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Towards a prototype module for piezoelectric energy harvesting from raindrop impacts

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  • Ilyas, Mohammad Adnan
  • Swingler, Jonathan

Abstract

It has been shown that scavenging energy from raindrop impacts has the potential as a power source for electronic devices and act as an alternative method of generating electrical power. In this paper an energy harvesting module is developed consisting of multiple piezoelectric devices which use impacts of raindrops to generate electrical power. The effect on efficiency of the module with non-rectified or rectified outputs of each device connected in parallel is investigated. Additionally, the voltage, power and energy were found for different surface angles, surface conditions and impact regions for single devices with a view to maximise module efficiency.

Suggested Citation

  • Ilyas, Mohammad Adnan & Swingler, Jonathan, 2017. "Towards a prototype module for piezoelectric energy harvesting from raindrop impacts," Energy, Elsevier, vol. 125(C), pages 716-725.
    • Handle: RePEc:eee:energy:v:125:y:2017:i:c:p:716-725
    DOI: 10.1016/j.energy.2017.02.071
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    References listed on IDEAS

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    Cited by:

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    4. Hao, Guannan & Dong, Xiangwei & Li, Zengliang, 2021. "A novel piezoelectric structure for harvesting energy from water droplet: Theoretical and experimental studies," Energy, Elsevier, vol. 232(C).
    5. Wijewardhana, K. Rohana & Ekanayaka, Thilini K. & Jayaweera, E.N. & Shahzad, Amir & Song, Jang-Kun, 2018. "Integration of multiple bubble motion active transducers for improving energy-harvesting efficiency," Energy, Elsevier, vol. 160(C), pages 648-653.
    6. Cheng, Tinghai & Fu, Xianpeng & Liu, Wenbo & Lu, Xiaohui & Chen, Xiyan & Wang, Yingting & Bao, Gang, 2019. "Airfoil-based cantilevered polyvinylidene fluoride layer generator for translating amplified air-flow energy," Renewable Energy, Elsevier, vol. 135(C), pages 399-407.
    7. Wang, Feng & Sun, Xiuting & Xu, Jian, 2018. "A novel energy harvesting device for ultralow frequency excitation," Energy, Elsevier, vol. 151(C), pages 250-260.
    8. Zhou, Zhiyong & Qin, Weiyang & Zhu, Pei & Shang, Shijie, 2018. "Scavenging wind energy by a Y-shaped bi-stable energy harvester with curved wings," Energy, Elsevier, vol. 153(C), pages 400-412.
    9. Shan, Xiaobiao & Li, Hongliang & Yang, Yuancai & Feng, Ju & Wang, Yicong & Xie, Tao, 2019. "Enhancing the performance of an underwater piezoelectric energy harvester based on flow-induced vibration," Energy, Elsevier, vol. 172(C), pages 134-140.
    10. Fan, Kangqi & Cai, Meiling & Liu, Haiyan & Zhang, Yiwei, 2019. "Capturing energy from ultra-low frequency vibrations and human motion through a monostable electromagnetic energy harvester," Energy, Elsevier, vol. 169(C), pages 356-368.
    11. Yar, Adem, 2021. "High performance of multi-layered triboelectric nanogenerators for mechanical energy harvesting," Energy, Elsevier, vol. 222(C).
    12. Qi, Lu, 2019. "Energy harvesting properties of the functionally graded flexoelectric microbeam energy harvesters," Energy, Elsevier, vol. 171(C), pages 721-730.

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