Journal ArticleDOI
A comprehensive review on vibration energy harvesting: Modelling and realization
Chongfeng Wei,Xingjian Jing +1 more
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Abstract:
This paper presents a state-of-the-art review on a hot topic in the literature, i.e., vibration based energy harvesting techniques, including theory, modelling methods and the realizations of the piezoelectric, electromagnetic and electrostatic approaches. To minimize the requirement of external power source and maintenance for electric devices such as wireless sensor networks, the energy harvesting technique based on vibrations has been a dynamic field of studying interest over past years. One important limitation of existing energy harvesting techniques is that the power output performance is seriously subject to the resonant frequencies of ambient vibrations, which are often random and broadband. To solve this problem, researchers have concentrated on developing efficient energy harvesters by adopting new materials and optimising the harvesting devices. Particularly, among these approaches, different types of energy harvesters have been designed with consideration of nonlinear characteristics so that the frequency bandwidth for effective energy harvesting of energy harvesters can be broadened. This paper reviews three main and important vibration-to-electricity conversion mechanisms, their design theory or methods and potential applications in the literature. As one of important factors to estimate the power output performance, the energy conversion efficiency of different conversion mechanisms is also summarised. Finally, the challenging issues based on the existing methods and future requirement of energy harvesting are discussed.read more
Citations
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Journal ArticleDOI
High-Performance Piezoelectric Energy Harvesters and Their Applications
TL;DR: A comprehensive review of piezoelectric energy-harvesting techniques developed in the last decade is presented, identifying four promising applications: shoes, pacemakers, tire pressure monitoring systems, and bridge and building monitoring.
Journal ArticleDOI
A comprehensive review on piezoelectric energy harvesting technology: Materials, mechanisms, and applications
TL;DR: A comprehensive review on the state-of-the-art of piezoelectric energy harvesting is presented, including basic fundamentals and configurations, materials and fabrication, performance enhancement mechanisms, applications, and future outlooks.
Journal ArticleDOI
Vibration energy harvesting in automotive suspension system: A detailed review
Mohamed A. A. Abdelkareem,Mohamed A. A. Abdelkareem,Lin Xu,Mohamed Kamal Ahmed Ali,Mohamed Kamal Ahmed Ali,Ahmed Elagouz,Ahmed Elagouz,Jia Mi,Sijing Guo,Sijing Guo,Yilun Liu,Lei Zuo +11 more
TL;DR: The challenging issues and research gaps that remain unresolved are addressed, some recommendations regarding such challenges are stated for further research and the most common energy harvesting systems in vehicle suspensions are compared in terms of advantages and limitations.
Journal ArticleDOI
Mechanical modulations for enhancing energy harvesting: Principles, methods and applications
Hong-Xiang Zou,Hong-Xiang Zou,Lin-Chuan Zhao,Qiu-Hua Gao,Lei Zuo,Feng-Rui Liu,Ting Tan,Kexiang Wei,Wen-Ming Zhang +8 more
TL;DR: In this paper, the key roles of mechanical modulations for energy harvesting are emphasized, and the methods and principles of mechanical modulation and their applications to energy harvesting systems are reviewed and classified into three categories: excitation type conversions, frequency up-conversions, force/motion amplifications.
Journal ArticleDOI
Ambient vibration energy harvesters: A review on nonlinear techniques for performance enhancement
TL;DR: A critical review of nonlinear techniques which have been investigated for performance enhancement of energy harvesters in the past decade and the present state of the art of energy Harvesters which utilise this technique is conducted.
References
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Journal ArticleDOI
Vibration control of an electrorheological fluid-based suspension system with an energy regenerative mechanism:
TL;DR: In this paper, a controllable electrorheological (ER) shock absorber activated by an energy generator without external power sources was used to attenuate vehicle suspension vibration under bumpy and sinusoidal road conditions.
Dissertation
Modeling and design of a MEMS piezoelectric vibration energy harvester
Du Toit,Noël Eduard +1 more
Abstract: The modeling and design of MEMS-scale piezoelectric-based vibration energy harvesters (MPVEH) are presented. The work is motivated by the need for pervasive and limitless power for wireless sensor nodes that have application in structural health monitoring, homeland security, and infrastructure monitoring. A review of prior millito micro-scale harvesters is provided. Common ambient low-level vibration sources are characterized experimentally. Coupled with a dissipative system model and a mechanical damping investigation, a new scale-dependent operating frequency selection scheme is presented. Coupled electromechanical structural models are developed, based on the linear piezoelectric constitutive description, to predict uni-morph and bi-morph cantilever beam harvester performance. Piezoelectric coupling non-intuitively cancels from the power prediction under power-optimal operating conditions, although the voltage and current are still dependent on this property. Piezoelectric material selection and mode of operation ({3-1} vs. {3-3}) therefore have little effect on the maximum power extracted. The model is verified for resonance and off-resonance operation by comparison to new experimental results for a macro-scale harvester. Excellent correlation is obtained away from resonances in the small-strain linear piezoelectric regime. The model consistently underpredicts the response at resonances due to the known non-linear piezoelectric constitutive response (higher strain regime). Applying the model, an optimized single prototype bimorph MPVEH is designed concurrently with a microfabrication scheme. A low-level (2.5 m/s), low-frequency (150 Hz) vibration source is targeted for anti-resonance operation, and a power density of 313 μW/cm and peak-to-peak voltage of 0.38 V are predicted per harvester. Methodologies for the scalar analysis and optimization of uni-morph and bi-morph harvesters are developed, as well as a scheme for chip-level assembly of harvester clusters to meet different node power requirements. Thesis Supervisor: Brian L. Wardle Title: Boeing Assistant Professor
Proceedings ArticleDOI
Power harvesting for railroad track health monitoring using piezoelectric and inductive devices
TL;DR: In this paper, two principal methods for harvesting mechanical power from passing railcars in order to supply electrical power to remote networks of sensors were investigated. But the authors only considered an inductive voice coil device directly driven by vertical rail displacement and a piezoelectric device that was attached to the bottom of the rail.
Journal ArticleDOI
Renewable energy harvesting for wireless sensors using passive RFID tag technology: A review
TL;DR: The two most readily available and feasible options of a sustainable energy for applications involving wireless sensors from renewable or sustainable sources are found out to be RF (Radio Frequency) signal and solar radiation.
Journal ArticleDOI
Broadband energy harvesting using nonlinear vibrations of a magnetopiezoelastic cantilever beam
TL;DR: In this paper, the authors investigated the mechanical behavior of a unimorph piezoelectric cantilever beam with a tip magnet and nonlinear boundary conditions imposed by repelling permanent two external magnets, subjected to a harmonic base excitation.
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