Energy harvesting of a metamaterial beam with acoustic black holes
Energy harvesting of a metamaterial beam with acoustic black holes
This paper proposed an improved metamaterial piezoelectric beam with the acoustic black holes (ABHs) for low-frequency energy harvesting. The ABHs are embedded in the local resonant beams distributed on both sides of the primary beam. Piezoelectric plates are attached to the ABHs, leveraging the energy-focusing effect to enhance the energy harvesting performance. Finite element simulation results indicate that the energy harvesting electrical energy has improved by 6.92 times compared to the traditional metamaterial resonant beam without ABHs. Parameter analysis indicates that increasing the number of local resonators and extending the length of the piezoelectric patches can further enhance energy harvesting performance. However, reducing the truncation thickness of the ABH boosts energy harvesting but compromises structural strength. Extending the ABH length and increasing load resistance within the appropriate range are conducive to energy harvesting. Besides, the optimal load resistance varies with frequency. These findings provide useful guidance for future applications of improved metamaterial beam.
Jia, Yuhang
68a3e78e-c17d-494a-9560-80d34e735068
Wang, Chuankui
55802cb2-8e82-4404-bcff-1472117f3a47
Tong, Weinhao
5c9c41fa-9213-44bf-b877-d47c0a59091e
Torbati, Mohamed
65b351dc-7c2e-4a9a-83a4-df797973913b
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Yang, Kai
5c4f2e25-4c58-4ab1-8e1b-1d281eb225dc
5 December 2024
Jia, Yuhang
68a3e78e-c17d-494a-9560-80d34e735068
Wang, Chuankui
55802cb2-8e82-4404-bcff-1472117f3a47
Tong, Weinhao
5c9c41fa-9213-44bf-b877-d47c0a59091e
Torbati, Mohamed
65b351dc-7c2e-4a9a-83a4-df797973913b
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Yang, Kai
5c4f2e25-4c58-4ab1-8e1b-1d281eb225dc
Jia, Yuhang, Wang, Chuankui, Tong, Weinhao, Torbati, Mohamed, Yurchenko, Daniil and Yang, Kai
(2024)
Energy harvesting of a metamaterial beam with acoustic black holes.
Smart Materials and Structures, 34 (1), [015006].
(doi:10.1088/1361-665X/ad94c0).
Abstract
This paper proposed an improved metamaterial piezoelectric beam with the acoustic black holes (ABHs) for low-frequency energy harvesting. The ABHs are embedded in the local resonant beams distributed on both sides of the primary beam. Piezoelectric plates are attached to the ABHs, leveraging the energy-focusing effect to enhance the energy harvesting performance. Finite element simulation results indicate that the energy harvesting electrical energy has improved by 6.92 times compared to the traditional metamaterial resonant beam without ABHs. Parameter analysis indicates that increasing the number of local resonators and extending the length of the piezoelectric patches can further enhance energy harvesting performance. However, reducing the truncation thickness of the ABH boosts energy harvesting but compromises structural strength. Extending the ABH length and increasing load resistance within the appropriate range are conducive to energy harvesting. Besides, the optimal load resistance varies with frequency. These findings provide useful guidance for future applications of improved metamaterial beam.
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Accepted/In Press date: 19 November 2024
Published date: 5 December 2024
Identifiers
Local EPrints ID: 503870
URI: http://eprints.soton.ac.uk/id/eprint/503870
ISSN: 0964-1726
PURE UUID: 99584f59-22ae-45ef-94ea-40f1d155d58e
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Date deposited: 15 Aug 2025 16:42
Last modified: 16 Aug 2025 02:05
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Contributors
Author:
Yuhang Jia
Author:
Chuankui Wang
Author:
Weinhao Tong
Author:
Daniil Yurchenko
Author:
Kai Yang
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