Journal
RENEWABLE ENERGY
Volume 172, Issue -, Pages 551-563Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.renene.2021.03.064
Keywords
Piezoelectric stack; Frequency-up conversion; High-performance energy harvesting
Funding
- National Science Fund for Distinguished Young Scholars [61625304]
- National Natural Science Foundation of China [61773254]
- Shanghai Sailing Program [20YF1412700]
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The paper investigates the influence of frequency-up conversion effect on high-performance energy harvesting using piezoelectric stack generators. Experimental results show significant enhancement in instantaneous power and average power with frequency-up conversion. The voltage response cycles consist of high-frequency high-amplitude oscillation and low-frequency low-amplitude harmonic vibration.
This paper originally investigates the influence of frequency-up conversion effect on piezoelectric stack generators for high-performance energy harvesting. A compressive-mode piezoelectric generator is proposed comprised of a piezostack and a spring-mass system for electromechanical transduction and mechanical excitation, respectively. The frequency-up conversion effect is induced by amplitude truncations of the mass under external excitation. A control group, i.e. without truncation, is set for performance comparisons. Experimental results indicate that, with the frequency-up conversion, instantaneous power and average power are enhanced by over 1000 and 177 times, respectively. Each voltage response cycle consists of two stages: high-frequency high-amplitude oscillation and the rest of low-frequency low-amplitude harmonic vibration. The frequency of the former stage determines impedance matching. Due to the frequency converted up by 69 times, and intrinsic high capacitance of the stack, the matched resistance is significantly reduced from over 5 kU to 73.10 U, resulting much higher power response than that without conversion. Additionally, increase of spring stiffness causes the decrease of voltage responses and less effectiveness of frequency conversion effect. In this work we conclusively report that an instantaneous peak power output of 0.32 W can be generated from a millimeter-size piezoelectric generator, which can foster development of high-viability self-powered applications. (c) 2021 Elsevier Ltd. All rights reserved.
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