Design, modeling and experimental investigation of a magnetically modulated rotational energy harvester for low frequency and irregular vibration

Vibration energy harvesting is a promising approach for sustainable energy generation from ambience to meet the development of self-powered systems. Here, we propose a novel compact non-resonant magnetically modulated rotational energy harvester (MMR-EH) for low frequency and irregular vibration. Th...

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Veröffentlicht in:	Science China. Technological sciences 2020-10, Vol.63 (10), p.2051-2062
Hauptverfasser:	Zhao, LinChuan, Zou, HongXiang, Gao, QiuHua, Yan, Ge, Wu, ZhiYuan, Liu, FengRui, Wei, KeXiang, Yang, Bin, Zhang, WenMing
Format:	Artikel
Sprache:	eng
Schlagworte:	Ambience Dynamic models Energy Energy conversion Energy harvesting Energy methods Engineering Extremely low frequencies Magnetic fields Potential energy Vibration
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container_title	Science China. Technological sciences
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creator	Zhao, LinChuan Zou, HongXiang Gao, QiuHua Yan, Ge Wu, ZhiYuan Liu, FengRui Wei, KeXiang Yang, Bin Zhang, WenMing
description	Vibration energy harvesting is a promising approach for sustainable energy generation from ambience to meet the development of self-powered systems. Here, we propose a novel compact non-resonant magnetically modulated rotational energy harvester (MMR-EH) for low frequency and irregular vibration. Through the rational arrangement of multiple magnetic fields in space, a ring route with low potential energy is established. A movable magnet can be non-contact modulated by the magnetic force to move along the ring route under irregular vibration, which is instrumental in electromechanical energy conversion. A dynamic model of the MMR-EH is developed based on the energy method and verified experimentally. The effects of key parameters on the magnetically modulated route are analysed. The simulation and experimental results demonstrate that the MMR-EH can effectively harvest the energy from ultra-low frequency (3 Hz) and irregular vibration. At a reciprocating vibration frequency of 10 Hz and an amplitude of 20 mm, the harvester can produce an average power of 0.29 mW.
doi_str_mv	10.1007/s11431-020-1595-x
format	Article
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Technological sciences</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zhao, LinChuan</au><au>Zou, HongXiang</au><au>Gao, QiuHua</au><au>Yan, Ge</au><au>Wu, ZhiYuan</au><au>Liu, FengRui</au><au>Wei, KeXiang</au><au>Yang, Bin</au><au>Zhang, WenMing</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Design, modeling and experimental investigation of a magnetically modulated rotational energy harvester for low frequency and irregular vibration</atitle><jtitle>Science China. Technological sciences</jtitle><stitle>Sci. China Technol. Sci</stitle><date>2020-10-01</date><risdate>2020</risdate><volume>63</volume><issue>10</issue><spage>2051</spage><epage>2062</epage><pages>2051-2062</pages><issn>1674-7321</issn><eissn>1869-1900</eissn><abstract>Vibration energy harvesting is a promising approach for sustainable energy generation from ambience to meet the development of self-powered systems. Here, we propose a novel compact non-resonant magnetically modulated rotational energy harvester (MMR-EH) for low frequency and irregular vibration. Through the rational arrangement of multiple magnetic fields in space, a ring route with low potential energy is established. A movable magnet can be non-contact modulated by the magnetic force to move along the ring route under irregular vibration, which is instrumental in electromechanical energy conversion. A dynamic model of the MMR-EH is developed based on the energy method and verified experimentally. The effects of key parameters on the magnetically modulated route are analysed. The simulation and experimental results demonstrate that the MMR-EH can effectively harvest the energy from ultra-low frequency (3 Hz) and irregular vibration. At a reciprocating vibration frequency of 10 Hz and an amplitude of 20 mm, the harvester can produce an average power of 0.29 mW.</abstract><cop>Beijing</cop><pub>Science China Press</pub><doi>10.1007/s11431-020-1595-x</doi><tpages>12</tpages></addata></record>
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subjects	Ambience Dynamic models Energy Energy conversion Energy harvesting Energy methods Engineering Extremely low frequencies Magnetic fields Potential energy Vibration
title	Design, modeling and experimental investigation of a magnetically modulated rotational energy harvester for low frequency and irregular vibration
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