Piezoelectric energy harvester converting wind aerodynamic energy into electrical energy for microelectronic application

Sitharthan R; Yuvaraj S; Sanjeevikumar Padmanabhan; Jens Bo Holm‐Nielsen; Sujith M; Rajesh M; Prabaharan N; vengatesan K

doi:10.1049/rpg2.12119

IET Renewable Power Generation (Jul 2021)

Piezoelectric energy harvester converting wind aerodynamic energy into electrical energy for microelectronic application

Sitharthan R,
Yuvaraj S,
Sanjeevikumar Padmanabhan,
Jens Bo Holm‐Nielsen,
Sujith M,
Rajesh M,
Prabaharan N,
vengatesan K

Affiliations

Sitharthan R: Department of Electrical Engineering, School of Electrical Engineering Vellore Institute of Technology Vellore India
Yuvaraj S: Department of Electronics and Communication Engineering SRM Institute of Science and Technology Kattankulathur Chennai India
Sanjeevikumar Padmanabhan: Center for Bioenergy and Green Engineering, Department of Energy Technology Aalborg University Esbjerg Denmark
Jens Bo Holm‐Nielsen: Center for Bioenergy and Green Engineering, Department of Energy Technology Aalborg University Esbjerg Denmark
Sujith M: Department of Electrical and Electronics Engineering IFET College of Engineering Villupuram India
Rajesh M: Department of Computer Science Engineering Sanjivani College of Engineering Kopargaon India
Prabaharan N: School of Electrical and Electronics Engineering SASTRA Deemed University, Tirumalaisamudram Thanjavur Tamilnadu India
vengatesan K: Department of Computer Science Engineering Sanjivani College of Engineering Kopargaon India

DOI: https://doi.org/10.1049/rpg2.12119
Journal volume & issue: Vol. 15, no. 9
pp. 1968 – 1975

Abstract

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Abstract Piezoelectric Energy Harvesting Systems play a vital role in energizing microelectronic devices with the low‐frequency operation. Here, a novel piezoelectric energy harvesting device has been developed for low power electronic devices. The developed Piezoelectric Energy Harvesting Systems consists of a cantilever with poles projecting outwards and the cantilevers one end is connected to the wind‐catcher, and another end is connected to the torsional spring. The developed Piezoelectric Energy Harvesting Systems signifies its application in energizing microelectronic devices. The cantilever is placed inwards to the piezoelectric crystal stack. When the wind strikes, a vortex is created in the windcatcher, which oscillates the cantilever and generates stress in the piezoelectric crystal stack to develop electric energy. The output voltage obtained from the Piezoelectric Energy Harvesting Systems does not affect any input frequency of the piezoelectric crystal. The result obtained shows that the developed Piezoelectric Energy Harvesting Systems generates 120–200 eV with 2.9 × 1016–4.84 × 1016 Hz frequency considering an elementary charge unit as 40 for a variable wind flow of 4–9 m/s. This research aims to develop an efficient wind‐based Piezoelectric Energy Harvesting Systems for low powered microelectronic devices.

Published in IET Renewable Power Generation

ISSN: 1752-1416 (Print); 1752-1424 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17521424

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