Recent studies of passive and active flow control devices for suppressing vortex-induced
vibration (VIV) of circular cylinders are reviewed extensively. The passive control devices …

The tandem two-cylinder configuration is frequently employed in engineering structures. Its
fluid force and vortex shedding are significantly greater than those of widely studied single …

The flow-induced vibration (FIV) of twin structures always experiences significantly larger
vibration amplitude than that of a single one, which causes severe structural safety …

The current article is a numerical investigation into the energy harvesting characteristics of
the turbulent vortex-induced vibration (VIV) of three sprung circular cylinders located at the …

In this work, the control of vortex-induced vibration (VIV) of an elastically mounted cylinder
with a pair of porous rods is numerically investigated at a Reynolds number of 150. To …

The present study numerically explores vortex-induced vibration (VIV) and convective heat
transfer around a sprung cylinder under influence of the uniform streamwise and transverse …

The efficacy of active control of flow-induced vibrations in the turbulent flow around a sprung
cylinder using time delay estimation based intelligent proportional-integral-derivative (TDE …

This study investigates the drag reduction of two tandem square cylinders under steady
suction control at Reynolds numbers 50–200. The position where the suction flow should be …

The flow passing a circular cylinder can trigger flow-induced vibrations such as the vortex-
induced vibration. In this paper, the authors investigated an active method to control the …

Vortex-induced Vibration (VIV) responses of the three-dimensional cylinders inspired by
Terebridae are numerically investigated at the Reynolds number ranges of 0.8× 10 4≤ Re≤ …