced vibration

Noor Idora Mohd Sukarnoor, Lee Kee Quen, Aminudin Abu, Hooi Siang Kang, Noriyuki Kuwano, Safari Mat Desa

2022Journal of Ocean Engineering and Science17 citationsDOIOpen Access PDF

Abstract

The flow interference of multiple cylinders subjected to vortex-induced vibration (VIV) is a complex response that is not fully understood. This paper investigates the fluid-dynamic behaviour of elastically mounted rigid cylinders where both cylinders were free to oscillate in the cross-flow direction. The cylinders were subjected to uniform water flow at various separation distances of 3.5, 4.0, and 4.5D (D is the diameter of the cylinder) in a tandem arrangement. Based on the observation, the interference between the cylinders and the unsteady wake from the leading cylinder caused a continuous vibration with no lower branch in amplitude response. While as found in the cases of the single cylinder, there was a lower branch in amplitude response. The results also revealed that the cylinders experienced the VIV and wake-induced vibration (WIV) at each separation distance. Moreover, the leading cylinder oscillated at a larger amplitude at a separation distance of 3.5D, indicating a critical distance for cylinders in the tandem arrangement due to the existence of a bistable regime. Hence, it is reasonable to conclude that the flow interference between the leading and trailing cylinders significantly impacts the cylinders’ dynamic behaviour.

Topics & Concepts

WakeCylinderVibrationVortex-induced vibrationVortex sheddingAmplitudeMechanicsVortexBistabilityFlow (mathematics)PhysicsInterference (communication)Kármán vortex streetMaterials scienceAcousticsGeometryOpticsMathematicsReynolds numberTurbulenceEngineeringTelecommunicationsChannel (broadcasting)Quantum mechanicsFluid Dynamics and Vibration AnalysisWind and Air Flow StudiesVibration and Dynamic Analysis
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