Harvesting Broadband Breeze Vibration Energy via Elastic Bistable Triboelectric Nanogenerator for In Situ, Self‐Powered Monitoring of Power Transmission Lines

Wang, Liang; Zhang, Yaxun; Zhang, Xiaosong; Cheng, Xiaojun; Zhai, Shijie; Bi, Xiangzhuang; Li, Hengyu; Wang, ZhongLin; Cheng, Tinghai

doi:10.1002/aenm.202403318

Advanced Energy Materials

2024

DOI: 10.1002/aenm.202403318

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Harvesting Broadband Breeze Vibration Energy via Elastic Bistable Triboelectric Nanogenerator for In Situ, Self‐Powered Monitoring of Power Transmission Lines

Liang Wang,

Yaxun Zhang,

Xiaosong Zhang

et al.

Abstract: Triboelectric nanogenerator (TENG), as a new technique for energy capture, has unique advantages in harvesting high‐entropy energy. In view of the wind‐induced vibration characteristics of power transmission lines, the symmetric elastic bistable triboelectric nanogenerator (EB‐TENG) is introduced in this work. The core component of the EB‐TENG is the elastic bistable cantilever beam structure, which is designed by introducing an elastic perturbation structure to the conventional cantilever beam. This beam resu… Show more

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Hybrid Nanogenerator Harvesting Electric‐Field and Wind Energy for Self‐Powered Sensors on High‐Voltage Transmission Lines

Huang,

Hu,

Wang

et al. 2024

Adv Funct Materials

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Triboelectric nanogenerators (TENGs) show potential for powering distributed sensors in the smart grids. However, most studies on TENG's applications for energy harvesting from transmission lines primarily focus on vibration and wind energy, neglecting the abundant electric‐field energy from transmission systems. This study proposes a triboelectric‐electrostatic hybrid energy harvester (TEHEH) that integrates a triboelectric nanogenerator with an electric‐field energy harvester (EFEH) to simultaneously capture wind energy and electric‐field energy from the surroundings of transmission lines. The TENG and EFEH can generate open‐circuit voltages of 1280 and 2800 V, respectively, with output powers of 14.3 and 28.9 mW. Hybrid energy harvesting achieves an average power of 6.1 times that of TENG and 2.4 times that of EFEH, demonstrating its superiority. The dual‐channel energy management circuit, utilizing a gas discharge tube and the LTC‐3588, enables the hybrid nanogenerator to effectively power a wireless sensor node, demonstrating its practicality in the complex environments of power transmission lines. This work offers robust technical support for the development of self‐powered monitoring devices on high‐voltage transmission systems.

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Hybrid Nanogenerator Harvesting Electric‐Field and Wind Energy for Self‐Powered Sensors on High‐Voltage Transmission Lines

Huang,

Hu,

Wang

et al. 2024

Adv Funct Materials

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show abstract

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Harvesting Broadband Breeze Vibration Energy via Elastic Bistable Triboelectric Nanogenerator for In Situ, Self‐Powered Monitoring of Power Transmission Lines

Cited by 1 publication

References 40 publications

Hybrid Nanogenerator Harvesting Electric‐Field and Wind Energy for Self‐Powered Sensors on High‐Voltage Transmission Lines

Hybrid Nanogenerator Harvesting Electric‐Field and Wind Energy for Self‐Powered Sensors on High‐Voltage Transmission Lines

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