Enhanced Quarter Spherical Acoustic Energy Harvester Based on Dual Helmholtz Resonators

Abstract: An enhanced quarter-spherical acoustic energy harvester (AEH) with dual Helmholtz resonators was designed in this work. Compared with the previous research, this AEH can harvest multi-directional acoustic energy, has a widened resonance frequency band, and has an improved energy conversion efficiency. When the length of resonator’s neck is changed, the acoustic resonant frequency of the two resonators is different. The theoretical models of output voltage and output power were studied, and the relationship of … Show more

“…[5,6] These include tapered neck resonators, [7] planar resonators, [8] and enhanced quarter spherical acoustic energy harvesters based on dual Helmholtz resonators. [9] On a larger scale, acoustoelastic "MetaWall" noise barriers [10] have been developed for industrial applications with simultaneous AEH. Similarly, elastic metastructures like phononic crystals (PCs) [11] have demonstrated energy harvesting, with common structures like gradient index (GRIN) and topological devices.…”

Transmissive Labyrinthine Acoustic Metamaterial‐Based Holography for Extraordinary Energy Harvesting

“…[5,6] These include tapered neck resonators, [7] planar resonators, [8] and enhanced quarter spherical acoustic energy harvesters based on dual Helmholtz resonators. [9] On a larger scale, acoustoelastic "MetaWall" noise barriers [10] have been developed for industrial applications with simultaneous AEH. Similarly, elastic metastructures like phononic crystals (PCs) [11] have demonstrated energy harvesting, with common structures like gradient index (GRIN) and topological devices.…”

Transmissive Labyrinthine Acoustic Metamaterial‐Based Holography for Extraordinary Energy Harvesting

Experimental Investigation on Acoustic Energy Conversion Using Single and Double PZT Film by Modified Resonator

Dual-band piezoelectric acoustic energy harvesting by structural and local resonances of Helmholtz metamaterial