Ultra-low-frequency rotational energy harvesting from a fiber-constrained dielectric elastomer generator with a two-dwell cylindrical cam mechanism

Peng Fan; Jiachuan Han; Shuanglu Quan; Qiao Hu; Tongqing Lu; Zicai Zhu

doi:10.1080/15376494.2024.2446712

Ultra-low-frequency rotational energy harvesting from a fiber-constrained dielectric elastomer generator with a two-dwell cylindrical cam mechanism

Peng Fan
, Jiachuan Han
, Shuanglu Quan
, Qiao Hu
, Tongqing Lu
, Zicai Zhu

Xi'an Jiaotong University
Chang'an University

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

1 Scopus citations

Abstract

In view of the increasing demand on harvesting electrical energy from ultra-low-frequency rotational machinery for energy-autonomous structural health monitoring, the dielectric elastomer (DE)-based rotational energy harvesting (EH) technology has become a promising solution. Therefore, this paper proposed a DE-based ultra-low-frequency rotational energy harvester consisting of a fiber-constrained DE generator with a two-dwell cylindrical cam mechanism. Electromechanical coupling model of the harvester is developed to investigate its performance under varied parameters for performance improvement. Results show EH performance of the harvester is improved by extending rising time or returning time of the cam, which provides guidance for designing high-performance harvesters.

Original language	English
Journal	Mechanics of Advanced Materials and Structures
DOIs	https://doi.org/10.1080/15376494.2024.2446712
State	Accepted/In press - 2025

Keywords

Energy harvesting
dielectric elastomer
electromechanical coupling
rotational energy

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10.1080/15376494.2024.2446712

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title = "Ultra-low-frequency rotational energy harvesting from a fiber-constrained dielectric elastomer generator with a two-dwell cylindrical cam mechanism",

abstract = "In view of the increasing demand on harvesting electrical energy from ultra-low-frequency rotational machinery for energy-autonomous structural health monitoring, the dielectric elastomer (DE)-based rotational energy harvesting (EH) technology has become a promising solution. Therefore, this paper proposed a DE-based ultra-low-frequency rotational energy harvester consisting of a fiber-constrained DE generator with a two-dwell cylindrical cam mechanism. Electromechanical coupling model of the harvester is developed to investigate its performance under varied parameters for performance improvement. Results show EH performance of the harvester is improved by extending rising time or returning time of the cam, which provides guidance for designing high-performance harvesters.",

keywords = "Energy harvesting, dielectric elastomer, electromechanical coupling, rotational energy",

author = "Peng Fan and Jiachuan Han and Shuanglu Quan and Qiao Hu and Tongqing Lu and Zicai Zhu",

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journal = "Mechanics of Advanced Materials and Structures",

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T1 - Ultra-low-frequency rotational energy harvesting from a fiber-constrained dielectric elastomer generator with a two-dwell cylindrical cam mechanism

AU - Fan, Peng

AU - Han, Jiachuan

AU - Quan, Shuanglu

AU - Hu, Qiao

AU - Lu, Tongqing

AU - Zhu, Zicai

PY - 2025

Y1 - 2025

N2 - In view of the increasing demand on harvesting electrical energy from ultra-low-frequency rotational machinery for energy-autonomous structural health monitoring, the dielectric elastomer (DE)-based rotational energy harvesting (EH) technology has become a promising solution. Therefore, this paper proposed a DE-based ultra-low-frequency rotational energy harvester consisting of a fiber-constrained DE generator with a two-dwell cylindrical cam mechanism. Electromechanical coupling model of the harvester is developed to investigate its performance under varied parameters for performance improvement. Results show EH performance of the harvester is improved by extending rising time or returning time of the cam, which provides guidance for designing high-performance harvesters.

AB - In view of the increasing demand on harvesting electrical energy from ultra-low-frequency rotational machinery for energy-autonomous structural health monitoring, the dielectric elastomer (DE)-based rotational energy harvesting (EH) technology has become a promising solution. Therefore, this paper proposed a DE-based ultra-low-frequency rotational energy harvester consisting of a fiber-constrained DE generator with a two-dwell cylindrical cam mechanism. Electromechanical coupling model of the harvester is developed to investigate its performance under varied parameters for performance improvement. Results show EH performance of the harvester is improved by extending rising time or returning time of the cam, which provides guidance for designing high-performance harvesters.

KW - Energy harvesting

KW - dielectric elastomer

KW - electromechanical coupling

KW - rotational energy

UR - https://www.scopus.com/pages/publications/85214203463

U2 - 10.1080/15376494.2024.2446712

DO - 10.1080/15376494.2024.2446712

M3 - 文章

AN - SCOPUS:85214203463

SN - 1537-6494

JO - Mechanics of Advanced Materials and Structures

JF - Mechanics of Advanced Materials and Structures

ER -

Ultra-low-frequency rotational energy harvesting from a fiber-constrained dielectric elastomer generator with a two-dwell cylindrical cam mechanism

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