蜂鸟启发的超低频双振子协同压电能量收集器

IF 7.9 1区 工程技术 Q1 ENGINEERING, MECHANICAL Mechanical Systems and Signal Processing Pub Date : 2024-11-12 DOI:10.1016/j.ymssp.2024.112132
Yingying Fan, Xin Liu, Dong F. Wang
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引用次数: 0

摘要

针对超低频场景提出了振动协同能量收集的新概念。受蜂鸟的启发,设计了一种双振子协同压电能量收集器(DOS-PEH),从理论和实验两方面展示了这一新概念。模仿蜂鸟肌肉和翅膀的协同机制,DOS-PEH 采用一个支撑振荡器(SO)和一个被指定为主导振荡器(DO)的弯曲梁,通过磁耦合协同振动。支撑振荡器在梁中跨产生类似铰链的支撑结构,支配振荡器通过这种结构表现出三个稳定的平衡位置,同时具有四个稳定的平衡状态,其中包括两个第二屈曲模式,可降低折断力,从而促进快穿振荡。SO 引入的非接触磁力是连接双振荡器的纽带。它使振动从周围环境开始,通过 SO 并最终传递到 DO。在 0.4 g 的激励下,新的带宽从 2.5 Hz 扩展到 10 Hz,达到 7.5 Hz。总体而言,DOS-PEH 在超低频范围内实现了宽带、稳定和逐步改善的电压输出。此外,DOS-PEH 的输出电压比基于碰撞的压电能量收集器(C-PEH)高出约 70 倍,工作带宽拓宽至 136%。这凸显了协同振动对超低频率能量收集的贡献。
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A hummingbird-inspired dual-oscillator synergized piezoelectric energy harvester for ultra-low frequency
A new concept of vibration synergized energy harvesting is proposed for ultra-low frequency scenarios. A dual-oscillator synergized piezoelectric energy harvester (DOS-PEH), inspired by hummingbirds, is designed to demonstrate the new concept, both theoretically and experimentally. Mimicking the synergy mechanism of hummingbird muscles and wings, the DOS-PEH adopts a supporting oscillator (SO) and a buckled beam designated as the dominating oscillator (DO) to synergize the vibrations through magnetic coupling. SO engenders a hinge-support-like configuration at the beam midspan, by which DO exhibits three stable equilibrium positions while taking on four stable equilibrium states, including two second buckling modes that lower snapping force to facilitate snap-through oscillations. The non-contact magnetic force, introduced by SO, acts as a link that cohesively connects the dual oscillators. It enables continuous vibration transmission from the ambient environment, through SO, and ultimately to DO. A fresh bandwidth, extending from 2.5 to 10 Hz, of 7.5 Hz emerges under 0.4 g excitation. The DOS-PEH, in general, achieves the broadband, stable, and progressively improving voltage output across the ultra-low frequency range. Further, the output voltage of the DOS-PEH is about 70 times higher than that of the collision-based piezoelectric energy harvester (C-PEH), and the operational bandwidth is broadened to 136 %. It highlights the contribution of synergistic vibration to the ultra-low-frequency energy harvesting.
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来源期刊
Mechanical Systems and Signal Processing
Mechanical Systems and Signal Processing 工程技术-工程:机械
CiteScore
14.80
自引率
13.10%
发文量
1183
审稿时长
5.4 months
期刊介绍: Journal Name: Mechanical Systems and Signal Processing (MSSP) Interdisciplinary Focus: Mechanical, Aerospace, and Civil Engineering Purpose:Reporting scientific advancements of the highest quality Arising from new techniques in sensing, instrumentation, signal processing, modelling, and control of dynamic systems
期刊最新文献
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