Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method
This paper presents a novel wide-bandwidth triboelectric energy harvester (WBTEH) that takes advantage of impact nonlinearity and multi-resonance. The harvester features a triboelectric transducer that operates in contact and separation mode, with two cantilever beams of different resonant frequenci...
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sg-ntu-dr.10356-1709102023-10-06T15:33:20Z Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method Zhao, Chaoyang Hu, Guobiao Li, Xin Liu, Zicheng Yuan, Weifeng Yang, Yaowen School of Civil and Environmental Engineering Engineering::Civil engineering Triboelectric Wide Bandwidth This paper presents a novel wide-bandwidth triboelectric energy harvester (WBTEH) that takes advantage of impact nonlinearity and multi-resonance. The harvester features a triboelectric transducer that operates in contact and separation mode, with two cantilever beams of different resonant frequencies connected to it. By exploiting the relative motion of the beams, the harvester achieves a broad bandwidth through the resonance shift caused by the impact and multi-resonance. A WBTEH prototype with a 3 mm gap between the triboelectric pair shows a total bandwidth of 4.3 Hz even at a low base excitation of 3 m/s2. The matched peaks and bandwidth in the frequency up-sweep and down-sweep tests demonstrate the excellent stability of the WBTEH. The frequency locking phenomenon with strong resonance occurs in the WBTEH when the displacement amplitude/gap ratio exceeds 1.48, which is beneficial for obtaining a continuous bandwidth and a high power output. An electromechanical model is formulated for parametric studies that investigate the effects of contact stiffness and damping on the performance of WBTEH. It is found that large impact stiffness and small damping can cause quasi-periodic motion, leading to a non-constant voltage output that should be prevented in the harvester design. The WBTEH is capable of powering wireless sensors, making it a potential candidate for Internet of Things (IoT) applications. Submitted/Accepted version 2023-10-06T06:46:27Z 2023-10-06T06:46:27Z 2023 Journal Article Zhao, C., Hu, G., Li, X., Liu, Z., Yuan, W. & Yang, Y. (2023). Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method. Applied Energy, 348, 121530-. https://dx.doi.org/10.1016/j.apenergy.2023.121530 0306-2619 https://hdl.handle.net/10356/170910 10.1016/j.apenergy.2023.121530 2-s2.0-85165571124 348 121530 en Applied Energy © 2023 Elsevier Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.apenergy.2023.121530. application/pdf |
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Engineering::Civil engineering Triboelectric Wide Bandwidth Zhao, Chaoyang Hu, Guobiao Li, Xin Liu, Zicheng Yuan, Weifeng Yang, Yaowen Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| description |
This paper presents a novel wide-bandwidth triboelectric energy harvester (WBTEH) that takes advantage of impact nonlinearity and multi-resonance. The harvester features a triboelectric transducer that operates in contact and separation mode, with two cantilever beams of different resonant frequencies connected to it. By exploiting the relative motion of the beams, the harvester achieves a broad bandwidth through the resonance shift caused by the impact and multi-resonance. A WBTEH prototype with a 3 mm gap between the triboelectric pair shows a total bandwidth of 4.3 Hz even at a low base excitation of 3 m/s2. The matched peaks and bandwidth in the frequency up-sweep and down-sweep tests demonstrate the excellent stability of the WBTEH. The frequency locking phenomenon with strong resonance occurs in the WBTEH when the displacement amplitude/gap ratio exceeds 1.48, which is beneficial for obtaining a continuous bandwidth and a high power output. An electromechanical model is formulated for parametric studies that investigate the effects of contact stiffness and damping on the performance of WBTEH. It is found that large impact stiffness and small damping can cause quasi-periodic motion, leading to a non-constant voltage output that should be prevented in the harvester design. The WBTEH is capable of powering wireless sensors, making it a potential candidate for Internet of Things (IoT) applications. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhao, Chaoyang Hu, Guobiao Li, Xin Liu, Zicheng Yuan, Weifeng Yang, Yaowen |
| format |
Article |
| author |
Zhao, Chaoyang Hu, Guobiao Li, Xin Liu, Zicheng Yuan, Weifeng Yang, Yaowen |
| author_sort |
Zhao, Chaoyang |
| title |
Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| title_short |
Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| title_full |
Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| title_fullStr |
Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| title_full_unstemmed |
Wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| title_sort |
wide-bandwidth triboelectric energy harvester combining impact nonlinearity and multi-resonance method |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170910 |
| _version_ |
1779171101450960896 |