Recent Developments of Acoustic Energy Harvesting: A Review
TLDR
It is demonstrated that the AEH technique will become an essential part of the environmental energy-harvesting research field and the major challenge is to integrate AEH devices into engineering structures and make composite structures smarter to achieve large-scale AEH.Abstract:
Acoustic energy is a type of environmental energy source that can be scavenged and converted into electrical energy for small-scale power applications. In general, incident sound power density is low and structural design for acoustic energy harvesting (AEH) is crucial. This review article summarizes the mechanisms of AEH, which include the Helmholtz resonator approach, the quarter-wavelength resonator approach, and the acoustic metamaterial approach. The details of recently proposed AEH devices and mechanisms are carefully reviewed and compared. Because acoustic metamaterials have the advantages of compactness, effectiveness, and flexibility, it is suggested that the emerging metamaterial-based AEH technique is highly suitable for further development. It is demonstrated that the AEH technique will become an essential part of the environmental energy-harvesting research field. As a multidisciplinary research topic, the major challenge is to integrate AEH devices into engineering structures and make composite structures smarter to achieve large-scale AEH.read more
Citations
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Acoustic Metamaterials: A Review of Theories, Structures, Fabrication Approaches, and Applications
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Acoustic-elastic metamaterials and phononic crystals for energy harvesting: a review
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Sound and vibration energy harvesting for railway applications: A review on linear and nonlinear techniques
TL;DR: This paper addresses different energy harvesting resources for the railway environment, diverse methods of energy harvesting and their advantages and drawbacks, and at the end, energy harvesting applications in the railway industry.
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A 3D-printed acoustic triboelectric nanogenerator for quarter-wavelength acoustic energy harvesting and self-powered edge sensing
TL;DR: In this paper, a 3D-printed acoustic triboelectric nanogenerator (A-TENG) with the properties of structural controllability, one-time molding, easy fabrication, and low cost is proposed.
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Enhancement of the low-frequency acoustic energy harvesting with auxetic resonators
TL;DR: In this paper, an auxetic lattice resonator backed by an acoustic rectangular tube is proposed to enhance the efficiency of the acoustic energy harvesting system by comparing the extracted power against performance of a conventional cantilever resonator at resonant-resonant condition.
References
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Book
Acoustics: An Introduction to Its Physical Principles and Applications
TL;DR: Pierces as mentioned in this paper is a classic text on acoustics with a rich history and development of the field of sound and acoustical engineering. But he organizes it superbly and writes intelligently with a wonderful way of integrating the history and evolution of the science and the graphics are exceptionally clear and communicative.
Journal ArticleDOI
Controlling sound with acoustic metamaterials
TL;DR: In this article, a review of the design and properties of active acoustic metamaterials can be found, as well as an overview of future directions in the field of sound manipulation.
Journal ArticleDOI
Acoustic metamaterials: From local resonances to broad horizons.
Guancong Ma,Ping Sheng +1 more
TL;DR: This review traces the development of acoustic metamaterials from the initial findings of mass density and bulk modulus frequency dispersions in locally resonant structures to the diverse functionalities afforded by the perspective of negative constitutive parameter values, and their implications for acoustic wave behaviors.
Journal ArticleDOI
Acoustic metasurface with hybrid resonances
TL;DR: It is demonstrated that by using a simple construction, an acoustically reflecting surface can acquire hybrid resonances and becomes impedance-matched to airborne sound at tunable frequencies, such that no reflection is generated.
Patent
Active control of noise and vibration
TL;DR: An active system for controlling vibration or sound includes a method for limiting the output gain G from a gradient descent algorithm, such as an LMS algorithm, according to the relationship ##EQU1## and reducing one of first and second filter weights W1 and W0 such that the output canceling signal is never saturated.