Vibration energy harvesting is a promising approach to provide wireless sensors and
portable electronics with sustainable power by converting ambient kinetic energy into …

Harvesting electrical energy from various human motions using piezoelectric energy
harvesters (PEH) is gaining research attention in recent years. The energy harvested could …

This work presents a control of stand-alone hybrid system including photovoltaic (PV), wind
turbine, fuel cell (PEMFC), storage systems and a dump load (in our case, an electrolyzer) …

A basic-configured electromagnetic energy harvester is proposed. It operates with varying
magnetic induction at the center of a coil. Two magnets are located stable at the center of a …

The features of the new designed and constructed harvester are examined. The harvested
power of three piezoelectric layers having different masses (ie different natural frequencies) …

Over the past few years, it has been established that vibration energy harvesters with
intentionally designed components can be used for frequency bandwidth enhancement …

A new piezoelectric wind energy harvester (PWEH) implementation and its power
conversion system design have been studied. The new PWEH is a portable, economic, easy …

This letter presents the idea of scavenging energy from vibrating structures through
magnetic shape memory alloy (MSMA). To this end, a MSMA specimen made of Ni 50 Mn 28 …

This paper introduces a novel approach to address the challenges faced by traditional
unidirectional cantilever-based energy harvesters in adapting to multi-directional vibration …

This study describes the design and analysis of an anti‐phase pendulum motion‐based
electromagnetic energy harvester. The proposed energy harvester consists of a magnet …