Harvesting vibration energy using piezoelectric material: Modeling, simulation and experimental verifications

M. N. Fakhzan; Asan G. A. Muthalif

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Harvesting vibration energy using piezoelectric material: Modeling, simulation and experimental verifications

机译：使用压电材料收集振动能：建模，仿真和实验验证

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Piezoelectric materials produce electrical charges when subjected to dynamic strain. These materials can be used to capture and store vibrational energy which later can be used to power up small devices. This paper presents an analytical estimation of voltage production of piezoelectric cantilever beam when subjected to base excitation, with and without attached proof masses. The beam is modeled using Euler-Bernoulli, also known as thin beam theory. As such, the model obtained here is applicable for micro- and nano-beams. The frequency response function (FRF) that relates the output voltage and transverse acceleration is identified for multi-mode vibration. These analytical predictions are then compared with experimental results and good agreement is obtained.

机译：压电材料在承受动态应变时会产生电荷。这些材料可用于捕获和存储振动能量，随后可用于为小型设备供电。本文介绍了在有和没有附加质量保证的情况下，压电悬臂梁在受到基础激励时产生的电压的分析估计。使用欧拉-伯努利（Euler-Bernoulli）对光束进行建模，也称为薄光束理论。因此，此处获得的模型适用于微束和纳米束。确定了与输出电压和横向加速度相关的频率响应函数（FRF），以进行多模式振动。然后将这些分析预测与实验结果进行比较，并获得良好的一致性。

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来源
《Mechatronics: The Science of Intelligent Machines》 |2013年第1期|共6页
作者
M. N. Fakhzan; Asan G. A. Muthalif;
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原文格式 PDF
正文语种 eng
中图分类一般性问题;
关键词
Piezoelectric; Unimorph; Energy harvester; Frequency response function; Proof mass;

机译：压电;Unimorph;能量采集器;频率响应函数;证明质量;

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专利

1. Harvesting vibration energy using piezoelectric material: Modeling, simulation and experimental verifications [J] . M. N. Fakhzan, Asan G. A. Muthalif Mechatronics: The Science of Intelligent Machines . 2013,第1期

机译：使用压电材料收集振动能：建模，仿真和实验验证
2. Modeling and experimental verification of doubly nonlinear magnet-coupled piezoelectric energy harvesting from ambient vibration [J] . Zhou Shengxi, Cao Junyi, Wang Wei, Smart Materials & Structures . 2015,第5期

机译：从环境振动中获取双非线性磁耦合压电能量的建模与实验验证
3. Optimal piezoelectric beam shape for single and broadband vibration energy harvesting: Modeling, simulation and experimental results [J] . Asan G.A. Muthalif, N.H. Diyana Nordin Mechanical systems and signal processing . 2015,第mara期

机译：用于单个和宽带振动能量收集的最佳压电梁形状：建模，仿真和实验结果
4. ELECTROELASTIC MODELING AND EXPERIMENTAL VALIDATION OF PIEZOELECTRIC ENERGY HARVESTING FROM BROADBAND RANDOM VIBRATIONS [C] . Sihong Zhao, Alper Erturk ASME conference on smart materials, adaptive structures and intelligent systems . 2013

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5. Modeling and Tuning for Vibration Energy Harvesting using a Piezoelectric Bimorph [D] . Cao, Yongqing 2011

机译：使用压电双压电晶片的振动能量收集建模与优化
6. Modeling of a Rope-Driven Piezoelectric Vibration Energy Harvester for Low-Frequency and Wideband Energy Harvesting [O] . Jinhui Zhang, Maoyu Lin, Wei Zhou, 2021

机译：绳索驱动压电振动能量收割机的建模低频和宽带能量收获
7. Simulation and Experimental Verification of a Bimorph Beam Piezoelectric Energy Harvesting Devices [O] . Siyang Zhang, Yexin Chen 2018

机译：双压光束压电能量收集装置的模拟与实验验证

Harvesting vibration energy using piezoelectric material: Modeling, simulation and experimental verifications

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