Vibration Energy Harvesting from Plates by Means of Piezoelectric Dynamic Vibration Absorbers

Author:

Tonan Michele1ORCID,Pasetto Alberto1ORCID,Doria Alberto1ORCID

Affiliation:

1. Department of Industrial Engineering, University of Padova, 35131 Padova, Italy

Abstract

In this paper, the possibility of harvesting energy from the vibrations of a plate is analyzed. The harvester takes the form of a cantilever dynamic vibration absorber equipped with a piezoelectric layer and tuned by means of a tip mass to the first mode of vibration of the plate. A mathematical model of the coupled system composed of the plate and the harvester is presented. The validity of the proposed harvester is proved by means of simulations carried out with the modal expansions approach. Simulation results highlighting the effects of harvester tuning and location are presented as well. Then, the validity of the harvester is confirmed by experimental tests carried out both with a concentrated impulsive load and with a distributed pressure load. Simulations and experimental tests are performed on the cantilever piezoelectric dynamic vibration absorber and on the same piezoelectric layer directly bonded to the plate surface. Results show an improvement in terms of generated voltage when the proposed novel device is used in place of the simple layer.

Publisher

MDPI AG

Reference39 articles.

1. On mechanical modeling of cantilevered piezoelectric vibration energy harvesters;Erturk;J. Intell. Mater. Syst. Struct.,2008

2. A Self-Powered Synchronous Switch Energy Extraction Circuit for Electromagnetic Energy Harvesting Enhancement;Xie;IEEE Trans. Power Electron.,2023

3. Modeling and analysis of dual modules cantilever-based electrostatic energy harvester with stoppers;Chen;Appl. Math. Model.,2023

4. An Integrated Solar Panel with a Triboelectric Nanogenerator Array for Synergistic Harvesting of Raindrop and Solar Energy;Ye;Adv. Mater.,2023

5. Magnetically circular layers triboelectric nanogenerators (MCL-TENG) for velocity sensing and damage detection;Jiao;Sustain. Energy Technol. Assess.,2022

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