Chongqiu Yang scite author profile

This paper presents a detailed investigation on an asymmetric magnetic-coupled bending-torsion piezoelectric energy harvester based on harmonic excitation. There is an eccentricity between the shape center of moving magnets and the axis of the piezoelectric beam, which results in the bending and torsion simultaneously in working condition. The distributed mathematical model is derived from the energy method to describe the dynamic characteristics of the harvester, and the correctness of the model is verified by experiments. To further demonstrate the improvement performance of the proposed energy harvester, the bending-torsion energy harvester (i.e. magnetic-coupled was not configured) is experimented and compared. The theoretical and experimental results indicate that the average power increases about 300% but the resonance frequency decreases approximately 2 Hz comparing to the harvester without magnetic-coupled. According to the characteristic of distributed parameter model, the magnetic force and the size of the piezoelectric beam are investigated respectively. And the lumped-parameter model is introduced to analyze the steady-state characteristic. Accordingly, this paper provides a feasible method to improve performance for piezoelectric energy harvester.

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Titanium wire drawing with longitudinal-torsional composite ultrasonic vibration

Yang

Shan

Xie

2015

Int J Adv Manuf Technol

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A new piezoelectric ceramic longitudinal–torsional composite ultrasonic vibrator for wire drawing

Yang

Shan

Xie

2015

Ceramics International

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A broadband piezo-electromagnetic hybrid energy harvester under combined vortex-induced and base excitations

Hou

Shan

et al. 2022

Mechanical Systems and Signal Processing

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Modeling and experimental investigation of magnetically coupling bending-torsion piezoelectric energy harvester based on vortex-induced vibration

Sui

Zhang

Yang

et al. 2021

Journal of Intelligent Material Systems and Structures

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This paper presents a magnetically coupling bending-torsion piezoelectric energy harvester based on vortex-induced vibration from low-speed wind. The theoretical model of the energy harvester was formulated and validated by wind tunnel experiments. Numerical and experimental results showed that the power output and bandwidth of the proposed harvester are improved about 180% and 230% respectively compared with the nonmagnetic coupling harvester. Furthermore, the effects of cylinder, piezoelectric layer, load resistance, and magnetic nonlinear parameters on the harvester were investigated based on the distributed parameter model. The results showed that the length of cylinder hardly affect output power, but the diameter of cylinder presented complicated influences. The width of piezoelectric beam was negatively correlated with the torsion angle. With increasing the length of piezoelectric layer, an optimal wind velocity and load resistance can be obtained for the maximum output power. With decreasing of the distance between two magnets, the resonant bandwidth, the optimal power output, and torsion angle can be enhanced, respectively. Besides, the magnetic potential energy increased owing to the magnetically coupling, which led to the improvement of onset speed for the energy harvester. This study provides a guideline on improving the performance of bending-torsion vibration piezoelectric energy harvester.

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Chongqiu Yang

An asymmetric magnetic-coupled bending-torsion piezoelectric energy harvester: modeling and experimental investigation

Titanium wire drawing with longitudinal-torsional composite ultrasonic vibration

A new piezoelectric ceramic longitudinal–torsional composite ultrasonic vibrator for wire drawing

A broadband piezo-electromagnetic hybrid energy harvester under combined vortex-induced and base excitations

Modeling and experimental investigation of magnetically coupling bending-torsion piezoelectric energy harvester based on vortex-induced vibration

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