The efficiency of linear electromagnetic vibration-based energy harvester at resistive, capacitive and inductive loads

Q2 Engineering
Aboozar Dezhara
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引用次数: 1

Abstract

Abstract Energy harvesters and almost all energy generation devices receive the motivation for design from their efficiency and efficiency play an important role in the feasibility and practicability of the design. In this paper, we investigate the efficiency of electromagnetic vibration-based energy harvesters at various electrical loads. In our problem the efficiency depends on excitation frequency, coil and load parameters as well as electromagnetic coupling coefficient. The author first proves that the input power that the harvester receives from its environment at constant base acceleration and constant excitation frequency is always equal to the power that consumes in electrical and mechanical dampers, then the author defines the resonance frequency and plot three efficiency diagrams i.e. plot of efficiency versus (excitation) frequency, plot of maximum efficiency at a constant frequency versus load and in the end plot of the efficiency versus output power at varying load capacitance and resistance. The author observes that maximum efficiency not only does not occur at resonance (i.e. at maximum power) but also is very low (less than 1e−10%) for typical parameters at resonance. Also the maximum efficiency for typical optimum parameters is around 17.45%.
基于线性电磁振动的能量采集器在电阻性、容性和感性负载下的效率
能量采集器和几乎所有的能量产生装置都是从其效率获得设计动机的,而效率对设计的可行性和实用性起着重要的作用。在本文中,我们研究了基于电磁振动的能量采集器在不同电负载下的效率。在我们的问题中,效率取决于激励频率、线圈和负载参数以及电磁耦合系数。作者首先证明了在恒定的基础加速度和恒定的激励频率下,收割机从环境中接收的输入功率总是等于电气和机械阻尼器所消耗的功率,然后定义了谐振频率,并绘制了三个效率图,即效率与(激励)频率的关系图;在恒定频率下的最大效率与负载的关系图,以及在变化负载电容和电阻时的效率与输出功率的关系图。作者观察到,在共振时(即在最大功率时),最大效率不仅不会发生,而且在共振时的典型参数也很低(小于1e - 10%)。典型最优参数的最大效率约为17.45%。
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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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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