Details

Autor(en) / Beteiligte

• Chen, Wen-Li
• Xin, Da-Bo
• Xu, Feng
• Li, Hui
• Ou, Jin-Ping
• Hu, Hui

Titel

Suppression of vortex-induced vibration of a circular cylinder using suction-based flow control

Ist Teil von

• Journal of fluids and structures, 2013-10, Vol.42, p.25-39

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2013

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• In the present study, a flow control method is employed to mitigate vortex-induced vibration (VIV) of a circular cylinder by using a suction flow method. The VIV of a circular cylinder was first reproduced in a wind tunnel by using a spring–mass system. The time evolution of the cylinder oscillation and the time histograms of the surface pressures of 119 taps in four sections of the circular cylinder model were measured during the wind tunnel experiments. Four steady suction flow rates were used to investigate the effectiveness of the suction control method to suppress VIV of the circular cylinder. The vibration responses, the mean and fluctuating pressure coefficients, and the resultant aerodynamic force coefficients of the circular cylinder under the suction flow control are analyzed. The measurement results indicate clearly that the steady suction flow control method exhibits excellent control effectiveness and can distinctly suppress the VIV by dramatically reducing the amplitudes of cylinder vibrations, fluctuating pressure coefficients and lift coefficients of the circular cylinder model. By comparing the test cases with different suction flow rates, it is found that there exists an optimal suction flow rate for the maximum VIV control. The cases with higher suction flow rates do not necessarily behave better than those with lower suction flow rates. With the experimental setting used in the present study, the suction flow control method is found to behave better for VIV suppression when the ratio of the suction flow velocity to the oncoming flow velocity is less than one. •Experimental study of VIVs with a steady suction flow control system was conducted.•Steady suction exhibits good control effectiveness and can distinctly suppress VIV.•There exists an optimal suction flow rate for the maximum VIV control.•Steady suction behaves better for VIV suppression with velocity ratio less than one.