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Strategies for coupled vibration suppression and energy harvesting

Strategies for coupled vibration suppression and energy harvesting
Strategies for coupled vibration suppression and energy harvesting
The use of tuned-mass-dampers (TMD) as structural vibration suppressors has been discussed widely over several decades and many parameter selection strategies exist for minimising the displacement of the host structure. Normally these strategies work best when the resonant frequency of the TMD is closely tuned to that of the structural mode that is being targeted. This can be an issue for structures with significant live loads such as slender bridges with heavy traffic. For this type of structure nonlinear or semi-active retunable TMDs have been proposed. In this paper we consider replacing the damper in the TMD with an electrical generator device. In its simplest form this device could be a motor/generator with a resistive load such that the velocity- force relationship is approximately proportional hence mimicking a viscous damper. Here we consider using a voice-coil linear actuator connected to an impedance emulator, which is capable of harvesting, rather than dissipating, some of the vibrational energy. We discuss how this harvested power can then be used to modify the resistive loading in real-time and hence allow a wider bandwidth of operation. The work present both numerical and experimental results and shows some viable strategies for the control and the design of the device.
2191-5644
27-33
Springer Cham
Cammarano, A.
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Gonzalez-Buelga, A.
24a77867-2776-4a13-84c9-1ff2a7f0f1de
Neild, S.A.
e11b68bb-ddff-4cac-a8a7-798cc3cc3891
Inman, D.J.
e7a193c3-1285-415c-9f40-404ce6823a7d
Burrow, S.G.
e6e286be-43cf-423e-9709-ac8041580bcf
Catbas, Fikret Necati
Cammarano, A.
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Gonzalez-Buelga, A.
24a77867-2776-4a13-84c9-1ff2a7f0f1de
Neild, S.A.
e11b68bb-ddff-4cac-a8a7-798cc3cc3891
Inman, D.J.
e7a193c3-1285-415c-9f40-404ce6823a7d
Burrow, S.G.
e6e286be-43cf-423e-9709-ac8041580bcf
Catbas, Fikret Necati

Cammarano, A., Gonzalez-Buelga, A., Neild, S.A., Inman, D.J. and Burrow, S.G. (2014) Strategies for coupled vibration suppression and energy harvesting. Catbas, Fikret Necati (ed.) In Dynamics of Civil Structures, Volume 4: Proceedings of the 32nd IMAC, A Conference and Exposition on Structural Dynamics, 2014. Springer Cham. pp. 27-33 . (doi:10.1007/978-3-319-04546-7_4).

Record type: Conference or Workshop Item (Paper)

Abstract

The use of tuned-mass-dampers (TMD) as structural vibration suppressors has been discussed widely over several decades and many parameter selection strategies exist for minimising the displacement of the host structure. Normally these strategies work best when the resonant frequency of the TMD is closely tuned to that of the structural mode that is being targeted. This can be an issue for structures with significant live loads such as slender bridges with heavy traffic. For this type of structure nonlinear or semi-active retunable TMDs have been proposed. In this paper we consider replacing the damper in the TMD with an electrical generator device. In its simplest form this device could be a motor/generator with a resistive load such that the velocity- force relationship is approximately proportional hence mimicking a viscous damper. Here we consider using a voice-coil linear actuator connected to an impedance emulator, which is capable of harvesting, rather than dissipating, some of the vibrational energy. We discuss how this harvested power can then be used to modify the resistive loading in real-time and hence allow a wider bandwidth of operation. The work present both numerical and experimental results and shows some viable strategies for the control and the design of the device.

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e-pub ahead of print date: 15 April 2014
Published date: 26 May 2014

Identifiers

Local EPrints ID: 491082
URI: http://eprints.soton.ac.uk/id/eprint/491082
DOI: doi:10.1007/978-3-319-04546-7_4
ISSN: 2191-5644
PURE UUID: eb950b29-a7f6-43e2-a305-79555ec247ce
ORCID for A. Cammarano: ORCID iD orcid.org/0000-0002-8222-8150

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Date deposited: 11 Jun 2024 23:51
Last modified: 12 Jun 2024 02:11

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Author: A. Cammarano ORCID iD
Author: A. Gonzalez-Buelga
Author: S.A. Neild
Author: D.J. Inman
Author: S.G. Burrow
Editor: Fikret Necati Catbas

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