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Integration of a Nonlinear Vibration Absorber and Levitation Magnetoelectric Energy Harvester for Whole-Spacecraft Systems
Alternative TitleIntegration of a Nonlinear Vibration Absorber and Levitation Magnetoelectric Energy Harvester for Whole-Spacecraft Systems
Zhang YeWei1; Wang ShiLei1; Ni ZhiYu1; Fang ZhiWei2; Zang Jian1; Fang Bo1
2019
Source PublicationACTA MECHANICA SOLIDA SINICA
ISSN0894-9166
Volume32Issue:3Pages:298-309
AbstractThis paper presents a new device integrating a nonlinear vibration absorber with a levitation magnetoelectric energy harvester for whole-spacecraft systems. This device effectively reduces vibration and has a stronger energy harvesting capability than the existing systems. It harvests energy from a wide frequency range and has a high output voltage. The harvested energy is determined by magnetic field strength, excitation frequency, and resistive load. The change in the magnetic field strength has the least impact on the output voltage. The vibration reduction effects and harvested energy of the system are analyzed with an approximate analytical method that combines the harmonic balance approach and the pseudo-arclength continuation algorithm. The results of the Runge-Kutta method are nearly consistent with those of the approximate analytical method. Moreover, the effects of the excitation frequency, resistive load, and parameters of the nonlinear energy sink on the system vibration response and energy harvesting are analyzed.
Other AbstractThis paper presents a new device integrating a nonlinear vibration absorber with a levitation magnetoelectric energy harvester for whole-spacecraft systems.This device effectively reduces vibration and has a stronger energy harvesting capability than the existing systems.It harvests energy from a wide frequency range and has a high output voltage.The harvested energy is determined by magnetic field strength,excitation frequency,and resistive load.The change in the magnetic field strength has the least impact on the output voltage.The vibration reduction effects and harvested energy of the system are analyzed with an approximate analytical method that combines the harmonic balance approach and the pseudo-arclength continuation algorithm.The results of the Runge–Kutta method are nearly consistent with those of the approximate analytical method.Moreover,the effects of the excitation frequency,resistive load,and parameters of the nonlinear energy sink on the system vibration response and energy harvesting are analyzed.
KeywordSINK BEAM MODE Levitation magnetoelectric energy harvester Whole spacecraft Nonlinear energy sink Vibration reduction
Indexed ByCSCD
Language英语
Funding Project[National Natural Science Foundation of China] ; [Training Project of Liaoning Provincial Higher Education Institutions in Domestic and Overseas] ; [Scientific Research Fund of Liaoning Provincial Education Department]
CSCD IDCSCD:6522913
Citation statistics
Document Type期刊论文
Identifierhttp://ir.imr.ac.cn/handle/321006/154727
Collection中国科学院金属研究所
Affiliation1.中国科学院金属研究所
2.Shanghai Prime Machinery Co Ltd, Shanghai 200072, Peoples R China
Recommended Citation
GB/T 7714
Zhang YeWei,Wang ShiLei,Ni ZhiYu,et al. Integration of a Nonlinear Vibration Absorber and Levitation Magnetoelectric Energy Harvester for Whole-Spacecraft Systems[J]. ACTA MECHANICA SOLIDA SINICA,2019,32(3):298-309.
APA Zhang YeWei,Wang ShiLei,Ni ZhiYu,Fang ZhiWei,Zang Jian,&Fang Bo.(2019).Integration of a Nonlinear Vibration Absorber and Levitation Magnetoelectric Energy Harvester for Whole-Spacecraft Systems.ACTA MECHANICA SOLIDA SINICA,32(3),298-309.
MLA Zhang YeWei,et al."Integration of a Nonlinear Vibration Absorber and Levitation Magnetoelectric Energy Harvester for Whole-Spacecraft Systems".ACTA MECHANICA SOLIDA SINICA 32.3(2019):298-309.
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