Abstract
Cylindrical triboelectric nanogenerators (C-TENGs) have been designed for low frequency wave energy harvesting. However, the random, and low amplitude and frequency of the ocean waves represent a major challenge for the operation and performance of most C-TENGs. A C-TENG must be able to operate and be triggered by any wave conditions, even in the middle of the ocean, with uniform, low amplitude, and low frequency water waves. Here, a frequency-multiplied cylindrical TENG (FMC-TENG) that uses magnets to store potential energy and instantly release it to produce high frequency kinetic energy, was designed to increase the operating frequency of the TENG using low frequency, uniform water waves and increase the power generated. A semi-analytical modeling of the FMC-TENG was performed to theoretically verify its effectiveness. Then, the electrical characteristics of the FMC-TENG were evaluated by comparison with a conventional C-TENG in a wave motion simulator. The FMC-TENG was optimized in a 12 m long water tank, and its peak power density reached 6.67 W/m3 under a wave frequency of 0.33 Hz. Finally, an array of FMC-TENGs successfully powered an acoustic transmitter, demonstrating the ability to power an ocean observation system.
Accepted Version (
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Published Version
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