ENERGY HARVESTING AND OPTIMIZATION USING ACTIVE RESONANCE FITTING

Journal of the Egyptian Society of Tribology Pub Date : 2024-07-01 DOI:10.21608/jest.2024.366468

Mohamed M. Hedaya, Mohamed Elhadidi, Taher Elyazied, Mahmoud Z. Ibrahim

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Abstract

Energy harvesting is an emerging topic recently. This harvested energy is used to operate wireless sensors for different industrial monitoring and automation. To maximize the harvested energy in spinning systems, the harvester should vibrate at resonance for different spinning frequencies which can be achieved by active fitting. In this research, a novel methodology was developed by actively customizing the length of vibrating element beam to manipulate its natural frequency according to the spinning frequency. Different models were investigated numerically and experimentally to verify the proposed methodology. COMSOL Multiphysics software V5.1 was used to develop the numerical model, then and tip deformation and voltage difference results were benchmarked. The numerical model was verified experimentally by attaching a piezoelectric MIDE PPA 1021 which its vibrating length was varied by changing the supporting length from 0 mm to 12 mm to a spinning object having variable frequency from 0-200 Hz. It is found that the MIDE PPA 1021 beam vibrated at its resonance throughout the specified spinning frequencies. The proposed harvester can be applied in battery-free sensors being used in automotives, wind-mills blades, and rotating machinery.

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利用主动共振拟合进行能量采集和优化

能量采集是最近的一个新兴话题。采集到的能量可用于操作无线传感器，以实现不同的工业监控和自动化。为了在纺纱系统中最大限度地采集能量，采集器应针对不同的纺纱频率产生共振振动，这可以通过主动配合来实现。在这项研究中，开发了一种新方法，即根据纺纱频率主动定制振动元件梁的长度，以操纵其固有频率。对不同的模型进行了数值和实验研究，以验证所提出的方法。使用 COMSOL Multiphysics 软件 V5.1 开发了数值模型，然后对尖端变形和电压差结果进行了基准测试。通过将压电 MIDE PPA 1021 安装到频率为 0-200 Hz 的旋转物体上进行实验验证了数值模型。结果发现，MIDE PPA 1021 梁在整个指定的旋转频率下都以共振方式振动。所提出的收割机可应用于汽车、风力磨坊叶片和旋转机械中的无电池传感器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of the Egyptian Society of Tribology

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