LAPSE:2023.19487
Published Article
LAPSE:2023.19487
The Potential of Cylindrical Piezoelectric Transducers for High-Frequency Acoustic Energy Harvesting
March 9, 2023
Abstract
The work presented in this paper studies the potential of cylindrical piezoelectric transducers for harvesting high-frequency acoustic energy. The cylinder was made of a modified PZT (lead zirconate titanate) and had the shape of a squared cylinder with a side length of 4 cm and a wall thickness of 1 mm. The study used open-circuit measurements to study the relationship between the sound wavelength and the cylinder size and its effect on the performance of energy harvesting. The cylinder was found to give the best performance at a frequency of 20 kHz. In addition to open-circuit measurements, closed-circuit measurements were performed to demonstrate the ability to dissipate energy harvested from 20 kHz sound waves across an electric load. The load was designed in a series of experimental steps that aimed at optimizing an impedance-matched energy harvester. Finally, the cylinder was tested at the optimized load conditions, and it was possible to harvest and store energy with a power of 67.6 μW and harvesting efficiency of 86.1%.
The work presented in this paper studies the potential of cylindrical piezoelectric transducers for harvesting high-frequency acoustic energy. The cylinder was made of a modified PZT (lead zirconate titanate) and had the shape of a squared cylinder with a side length of 4 cm and a wall thickness of 1 mm. The study used open-circuit measurements to study the relationship between the sound wavelength and the cylinder size and its effect on the performance of energy harvesting. The cylinder was found to give the best performance at a frequency of 20 kHz. In addition to open-circuit measurements, closed-circuit measurements were performed to demonstrate the ability to dissipate energy harvested from 20 kHz sound waves across an electric load. The load was designed in a series of experimental steps that aimed at optimizing an impedance-matched energy harvester. Finally, the cylinder was tested at the optimized load conditions, and it was possible to harvest and store energy with a power of 67.6 μW and harvesting efficiency of 86.1%.
Record ID
Keywords
acoustic energy, cylinders, energy harvesting, high frequency, piezoelectric, smart materials
Subject
Suggested Citation
Salem S, Fraňa K, Nová I. The Potential of Cylindrical Piezoelectric Transducers for High-Frequency Acoustic Energy Harvesting. (2023). LAPSE:2023.19487
Author Affiliations
Salem S: Department of Power Engineering Equipment, Faculty of Mechanical Engineering, Technical University of Liberec, 461 17 Liberec, Czech Republic
Fraňa K: Department of Power Engineering Equipment, Faculty of Mechanical Engineering, Technical University of Liberec, 461 17 Liberec, Czech Republic [ORCID]
Nová I: Department of Technology, Faculty of Mechanical Engineering, Technical University of Liberec, 461 17 Liberec, Czech Republic
Fraňa K: Department of Power Engineering Equipment, Faculty of Mechanical Engineering, Technical University of Liberec, 461 17 Liberec, Czech Republic [ORCID]
Nová I: Department of Technology, Faculty of Mechanical Engineering, Technical University of Liberec, 461 17 Liberec, Czech Republic
Journal Name
Energies
Volume
14
Issue
18
First Page
5845
Year
2021
Publication Date
2021-09-15
ISSN
1996-1073
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Original Submission
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PII: en14185845, Publication Type: Journal Article
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LAPSE:2023.19487
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https://doi.org/10.3390/en14185845
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Mar 9, 2023
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