In recent years, remarkable strides have been achieved in the advancement of
nanogenerators harnessing fluid-induced vibrations. This paper comprehensively …

Harnessing energy from concurrent wind flow and base vibration is a prospective method to
enable self-powered sensing in the circumstances where wind and base motion are …

Wireless sensor networks play a very important role in environmental monitoring, structural
health monitoring, smart city construction, smart grid, and ecological agriculture. The …

Energy harvesting by means of flow-induced vibrations (FIVs) enables continuous supply of
power to micro electromechanical systems. Furthermore, FIV is one of the most popular …

This study validates a novel structural reliability method, particularly suitable for high‐
dimensional green energy harvesting device dynamic systems, versus a well‐established …

We develop a high-fidelity multi-physics model and, by using it, study the energy conversion
process of a piezohydroelastic flag. Instead of a regular flag with a clamped upstream …

This paper examines the potential of bistable dual cantilever flutter (DCF) for wind energy
harvesting applications. Two cantilever beams were placed side by side and perpendicular …

To improve the efficiency of harvesting energy, a cut-corner prism piezoelectric energy
harvester based on galloping enhancement is designed in this study. Galloping is caused by …

Utilizing vortex-induced vibration piezoelectric energy harvesters (VPEHs) to capture wind
energy from the environment to power sensors is a prospective technique. Most of the …

Transverse vortex-induced vibration (VIV) of a two-dimensional, elliptic cylinder with various
aspect ratios and stiffness is studied. The cylinder is elastically mounted and heated, and the …