Post-grazing dynamics of a vibro-impacting energy generator
Post-grazing dynamics of a vibro-impacting energy generator
The motion of a forced vibro-impacting inclined energy harvester is investigated in parameter regimes with asymmetry in the number of impacts on the bottom and top of the device. This motion occurs beyond a grazing bifurcation, at which alternating top and bottom impacts are supplemented by a zero velocity impact with the bottom of the device. For periodic forcing, we obtain semi-analytical expressions for the asymmetric periodic motion with a ratio of 2:1 for the impacts on the device bottom and top, respectively. These expressions are derived via a set of nonlinear maps between different pairs of impacts, combined with impact conditions that provide jump discontinuities in the velocity. Bifurcation diagrams for the analytical solutions are complemented by a linear stability analysis around the 2:1 asymmetric periodic solutions, and are validated numerically. For smaller incline angles, a second grazing bifurcation is numerically detected, leading to a 3:1 asymmetry. For larger incline angles, period doubling bifurcations precede grazing bifurcations. The converted electrical energy per impact is reduced for the asymmetric motions, and therefore less desirable under this metric.
Energy harvesting, Vibro-impact system, Output voltage, Grazing bifurcation, Periodic solutions, Non-smooth dynamics
Serdukova, Larissa
a7d03a66-73fe-4265-9ce7-8ffdf334bc40
Kuske, Rachel
bc23aa89-d93d-4210-921c-20cf31931417
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
3 February 2021
Serdukova, Larissa
a7d03a66-73fe-4265-9ce7-8ffdf334bc40
Kuske, Rachel
bc23aa89-d93d-4210-921c-20cf31931417
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Serdukova, Larissa, Kuske, Rachel and Yurchenko, Daniil
(2021)
Post-grazing dynamics of a vibro-impacting energy generator.
Journal of Sound and Vibration, 492.
(doi:10.1016/j.jsv.2020.115811).
Abstract
The motion of a forced vibro-impacting inclined energy harvester is investigated in parameter regimes with asymmetry in the number of impacts on the bottom and top of the device. This motion occurs beyond a grazing bifurcation, at which alternating top and bottom impacts are supplemented by a zero velocity impact with the bottom of the device. For periodic forcing, we obtain semi-analytical expressions for the asymmetric periodic motion with a ratio of 2:1 for the impacts on the device bottom and top, respectively. These expressions are derived via a set of nonlinear maps between different pairs of impacts, combined with impact conditions that provide jump discontinuities in the velocity. Bifurcation diagrams for the analytical solutions are complemented by a linear stability analysis around the 2:1 asymmetric periodic solutions, and are validated numerically. For smaller incline angles, a second grazing bifurcation is numerically detected, leading to a 3:1 asymmetry. For larger incline angles, period doubling bifurcations precede grazing bifurcations. The converted electrical energy per impact is reduced for the asymmetric motions, and therefore less desirable under this metric.
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More information
Accepted/In Press date: 22 October 2020
e-pub ahead of print date: 23 October 2020
Published date: 3 February 2021
Keywords:
Energy harvesting, Vibro-impact system, Output voltage, Grazing bifurcation, Periodic solutions, Non-smooth dynamics
Identifiers
Local EPrints ID: 468180
URI: http://eprints.soton.ac.uk/id/eprint/468180
ISSN: 0022-460X
PURE UUID: d9adc50b-94a6-4ea7-a413-d7c6212e24d4
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Date deposited: 04 Aug 2022 16:45
Last modified: 17 Mar 2024 04:11
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Contributors
Author:
Larissa Serdukova
Author:
Rachel Kuske
Author:
Daniil Yurchenko
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