Yixiang He scite author profile

Yixiang He

5Publications

3Citation Statements Received

60Citation Statements Given

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Affiliations

National University of Defense Technology, The University of Tokyo

Publications

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Omnidirectional wind piezoelectric energy harvesting

Zhang¹,

He²,

Meng³

et al. 2023

J. Phys. D: Appl. Phys.

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A novel energy harvester based on vortex-induced vibration (VIV) of the sphere and piezoelectric effect is proposed to efficiently gather wind energy from all horizontal directions. An elastically-supported foam sphere is vertically arranged and considerably oscillates in the cross-flow direction when the wind speed is in the lock-in region. A piezoelectric beam is attached to the supported sphere by a spring and deforms periodically around the original buckling state, thereby converting kinetic energy into electrical energy. Experimental studies are performed to assess the power output of the harvester when exposed to wind flows with varying directions and speeds. The omnidirectional wind flow is divided to 12 orientations with the interval angle of 30°, and the wind speeds range from 1.17 m/s to 7.87 m/s. The testing findings indicate that the harvester has excellent consistency in both lock-in region and average power for various wind azimuths. When the wind direction is changed from 0° to 360°, the peak average power changes from 179.8 μW to 247.5 μW, and the wind speed region where the sphere undergoes vibration changes from 2.58 m/s"~" 7.05 m/s to 2.58 m/s"~" 7.87 m/s. Following that, the effects of the length of the supporting spring and the diameter of the sphere on the output average power and lock-in region are investigated experimentally. Finally, a demonstration of powering a wireless sensing node is performed to show applications of the designed energy harvester in windy conditions.

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Facile Indicator Displacement Assay-based Supramolecular Chemosensor: Quantitative Colorimetric Determination of Xylose and Glucose in the Presence of Ascorbic Acid

et al. 2019

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Traffic Speed Prediction Based on LSTM-Graph Attention Network (L-GAT)

Fang

Jiang

2021

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A quantitative structure optimization model based on artificial electric field algorithm for compounds binding to estrogen receptor α

Pan

Tanida²,

Yan³

et al. 2022

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A Quantitative Prediction Model of Compounds on $\textbf{ER} \alpha$ Bioactivity Based on Regression Analysis

Yan

Xie

Pan

et al. 2022

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Yixiang He

Omnidirectional wind piezoelectric energy harvesting

Facile Indicator Displacement Assay-based Supramolecular Chemosensor: Quantitative Colorimetric Determination of Xylose and Glucose in the Presence of Ascorbic Acid

Traffic Speed Prediction Based on LSTM-Graph Attention Network (L-GAT)

A quantitative structure optimization model based on artificial electric field algorithm for compounds binding to estrogen receptor α

A Quantitative Prediction Model of Compounds on $\textbf{ER} \alpha$ Bioactivity Based on Regression Analysis

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