Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism
In this study, we propose an analytical approach based on the modified differential transform method to investigate the dynamic behavior of a plucking energy harvester. The harvester consists of a piezoelectric cantilever oscillator and a rotating plectrum. The analytical approach provides a closed-...
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sg-ntu-dr.10356-1717582023-11-11T16:48:42Z Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism Noh, Jinhong Bae, Sungryong Yoon, Yong-Jin Kim, Pilkee School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Piezoelectric Energy Harvester Mechanical Plucking Mechanism In this study, we propose an analytical approach based on the modified differential transform method to investigate the dynamic behavior of a plucking energy harvester. The harvester consists of a piezoelectric cantilever oscillator and a rotating plectrum. The analytical approach provides a closed-form solution that helps determine the starting and ending points of the contact phase between the piezoelectric cantilever and the plectrum. This analytical approach is valuable for simulating complex dynamic interferences in multiple or periodic plucking processes. To evaluate the effects of plucking speed and overlap length of the plectrum on single and periodic plucking, a series of simulations were carried out. The output voltage of the piezoelectric energy harvester increases as the overlap length of the plectrum increases. On the other hand, increasing the plucking speed tends to amplify the magnitude of the contact force while reducing the duration of the contact phase. Therefore, it is crucial to optimize the plucking speed to achieve the maximum linear impulse. For periodic plucking, successful synchronization between the motions of the piezoelectric energy harvester and the rotating plectrum must occur within a limited contact zone. Otherwise, dynamic interferences often cause the plectrum to fail to pluck the energy harvester exactly within the contact zone. Additionally, reducing the plucking speed of the plectrum and increasing the overlap length would be more advantageous for successful periodic-plucking energy harvesting. Published version This study was supported by research fund from Chosun University, 2019 (207896002). 2023-11-07T04:36:37Z 2023-11-07T04:36:37Z 2023 Journal Article Noh, J., Bae, S., Yoon, Y. & Kim, P. (2023). Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism. Sensors, 23(13), 5978-. https://dx.doi.org/10.3390/s23135978 1424-8220 https://hdl.handle.net/10356/171758 10.3390/s23135978 37447826 2-s2.0-85164846765 13 23 5978 en Sensors © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Mechanical engineering Piezoelectric Energy Harvester Mechanical Plucking Mechanism Noh, Jinhong Bae, Sungryong Yoon, Yong-Jin Kim, Pilkee Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| description |
In this study, we propose an analytical approach based on the modified differential transform method to investigate the dynamic behavior of a plucking energy harvester. The harvester consists of a piezoelectric cantilever oscillator and a rotating plectrum. The analytical approach provides a closed-form solution that helps determine the starting and ending points of the contact phase between the piezoelectric cantilever and the plectrum. This analytical approach is valuable for simulating complex dynamic interferences in multiple or periodic plucking processes. To evaluate the effects of plucking speed and overlap length of the plectrum on single and periodic plucking, a series of simulations were carried out. The output voltage of the piezoelectric energy harvester increases as the overlap length of the plectrum increases. On the other hand, increasing the plucking speed tends to amplify the magnitude of the contact force while reducing the duration of the contact phase. Therefore, it is crucial to optimize the plucking speed to achieve the maximum linear impulse. For periodic plucking, successful synchronization between the motions of the piezoelectric energy harvester and the rotating plectrum must occur within a limited contact zone. Otherwise, dynamic interferences often cause the plectrum to fail to pluck the energy harvester exactly within the contact zone. Additionally, reducing the plucking speed of the plectrum and increasing the overlap length would be more advantageous for successful periodic-plucking energy harvesting. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Noh, Jinhong Bae, Sungryong Yoon, Yong-Jin Kim, Pilkee |
| format |
Article |
| author |
Noh, Jinhong Bae, Sungryong Yoon, Yong-Jin Kim, Pilkee |
| author_sort |
Noh, Jinhong |
| title |
Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| title_short |
Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| title_full |
Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| title_fullStr |
Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| title_full_unstemmed |
Nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| title_sort |
nonlinear dynamic analysis of a piezoelectric energy harvester with mechanical plucking mechanism |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171758 |
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1783955637987704832 |