Hee-Jin Ko scite author profile

A new piezoelectric energy harvester for harnessing energy from flow-induced vibration is developed. It converts flow energy into electrical energy by piezoelectric conversion with oscillation of a piezoelectric film. A finite element model is developed in order to estimate the generated voltage of the piezoelectric laminate subjected to a distributed load. Prototypes of the energy harvester are fabricated and tested. Experimental results show that an open circuit output voltage of 2.2 V pp and an instantaneous output power of 0.2 μW are generated when the excitation pressure oscillates with an amplitude of 1.196 kPa and a frequency of about 26 Hz. The solution of the generated voltage based on the finite element model agrees well with the experiments. Based on the finite element model, the effects of the piezoelectric film dimensions, the fluid pressure applied to the harvester and types of piezoelectric layer on the output voltage of the harvester can be investigated.

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Self-suspended shell-based triboelectric nanogenerator for omnidirectional wind-energy harvesting

Kwon

Bae

et al. 2022

Nano Energy

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Frequency Up-Conversion Hybrid Energy Harvester Combining Piezoelectric and Electromagnetic Transduction Mechanisms

Pyo

Kwon

et al. 2021

Int. J. of Precis. Eng. and Manuf.-Green Tech.

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Piezoelectric and electromagnetic hybrid energy harvester using two cantilevers for frequency up-conversion

Kwon

Kim

2017

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Curved flap array-based triboelectric self-powered sensor for omnidirectional monitoring of wind speed and direction

Kwon

Pyo

et al. 2022

Nano Energy

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Hee-Jin Ko

Piezoelectric energy harvesting from flow-induced vibration

Self-suspended shell-based triboelectric nanogenerator for omnidirectional wind-energy harvesting

Frequency Up-Conversion Hybrid Energy Harvester Combining Piezoelectric and Electromagnetic Transduction Mechanisms

Piezoelectric and electromagnetic hybrid energy harvester using two cantilevers for frequency up-conversion

Curved flap array-based triboelectric self-powered sensor for omnidirectional monitoring of wind speed and direction

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