Breathing cylindrical piezoelectric energy harvesters

2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA) Pub Date : 2011-12-01 DOI:10.1109/SPAWDA.2011.6167299

Zheng Rao, Hua Li, H. Tzou

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引用次数: 4

Abstract

A breathing piezoelectric energy harvester (BPEH) is proposed and evaluated in this paper. A thin cylindrical shell is chosen as the substructure of energy harvester. Based on the Kirchhoff-Love thin shell theory and the direct piezoelectric effect, electro-mechanical coupling mechanism is formulated. An equivalent energy harvester circuit is obtained. It clearly reveals the link between the piezoelectric sensing theory in open circuit and the energy harvesting theory in close circuit. Then, distributed modal power is obtained by using the modal expansion method. To evaluate the effect of model design parameters to energy harvesting, a harmonic excitation, which is able to induce breathing modes, is imposed to the shell model. The optimal equivalent resistance is obtained and it is closely related to the inner impedance of piezoelectric patch. Power generations with respect to the size and location of piezoelectric harvester patch are evaluated, and the optimal location is obtained. All these parametric analysis can be utilized to improve efficient design of piezoelectric energy harvesting.

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呼吸圆柱形压电能量收集器

提出并评价了一种呼吸式压电能量采集器(BPEH)。能量采集器的下部结构选用薄圆柱壳。基于Kirchhoff-Love薄壳理论和直接压电效应，建立了电-机械耦合机理。得到了等效能量采集器电路。清晰地揭示了开路压电传感理论与闭路能量收集理论之间的联系。然后，利用模态展开法得到了分布模态幂。为了评估模型设计参数对能量收集的影响，在壳体模型上施加能诱导呼吸模式的谐波激励。得到了最优等效电阻，该等效电阻与压电片的内阻抗密切相关。计算了压电集束片尺寸和位置对发电功率的影响，得到了集束片的最优位置。所有这些参数分析都可以用来提高压电能量收集的有效设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA)

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