飞轮
风力发电
间歇性
发电机(电路理论)
微功率
汽车工程
风速
绩效改进
风力发电机
控制理论(社会学)
计算机科学
功率(物理)
差速器(机械装置)
发电机
工程类
发电
混合动力系统
感应发电机
混合动力
工作(物理)
电气工程
机制(生物学)
控制工程
可再生能源
能量(信号处理)
风阻
作者
Zhaoxin Liu,X X Li,Bingyu Xu,Hang Yu,Qinglong Wei,Jinqi Cai,Yuying Cao,Tinghai Cheng
标识
DOI:10.1021/acsaelm.5c02163
摘要
This work presents a wind-driven triboelectric-electromagnetic hybrid generator with a differential mechanism (DW-TEHG) for enhanced wind energy harvesting. The design employs upper and lower wind scoops driving counter-rotating flywheels within a differential system, enabling both single-scoop operation and dual-scoop codriving modes. This configuration compensates for wind intermittency by simultaneously capturing energy from different heights. The hybrid approach leverages triboelectric nanogenerators (TENGs) for low-frequency efficiency and electromagnetic generators (EMGs) for higher-frequency performance. Under dual-scoop codriving at 14.4 m/s wind speed, TENG modules achieve 257 V and 15.8 μA. demonstrating a 37% enhancement in power output compared with single wind-scoop driving. The system demonstrates a low start-up wind speed (3.6 m/s single scoop; 4.9 m/s dual scoop) and effectively powers applications including 900 LEDs and a 20 mW temperature detector at 12.0 m/s. By overcoming traditional limitations of high start-up thresholds and intermittent output, the DW-TEHG provides a robust solution for sustainable micropower generation in urban environments with variable wind conditions.
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