Abstract

As a promising energy-harvesting technique, an increasing number of researchers seek to exploit the piezoelectric effect to power electronic devices by harvesting the energy associated with water flow. In this emerging field, a variety of research themes attract interest for investigation; these include selection of the excitation mechanism, oscillation structure, piezoelectric material, power management interface circuit, and application. Since there has been no comprehensive review to date with respect to the harvesting of water flow using piezoelectric materials, herein relevant work in the last 25 years is reviewed. To ensure that key aspects of the water-flow energy harvester are overviewed, they are discussed in the context of energy-flow theory, which includes the three stages of energy extraction, energy conversion, and energy transfer. The development of each energy-flow process is reviewed in detail and combined with meta-analysis of the published literature. Correlations between the harvesting processes and their contribution to the overall energy-harvesting performance are illustrated, and directions for future research are also proposed. In this review, a comprehensive understanding of water-flow piezoelectric energy harvesting is provided and it is aimed to guide future research and the development of piezoelectric harvesters for water-flow-powered devices is promoted.
Original languageEnglish
Article number2300235
Number of pages33
JournalAdvanced Energy and Sustainability Research
Volume5
Issue number5
Early online date26 Jan 2024
DOIs
Publication statusPublished - 31 May 2024

Funding

Li acknowledges support from the NERC GW4+ Doctoral Training Partnership (project grant no. NE/S007504/1) and EMD Electro‐Mechanical Developments Ltd. Bowen acknowledges the support by UKRI Frontier Research Guarantee on “Processing of Smart Porous Electro‐Ceramic Transducers—ProSPECT,” project No. EP/X023265/1. Roscow acknowledges support from the EPSRC (project no. EP/V011332/1). For the purpose of open access, the authors have applied a Creative Commons Attribution (CC–BY) licence (where permitted by UKRI, “Open Government Licence” or “Creative Commons Attribution No‐derivatives [CC–BY–ND] licence may be stated instead) to any Author Accepted Manuscript version arising.

FundersFunder number
UK Research and InnovationEP/X023265/1
UK Research and Innovation
Engineering and Physical Sciences Research CouncilEP/V011332/1
Engineering and Physical Sciences Research Council
Natural Environment Research CouncilNE/S007504/1
Natural Environment Research Council

Keywords

  • flow-induced vibrations
  • interface circuits
  • piezoelectric energy harvesters
  • self-powered systems
  • water flows

ASJC Scopus subject areas

  • Environmental Science (miscellaneous)
  • Energy Engineering and Power Technology
  • Waste Management and Disposal
  • Ecology

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