Low-Wind-Speed Galloping Wind Energy Harvester Based on a W-Shaped Bluff Body

Abstract: Galloping-based piezoelectric energy harvesting systems are being used to supply renewable electricity for low-power wireless sensor network nodes. In this paper, a W-shaped bluff body is proposed as the core component of a piezoelectric wind energy harvester. Experiments and simulations have shown that the W-shaped bluff body can improve harvesting efficiency at low wind speeds. For the W-shaped structure, the finite element simulation results indicate that the structure can help improve the aerodynamic perfo… Show more

“…Furthermore, research [8,9] shows that adding a stream splitter favors power generation. The studies [10][11][12] have also demonstrated the benefits of employing non-typical shapes. According to the reports presented in [13][14][15][16], the efficiency of a GEH can also be increased by giving its surface an appropriate geometric metastructure.…”

On Efficiency of Two-Degree-of-Freedom Galloping Energy Harvesters with Two Transducers

“…Furthermore, research [8,9] shows that adding a stream splitter favors power generation. The studies [10][11][12] have also demonstrated the benefits of employing non-typical shapes. According to the reports presented in [13][14][15][16], the efficiency of a GEH can also be increased by giving its surface an appropriate geometric metastructure.…”

On Efficiency of Two-Degree-of-Freedom Galloping Energy Harvesters with Two Transducers

Enhancing piezoelectric energy harvesting from the flow-induced vibration of an apple-shaped bluff body based on topology optimization

Modelling and harnessing energy from flow-induced vibration, particularly VIV and galloping: An explicit review