Piezoelectric stack energy harvesting with a force amplification frame: Modeling and experiment
Abstract
This article presents the modeling and experimental validation of a piezoelectric stack energy harvester with a flexure-free convex force amplification frame to convert walking force into electricity. Compared to a stand-alone piezoelectric stack, experiments show an 8 times greater voltage output and a 112 times greater power output of such an energy harvester. A finite element method is used to provide a more accurate electromechanical model using Hamilton’s principle and the piezoelectric constitutive equations. Simulation results from such a finite element method agree with the single-degree-of-freedom model. Experimental measurement shows the percentage errors of the output power are of 3.53% for the finite element method and 8.04% for the single-degree-of-freedom model of the piezoelectric stack energy harvester.
Metrics
Citation History
Topics
Related Documents
Deformable force amplification frame promoting piezoelectric stack energy harvesting: Parametric model, experiments and energy analysis
Design of a two-stage force amplification frame for piezoelectric energy harvesting
A Novel Piezoelectric Multilayer Stack Energy Harvester With Force Amplification
Piezoelectric Wafer-Stack Energy Harvesting FROM Large Force Vibration
Xuezheng JiangXiaoyu GuWang, Jiong
A design of tuned mass damper with piezoelectric stack energy harvester and two-stage force amplification frame
Ngọc Anh NguyễnTong Duc NangVũ Anh TuấnNguyen Dong AnhLa Duc VietTrần Tuấn AnhNguyễn Ngọc Linh