Synchronized charge extraction for aeroelastic energy harvesting
Aeroelastic instabilities have been frequently exploited for energy harvesting purpose to power standalone electronic systems, such as wireless sensors. Meanwhile, various energy harvesting interface circuits, such as synchronized charge extraction (SCE) and synchronized switching harvesting on indu...
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sg-ntu-dr.10356-1039032020-03-07T11:43:28Z Synchronized charge extraction for aeroelastic energy harvesting Zhao, Liya Tang, Lihua Wu, Hao Yang, Yaowen Liao, Wei-Hsin School of Civil and Environmental Engineering Active and Passive Smart Structures and Integrated Systems (2014 : San Diego, California, USA) DRNTU::Engineering::Civil engineering Aeroelastic instabilities have been frequently exploited for energy harvesting purpose to power standalone electronic systems, such as wireless sensors. Meanwhile, various energy harvesting interface circuits, such as synchronized charge extraction (SCE) and synchronized switching harvesting on inductor (SSHI), have been widely pursued in the literature for efficiency enhancement of energy harvesting from existing base vibrations. These interfaces, however, have not been applied for aeroelastic energy harvesting. This paper investigates the feasibility of the SCE interface in galloping-based piezoelectric energy harvesting, with a focus on its benefit for performance improvement and influence on the galloping dynamics in different electromechanical coupling regimes. A galloping-based piezoelectric energy harvester (GPEH) is prototyped with an aluminum cantilever bonded with a piezoelectric sheet. Wind tunnel test is conducted with a simple electrical interface composed of a resistive load. Circuit simulation is performed with equivalent circuit representation of the GPEH system and confirmed by experimental results. Consequently, a self-powered SCE interface is implemented with the capability of self peak-detecting and switching. Circuit simulation for various electromechanical coupling cases shows that the harvested power with SCE interface for GPEH is independent of the electrical load, similar to that for a vibration-based piezoelectric energy harvester (VPEH). The SCE interface outperforms the standard interface if the electromechanical coupling is weak, and requires much less piezoelectric material to achieve the maximum power output. Moreover, influence of electromechanical coupling on the dynamics of GPEH with SCE is found sensitive to the wind speed. Published version 2014-07-03T03:19:11Z 2019-12-06T21:22:43Z 2014-07-03T03:19:11Z 2019-12-06T21:22:43Z 2014 2014 Conference Paper Zhao, L., Tang, L., Wu, H., & Yang, Y. (2014). Synchronized charge extraction for aeroelastic energy harvesting. SPIE Proceedings, 9057, 90570N-. https://hdl.handle.net/10356/103903 http://hdl.handle.net/10220/20036 10.1117/12.2044993 en © 2014 SPIE. This paper was published in SPIE Proceedings and is made available as an electronic reprint (preprint) with permission of SPIE. The paper can be found at the following official DOI: http://dx.doi.org/10.1117/12.2044993. One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. application/pdf |
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DRNTU::Engineering::Civil engineering Zhao, Liya Tang, Lihua Wu, Hao Yang, Yaowen Synchronized charge extraction for aeroelastic energy harvesting |
| description |
Aeroelastic instabilities have been frequently exploited for energy harvesting purpose to power standalone electronic systems, such as wireless sensors. Meanwhile, various energy harvesting interface circuits, such as synchronized charge extraction (SCE) and synchronized switching harvesting on inductor (SSHI), have been widely pursued in the literature for efficiency enhancement of energy harvesting from existing base vibrations. These interfaces, however, have not been applied for aeroelastic energy harvesting. This paper investigates the feasibility of the SCE interface in galloping-based piezoelectric energy harvesting, with a focus on its benefit for performance improvement and influence on the galloping dynamics in different electromechanical coupling regimes. A galloping-based piezoelectric energy harvester (GPEH) is prototyped with an aluminum cantilever bonded with a piezoelectric sheet. Wind tunnel test is conducted with a simple electrical interface composed of a resistive load. Circuit simulation is performed with equivalent circuit representation of the GPEH system and confirmed by experimental results. Consequently, a self-powered SCE interface is implemented with the capability of self peak-detecting and switching. Circuit simulation for various electromechanical coupling cases shows that the harvested power with SCE interface for GPEH is independent of the electrical load, similar to that for a vibration-based piezoelectric energy harvester (VPEH). The SCE interface outperforms the standard interface if the electromechanical coupling is weak, and requires much less piezoelectric material to achieve the maximum power output. Moreover, influence of electromechanical coupling on the dynamics of GPEH with SCE is found sensitive to the wind speed. |
| author2 |
Liao, Wei-Hsin |
| author_facet |
Liao, Wei-Hsin Zhao, Liya Tang, Lihua Wu, Hao Yang, Yaowen |
| format |
Conference or Workshop Item |
| author |
Zhao, Liya Tang, Lihua Wu, Hao Yang, Yaowen |
| author_sort |
Zhao, Liya |
| title |
Synchronized charge extraction for aeroelastic energy harvesting |
| title_short |
Synchronized charge extraction for aeroelastic energy harvesting |
| title_full |
Synchronized charge extraction for aeroelastic energy harvesting |
| title_fullStr |
Synchronized charge extraction for aeroelastic energy harvesting |
| title_full_unstemmed |
Synchronized charge extraction for aeroelastic energy harvesting |
| title_sort |
synchronized charge extraction for aeroelastic energy harvesting |
| publishDate |
2014 |
| url |
https://hdl.handle.net/10356/103903 http://hdl.handle.net/10220/20036 |
| _version_ |
1681041160226734080 |