Analysis of the Interference in Typical Rotational Plucking Energy Harvester
Refereed conference paper presented and published in conference proceedings


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AbstractRecent researchers have focused on scavenging energy from ambient vibrations or movements by using piezoelectric energy harvesters. Rotary movements are regarded as potential energy resources as they can be utilized in windmills or turnstile gates in stations. This study aims to study the vibrational interference that could occur in the typical rotational plucking energy harvester with circularly distributed plectra on the outer ring plucking on the circular array of multiple piezoelectric cantilevers on the inner hub. In this structure, the plucking frequency will be increased to times of the input rotational frequency since multiple plectra will participate in the deflection of each piezoelectric cantilever for one rotational cycle. A model is established based on the Hamilton’s principle for the basic electromechanical part and the Hertzian contact theory for the solution of plucking force. Based on the developed model, the simulation results of the system responses of the rotational plucking energy harvester (RPEH) in a wide rotational frequency range reveal that the system may be suppressed by the vibrational interference such that the energy output is restricted as the rotational frequency is increased. The induced plucking force has also been plotted to reproduce the dynamic contact process and investigate the variation of the force amplitude with rotational frequency. An overall investigation of the energy harvesting performance also indicates the influence of the vibrational interference on the RPEH structure.
All Author(s) ListShitong Fang, Xinlei Fu, Wei-Hsin Liao
Name of ConferenceConference on Active and Passive Smart Structures and Integrated Systems XII
Start Date of Conference04/03/2019
End Date of Conference07/03/2019
Place of ConferenceDenver
Country/Region of ConferenceUnited States of America
Proceedings TitleProceedings of SPIE 10967, Active and Passive Smart Structures and Integrated Systems XII
Year2019
Month3
Volume Number10967
Article number1096727
Pages1096727-1 - 1096727-8
ISSN0277-786X
LanguagesEnglish-United Kingdom
Keywordsrotary movement, plucking effect, vibrational interference, high rotational frequency

Last updated on 2020-30-06 at 01:46