With the rapid development of wireless sensor networks, medical equipment, and
microelectromechanical systems, providing clean and self-sustained energy for these …

In this paper, the currently popular flow-induced vibrations energy harvesting technologies
are reviewed, including numerical and experimental endeavors, and some existing or …

From last few decades, piezoelectric materials have played a vital role as a mechanism of
energy harvesting, as they have the tendency to absorb energy from the environment and …

The phenomenon of amplitude jump usually means the presence of multi-solution ranges
and unstable periodic solutions, which has not been fully explored in the field of vortex …

In this paper, a hybrid piezoelectric-electromagnetic energy harvester is proposed to harvest
energy from fluid flow around a bluff-body using vortex-induced vibration (VIV). The hybrid …

From the last few decades, the piezoelectric materials are playing a vital role in the field of
aerospace engineering. One of the major factors to reduce an aircraft's malfunctioning is its …

In this paper, the complexification-averaging method is firstly used to derive the theoretical
solutions and analyze the dynamical performance of the energy harvesters under galloping …

This paper proposes a novel vortex-induced vibration piezoelectric energy harvester
attached to two asymmetrical splitter plates (VIVPEH-S), which aims at converting the …

Fluid-structure interaction can be utilized to harvest the low-speed wind energy for
sustaining the low-power sensors for structural health monitoring. To enhance the low …

This paper investigates a dynamic model and behavior of a novel double-beam piezo–
magneto–elastic nonlinear wind energy harvester (DBPME-WEH). The DBPME-WEH is a …