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Design a low-frequency vibration energy harvesting device based on a square spiral beam local resonant phononic crystal

Zhemin Chai, Tong Zheng, Jiawei Xiang

2024Physica B Condensed Matter13 citationsDOIOpen Access PDF

Abstract

Self-powered miniature wireless sensors play a crucial role in Internet of Things technology . Harvesting low-frequency environmental vibrations to achieve self-powering of sensors is a current hot topic in research. In this study, a square spiral beam local resonant phononic crystal is designed for low-frequency vibrational energy harvesting . Initially, the bandgap and vibrational modes of an ideal phononic crystal at infinite period are analyzed by the finite element method ; the possibility of using the structure to harvest vibrational energy is explored. Subsequently, a PnC plate model with a unit cell is built, and its vibrational modes are analyzed, verifying that it possesses similar vibrational properties. Following this, a piezoelectric vibration energy harvesting device is assembled and its energy harvesting performance is analyzed. Numerical simulations indicate that the designed device can achieve a maximum power density of 52.14 μW/cm 2 . Physical experiments validate the excellent energy harvesting performance of the device. The device offering a new option for designing self-powered devices for wireless miniature sensors.

Topics & Concepts

Energy harvestingVibrationMaterials scienceSpiral (railway)Beam (structure)AcousticsPiezoelectricitySquare (algebra)Energy (signal processing)Crystal (programming language)OptoelectronicsOpticsPhysicsComputer scienceMechanical engineeringProgramming languageGeometryQuantum mechanicsEngineeringMathematicsAcoustic Wave Phenomena ResearchInnovative Energy Harvesting TechnologiesMetamaterials and Metasurfaces Applications
Design a low-frequency vibration energy harvesting device based on a square spiral beam local resonant phononic crystal | Litcius