Multiphysics finite element model of a frequency-amplifying piezoelectric energy harvester with impact coupling for low-frequency vibrations
Dauksevicius, R.; Briand, D.; Vasquez Quintero, A.; Lockhart, R. A.; Janphuang, P.; de Rooij, N. F.; Ostasevicius, V.
2013

Résumé

This paper presents experimentally-verified multiphysics finite element model of a wideband vibration energy harvester with impact coupling, which operates on the principle of frequency up-conversion: under low-frequency harmonic base excitation a cantilever-type resonator (with resonant frequency of 18.8 Hz) impacts a high-frequency piezoelectric cantilever, which starts freely vibrate at its resonant frequency of 374 Hz. Such input frequency amplification enables efficient power generation under low-frequency ambient excitations. The model was implemented in COMSOL and the contact between the cantilevers was formulated by using a nonlinear viscoelastic model. Reported results of dynamical and electrical testing of the fabricated vibration energy harvester confirm the accuracy of the model as well as reveal some operational characteristics of the device under varying impact and excitation conditions.

Détails

Titre Multiphysics finite element model of a frequency-amplifying piezoelectric energy harvester with impact coupling for low-frequency vibrations
Auteur(s) Dauksevicius, R. ; Briand, D. ; Vasquez Quintero, A. ; Lockhart, R. A. ; Janphuang, P. ; de Rooij, N. F. ; Ostasevicius, V.
Publié dans The 13th International Conference On Micro And Nanotechnology For Power Generation And Energy Conversion Applications (Powermems 2013)
Pagination 5
Série Journal of Physics Conference Series
Volume 476
Présenté à The 13th International Conference on Micro- and Nano-Technology for Power Generation and Energy Conversion Applications (PowerMEMS)', u'13th International Conference on Micro- and Nano-Technology for Power Generation and Energy Conversion Applications (PowerMEMS)']
Date 2013
Editeur Bristol, Iop Publishing Ltd
DOI https://doi.org/10.1088/1742-6596/476/1/012090
Autres identifiant(s) Afficher la publication dans Web of Science
Laboratoires SAMLAB
Le document apparaît dans Production scientifique et compétences > STI - Faculté des sciences et techniques de l'ingénieur > STI Archives > SAMLAB - Laboratoire de capteurs, actuateurs et microsystèmes
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Publié
Date de création de la notice 2014-02-17