Multi-modal vibration energy harvesting approach based on nonlinear oscillator arrays under magnetic levitation

I. Abed; N. Kacem; N. Bouhaddi; M. L. Bouazizi

doi:10.1088/0964-1726/25/2/025018

Multi-modal vibration energy harvesting approach based on nonlinear oscillator arrays under magnetic levitation

I. Abed
, N. Kacem
, N. Bouhaddi
, M. L. Bouazizi

Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

73 Scopus citations

Abstract

We propose a multi-modal vibration energy harvesting approach based on arrays of coupled levitated magnets. The equations of motion which include the magnetic nonlinearity and the electromagnetic damping are solved using the harmonic balance method coupled with the asymptotic numerical method. A multi-objective optimization procedure is introduced and performed using a non-dominated sorting genetic algorithm for the cases of small magnet arrays in order to select the optimal solutions in term of performances by bringing the eigenmodes close to each other in terms of frequencies and amplitudes. Thanks to the nonlinear coupling and the modal interactions even for only three coupled magnets, the proposed method enable harvesting the vibration energy in the operating frequency range of 4.6-4.5 Hz, with a bandwidth of 190% and a normalized power of 20.2 mW cm^-3 g^-2.

Original language	English
Article number	025018
Journal	Smart Materials and Structures
Volume	25
Issue number	2
DOIs	https://doi.org/10.1088/0964-1726/25/2/025018
State	Published - 21 Jan 2016

Keywords

magnetic levitation
multi-modal interactions
nonlinear dynamics
oscillator arrays
vibration energy harvesting

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10.1088/0964-1726/25/2/025018

Cite this

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title = "Multi-modal vibration energy harvesting approach based on nonlinear oscillator arrays under magnetic levitation",

abstract = "We propose a multi-modal vibration energy harvesting approach based on arrays of coupled levitated magnets. The equations of motion which include the magnetic nonlinearity and the electromagnetic damping are solved using the harmonic balance method coupled with the asymptotic numerical method. A multi-objective optimization procedure is introduced and performed using a non-dominated sorting genetic algorithm for the cases of small magnet arrays in order to select the optimal solutions in term of performances by bringing the eigenmodes close to each other in terms of frequencies and amplitudes. Thanks to the nonlinear coupling and the modal interactions even for only three coupled magnets, the proposed method enable harvesting the vibration energy in the operating frequency range of 4.6-4.5 Hz, with a bandwidth of 190\% and a normalized power of 20.2 mW cm-3 g-2.",

keywords = "magnetic levitation, multi-modal interactions, nonlinear dynamics, oscillator arrays, vibration energy harvesting",

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T1 - Multi-modal vibration energy harvesting approach based on nonlinear oscillator arrays under magnetic levitation

AU - Abed, I.

AU - Kacem, N.

AU - Bouhaddi, N.

AU - Bouazizi, M. L.

PY - 2016/1/21

Y1 - 2016/1/21

N2 - We propose a multi-modal vibration energy harvesting approach based on arrays of coupled levitated magnets. The equations of motion which include the magnetic nonlinearity and the electromagnetic damping are solved using the harmonic balance method coupled with the asymptotic numerical method. A multi-objective optimization procedure is introduced and performed using a non-dominated sorting genetic algorithm for the cases of small magnet arrays in order to select the optimal solutions in term of performances by bringing the eigenmodes close to each other in terms of frequencies and amplitudes. Thanks to the nonlinear coupling and the modal interactions even for only three coupled magnets, the proposed method enable harvesting the vibration energy in the operating frequency range of 4.6-4.5 Hz, with a bandwidth of 190% and a normalized power of 20.2 mW cm-3 g-2.

AB - We propose a multi-modal vibration energy harvesting approach based on arrays of coupled levitated magnets. The equations of motion which include the magnetic nonlinearity and the electromagnetic damping are solved using the harmonic balance method coupled with the asymptotic numerical method. A multi-objective optimization procedure is introduced and performed using a non-dominated sorting genetic algorithm for the cases of small magnet arrays in order to select the optimal solutions in term of performances by bringing the eigenmodes close to each other in terms of frequencies and amplitudes. Thanks to the nonlinear coupling and the modal interactions even for only three coupled magnets, the proposed method enable harvesting the vibration energy in the operating frequency range of 4.6-4.5 Hz, with a bandwidth of 190% and a normalized power of 20.2 mW cm-3 g-2.

KW - magnetic levitation

KW - multi-modal interactions

KW - nonlinear dynamics

KW - oscillator arrays

KW - vibration energy harvesting

UR - https://www.scopus.com/pages/publications/84956695027

U2 - 10.1088/0964-1726/25/2/025018

DO - 10.1088/0964-1726/25/2/025018

M3 - Article

AN - SCOPUS:84956695027

SN - 0964-1726

VL - 25

JO - Smart Materials and Structures

JF - Smart Materials and Structures

IS - 2

M1 - 025018

ER -

Multi-modal vibration energy harvesting approach based on nonlinear oscillator arrays under magnetic levitation

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