Enhanced performance of cutting angle cylinder piezoelectric energy harvester via coupling vortex-induced vibration and galloping
Enhanced performance of cutting angle cylinder piezoelectric energy harvester via coupling vortex-induced vibration and galloping
This paper proposes a novel flow-induced vibration piezoelectric energy harvester with various cutting angle cylinders (FIVPEH-C), for coupling vortex-induced vibration and galloping as well as improving the energy harvesting efficiency. The conceptual designing of the piezoelectric energy harvester with different cutting angle cylinders is conducted, the theoretical models of fluid–structure-electric multi-physical coupled fields are derived, the aerodynamic parameters are solved by three-dimensional computational fluid dynamics (CFD) simulation, and the experimental prototypes of the harvester system are fabricated. The accuracy of the theoretical model is verified by the experimental results. The flow field reveals the vortex shedding characteristics and mode conversion mechanisms. The cutting angle cylinder bluff body transforms the formation mode, initial shape, and intensity of the vortices at the microscopic level, which in turn affects the shedding mode and distance of the vortices at the macroscopic level. When α = 0° and β = 0°, the maximum output voltage of the FIVPEH-C is 13.36 V, and the enhancement ratio reaches up to 108.01 % over the conventional one, which verifies better harvesting performance. This work provides important guidance for designing more efficient piezoelectric energy harvesters via various cutting angle cylinders.
Cutting angle cylinder, Energy harvesting, Enhanced performance, Galloping, Vortex-induced vibration
Wang, Junlei
d55dc6d0-734d-46e1-bedd-5ecc18df8702
Xia, Bing
801b327c-0493-491b-a342-9a027b72ab94
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Tian, Haigang
e0c6e2cd-2921-4098-b711-1c1c0c741e57
12 October 2023
Wang, Junlei
d55dc6d0-734d-46e1-bedd-5ecc18df8702
Xia, Bing
801b327c-0493-491b-a342-9a027b72ab94
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Tian, Haigang
e0c6e2cd-2921-4098-b711-1c1c0c741e57
Wang, Junlei, Xia, Bing, Yurchenko, Daniil and Tian, Haigang
(2023)
Enhanced performance of cutting angle cylinder piezoelectric energy harvester via coupling vortex-induced vibration and galloping.
Mechanical Systems and Signal Processing, 205, [110838].
(doi:10.1016/j.ymssp.2023.110838).
Abstract
This paper proposes a novel flow-induced vibration piezoelectric energy harvester with various cutting angle cylinders (FIVPEH-C), for coupling vortex-induced vibration and galloping as well as improving the energy harvesting efficiency. The conceptual designing of the piezoelectric energy harvester with different cutting angle cylinders is conducted, the theoretical models of fluid–structure-electric multi-physical coupled fields are derived, the aerodynamic parameters are solved by three-dimensional computational fluid dynamics (CFD) simulation, and the experimental prototypes of the harvester system are fabricated. The accuracy of the theoretical model is verified by the experimental results. The flow field reveals the vortex shedding characteristics and mode conversion mechanisms. The cutting angle cylinder bluff body transforms the formation mode, initial shape, and intensity of the vortices at the microscopic level, which in turn affects the shedding mode and distance of the vortices at the macroscopic level. When α = 0° and β = 0°, the maximum output voltage of the FIVPEH-C is 13.36 V, and the enhancement ratio reaches up to 108.01 % over the conventional one, which verifies better harvesting performance. This work provides important guidance for designing more efficient piezoelectric energy harvesters via various cutting angle cylinders.
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Junlei_Enhanced_perf_2023
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More information
Accepted/In Press date: 30 September 2023
e-pub ahead of print date: 12 October 2023
Published date: 12 October 2023
Additional Information:
Funding Information: this work was supported by the National Natural Science Foundation of China (Grant Nos. 51977196, 52277227, and 52307253), China Postdoctoral Science Foundation (Grant Nos. 2023TQ0314 and 2023M733229), Natural Science Foundation of Excellent Youth of Henan Province (Grant No. 222300420076), Program for Science & Technology Innovation Talents in Universities of Henan Province (Grant No. 23HASTIT010), Science and Technology Research & Development Joint Foundation of Henan Province- Young Scientists (Grant No. 225200810099), Key Research & Development and Promotion Project of Henan Province (Grant No. 232102221013) and Open Foundation of International Joint Research Center for Submarine Engineering Technology and Equipment (Grant No. 3132023366).
Keywords:
Cutting angle cylinder, Energy harvesting, Enhanced performance, Galloping, Vortex-induced vibration
Identifiers
Local EPrints ID: 485301
URI: http://eprints.soton.ac.uk/id/eprint/485301
ISSN: 0888-3270
PURE UUID: ac4805ac-5367-415d-a3e3-3a851ace6dce
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Date deposited: 04 Dec 2023 17:36
Last modified: 18 Mar 2024 04:04
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Contributors
Author:
Junlei Wang
Author:
Bing Xia
Author:
Daniil Yurchenko
Author:
Haigang Tian
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