A hybrid wave vibration energy harvester with electromagnetic double-speed and piezoelectric up-frequency driven by a rotating ball

Jia, Shengyao; Zeng, Chuanjun; Shi, Ge; Xu, Jubing; Xia, Yinshui; Zeng, Wentao; Wang, Xiudeng; Xia, Huakang

doi:10.1088/1361-665x/ad49f1

Smart Mater. Struct.

2024

DOI: 10.1088/1361-665x/ad49f1

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A hybrid wave vibration energy harvester with electromagnetic double-speed and piezoelectric up-frequency driven by a rotating ball

Shengyao Jia,

Chuanjun Zeng,

Ge Shi

et al.

Abstract: The energy crisis and environmental pollution have driven the development of ambient energy harvesting technologies, and ocean waves usually contain abundant vibration energy, making the study of wave energy harvesting technology of profound value. This paper proposes a hybrid wave vibration energy harvester with electromagnetic double-speed and piezoelectric up-frequency driven by a rotating ball. For the electromagnetic generator (EMG), the excitation magnet and coil move simultaneously, resulting in double … Show more

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Noninertial Driven Multifaceted Fluff and Halbach Array Hybrid Nanogenerator: Achieving Shore-Based Water Wave Energy Harvesting

Jing,

Han,

et al. 2024

ACS Appl. Electron. Mater.

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Shore-based water wave energy is a clean and renewable energy source generated by waves crashing against the shoreline. This work presents a multifaceted fluff driven by a noninertial and Halbach array-based triboelectric-electromagnetic hybrid generator (FH-HG) designed to harvest wave energy. Compared to inertial drive systems that excite the entire device, the noninertial drive only needs to excite the driving plate part, directly converting the mechanical energy of the waves into electrical energy, thus reducing intermediate steps and energy losses. The multifaceted fluff integrates eight triboelectric nanogenerators (TENGs), significantly enhancing space utilization. Additionally, the Halbach array-based electromagnetic generator (H-EMG) provides counterweights on both sides of the multifaceted fluff TENG (F-TENG), further converting mechanical energy into electrical energy. Experimental verification identified the parallel connection of TENG and EMG as optimal. Results show maximum volumetric power densities of 1.97 and 2.79 W/m 3 for F-TENG and H-EMG, respectively. The polycarbonate (PC) fluff design and Halbach array structure enhance high-voltage output and abrasion resistance, compensating for EMG's low-voltage drawbacks and making large-scale wave energy capture feasible. The highperformance FH-HG can power electronic devices and wireless systems for real-time marine environment monitoring and coastal city power supply, offering a promising solution for large-scale wave energy harvesting.

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Noninertial Driven Multifaceted Fluff and Halbach Array Hybrid Nanogenerator: Achieving Shore-Based Water Wave Energy Harvesting

Jing,

Han,

et al. 2024

ACS Appl. Electron. Mater.

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show abstract

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A hybrid wave vibration energy harvester with electromagnetic double-speed and piezoelectric up-frequency driven by a rotating ball

Cited by 1 publication

References 40 publications

Noninertial Driven Multifaceted Fluff and Halbach Array Hybrid Nanogenerator: Achieving Shore-Based Water Wave Energy Harvesting

Noninertial Driven Multifaceted Fluff and Halbach Array Hybrid Nanogenerator: Achieving Shore-Based Water Wave Energy Harvesting

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