Reverse wake-induced vibration (RWIV) of two tandem cylinders with the downstream one
fixed is numerically studied in this paper; Reynolds number is set as 150 (Re= 150). The …

The current study explores the potential for energy harvesting arising from vortex-induced
and wake-induced vibrations of two circular cylinders. These cylinders are elastically …

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 …

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 applies deep reinforcement learning (DRL) to reduce lift forces on a circular
object in the wake of another. The proximal policy optimization (PPO) method is utilized to …

A numerical investigation is performed on the flow-induced vibrations (FIVs) of two coupled
cylinders with various cross-sections and their performance on power scavenging. The …

When exposed to fluid flow, elastically supported multiple square cylinders may experience
either one or a combination of vortex-induced vibration, galloping, and wake-induced …

Purpose This study aims to numerically explore the heat transfer characteristics in turbulent
two-degree-of-freedom vortex-induced vibrations (VIVs) of three elastically mounted circular …

This study examines the effect of different wall temperatures on the vortex-induced vibration
(VIV) of a circular cylinder under thermal buoyancy. It addresses a notable research gap by …