Flow-induced vibration energy, as a renewable and clean energy source, is anticipated to
play a crucial role in decarbonizing our future energy systems. Flow-induced vibration …

This study presents a high-efficiency gallo** energy harvester based on the non-rotational
bluff body with Transverse Force Disturbance (TFDEH), which utilizes asymmetric non …

Designing low-cost and simple harvesters to convert natural wind energy into electricity is
regarded as a promising method to realize the self-powering of node sensors in the Internet …

This study introduces an apple-shaped bluff body for wind energy harvesting, developed
through topology optimization, to significantly enhance energy conversion efficiency by …

One of current research focuses in wind energy harvester (WEH) design is improving electric
output in low-speed wind environments. A desired WEH should work efficiently and produce …

To enhance energy harvesting efficiency at low wind speeds, this study introduces a novel
gallo** piezoelectric energy harvester incorporating two V-shaped attachments inspired …

Specialized sensors in wireless networks monitor the environment with minimal power,
which is typically provided by batteries but it can also be powered with renewable sources …

It is a more meaningful research to collect the energy of low-frequency and low-speed
impact vibration (such as wave energy, wind energy, and tidal energy) to power …