纳米发生器
材料科学
摩擦电效应
能量收集
海水淡化
功率(物理)
能量转换效率
机械能
发电
电磁线圈
能量转换
磁铁
高效能源利用
振动
工作(物理)
发电机(电路理论)
最大功率原理
机械工程
汽车工程
电气工程
电阻式触摸屏
能量(信号处理)
工艺工程
电势能
发射机
海水
热交换器
光电子学
海洋工程
能源
水下
蒸发器
太阳能
露水
作者
Shiji Xue,Xiaolan Ji,Jianjun Luo,Hua Yuan,Yaokun Pang
标识
DOI:10.1021/acsami.5c23065
摘要
The development of efficient and reliable blue energy harvesting technologies is crucial for addressing the dual shortages of energy and fresh water in remote regions. Herein, we report an elastic-arch lateral-pressing hybrid nanogenerator (EL-HNG), which integrates a contact-separation mode triboelectric nanogenerator (TENG) and a vertical-motion electromagnetic generator (EMG) within a compact, fully enclosed body for efficient water wave energy harvesting. The core of the design is an elastic arch structure fabricated from Kapton, which ingeniously decouples the vertical vibrations induced by waves into a contact-separation motion for the TENG and relative motion between the magnet and coil for the EMG. Through systematic optimization of key structural parameters, such as the arch length and the central mass, the device's performance was significantly improved. Under optimal operating conditions of 2.0 Hz and 30 mm amplitude, the TENG module delivered a peak power of approximately 10 mW at a 5 MΩ load, while the EMG module produced approximately 3.5 mW at a 60 Ω load. By employing a power management module, the energy from both sources was effectively coupled and stored. Ultimately, the EL-HNG system successfully served as a standalone power source to drive an electrodialysis unit, reducing the conductivity of a 0.5 mol/L NaCl solution from 52.4 mS/cm to below the standard for drinking water within 24 h. This work provides a valuable paradigm for the development of next-generation, high-performance blue energy conversion devices and for the construction of self-sufficient offshore resource-support platforms.
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