Electromagnetic-triboelectric energy harvester based on vibration-to-rotation conversion for human motion energy exploitation

Electromagnetic-triboelectric energy harvester based on vibration-to-rotation conversion for human motion energy exploitation

[Display omitted] •Electromagnetic-triboelectric hybrid energy harvester based on vibration-to-rotation conversion is proposed.•Rotation and reciprocating vibration energy are simultaneously captured and converted to improve the efficiency of irregular human motion harvesting.•Stable and high active...

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Bibliographic Details
Published in:Applied energy Vol. 329; p. 120292
Main Authors: Bai, Shanming, Cui, Juan, Zheng, Yongqiu, Li, Gang, Liu, Tingshan, Liu, Yabing, Hao, Congcong, Xue, Chenyang
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-01-2023
Subjects:
Electromagnetic
Energy harvester
Human motion
Self-powered
Triboelectric nanogenerator
Electromagnetic
Triboelectric nanogenerator
Human motion
Self-powered
Energy harvester
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Summary:[Display omitted] •Electromagnetic-triboelectric hybrid energy harvester based on vibration-to-rotation conversion is proposed.•Rotation and reciprocating vibration energy are simultaneously captured and converted to improve the efficiency of irregular human motion harvesting.•Stable and high active power output satisfies self-power requirements of wearables and wireless sensor electronics. To overcome the frequent replacement and charging of chemical batteries, human motion has become a promising energy source for portable electronic devices and wireless monitoring equipment. Although various energy harvesters for the conversion of human energy into electrical energy have been investigated, the output performance of existing harvesters is too low and irregular to provide sustained power to electronic devices. This paper proposes a high-efficiency electromagnetic-triboelectric hybrid energy harvester (ET-HEH) based on vibration-to-rotation conversion. The proposed harvester comprises a rotational electromagnetic generator (REMG), motion transmission mechanism, and reciprocating vibration triboelectric nanogenerator (VTENG). Rotational and vibrational energy can be transmitted among these components and harvested synchronously to enhance the output. The experimental results reveal that the energy conversion efficiency of ET-HEH can reach more than 70 % under multiple vibration frequencies. The proposed harvester has higher output compared with traditional reciprocating vibration energy harvesters. The active power output of the harvester after rectification is stably maintained at approximately 300 mW during jogging, exceeds 800 mW during sprinting, and can continuously charge a smart band with a rated power of 400 mW. This study demonstrates a new mechanism for realizing vibration-to-rotation conversion and provides a practical approach toward the harvesting of human motion energy with high-efficiency.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2022.120292