DESIGN OF AN ENERGY HARVESTING SYSTEM USING PIEZOELECTRIC MATERIALS

Damjan Pecioski, Anastasija Ignjatovska, Dejan Šiškovski, Simona Domazetovska, Maja Anačkova
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引用次数: 1

Abstract

A b s t r a c t: Energy harvesting by using piezoelectric materials is one of the most widely used techniques for conversion of waste energy into useful. Using this technique, generated vibration energy from machines can be converted into useful electrical energy. In this paper, an energy harvesting system that supplies power for low-power consumption devices has been designed. The experimental model consists of a rotating machine that generates mechanical vibrations that actuate a cantilever beam and a piezoelectric transducer as a sensor for energy harvesting. The aim is to generate greater power as an output, which could be achieved by obtaining maximal strain for the given frequency range of the vibration source. The frequency range of the vibration machine is variable and multiple frequencies have been used. Using the Euler-Bernoulli method, the beam dimensions have been calculated so that its natural frequency matches the operating machine frequency. By reaching the resonant point of the cantilever beam, the maximal power from the designed energy harvesting system can be generated.
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压电材料能量收集系统的设计
利用压电材料进行能量收集是将废能转化为有用的最广泛应用的技术之一。利用这种技术,机器产生的振动能量可以转化为有用的电能。本文设计了一种为低功耗器件供电的能量收集系统。实验模型由一个产生机械振动的旋转机器和一个用作能量收集传感器的压电传感器组成。其目的是产生更大的功率作为输出,这可以通过获得振动源的给定频率范围内的最大应变来实现。振动机的频率范围是可变的,使用了多个频率。用欧拉-伯努利方法计算了梁的尺寸,使其固有频率与工作机器的频率相匹配。通过到达悬臂梁的谐振点,可以产生所设计的能量收集系统的最大功率。
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