Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power

School of Engineering

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Abstract

Published

Standard

Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power. / Ye, Jianqiao ; Daraji, Ali Hossain Alewai.
ICCS20 20th International Conference on Composite Structures. ed. / Antonio Ferreira; walid Larbi; Jean-Francois Deu; Francisco Tornabene; Nikolaos Fantuzzi. Societa Editorice Esculapio, 2017. (Structural and Computational Mechanics Book Series).

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Abstract

Harvard

Ye, J & Daraji, AHA 2017, Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power. in A Ferreira, W Larbi, J-F Deu, F Tornabene & N Fantuzzi (eds), ICCS20 20th International Conference on Composite Structures. Structural and Computational Mechanics Book Series, Societa Editorice Esculapio.

APA

Ye, J., & Daraji, A. H. A. (2017). Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power. In A. Ferreira, W. Larbi, J-F. Deu, F. Tornabene, & N. Fantuzzi (Eds.), ICCS20 20th International Conference on Composite Structures (Structural and Computational Mechanics Book Series). Societa Editorice Esculapio.

Vancouver

Ye J , Daraji AHA. Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power. In Ferreira A, Larbi W, Deu J-F, Tornabene F, Fantuzzi N, editors, ICCS20 20th International Conference on Composite Structures. Societa Editorice Esculapio. 2017. (Structural and Computational Mechanics Book Series).

Author

Ye, Jianqiao ; Daraji, Ali Hossain Alewai. / Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power. ICCS20 20th International Conference on Composite Structures. editor / Antonio Ferreira ; walid Larbi ; Jean-Francois Deu ; Francisco Tornabene ; Nikolaos Fantuzzi. Societa Editorice Esculapio, 2017. (Structural and Computational Mechanics Book Series).

Bibtex

@inbook{e1fc4dc4fbf74d62acb77871ef9feba3,

title = "Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power",

abstract = "In structural health monitoring, the concept of converting structural dynamic strain into electricity using piezoelectric transducers to powering micro electric devices of the wireless sensor network has received significant attention by researchers and industrial companies to find an alternative solution of the limited span life conventional batteries. The working static and dynamic strain of piezoelectric transducers are limited by the manufacturer and have a strong effect on the sensor working period life and the amount of harvesting power. This study is proposed an effective solution to protect and extend the working life of the piezoelectric sensors and maximise the output power with regardless of the maximum amplitude of the structural static and dynamic strain. This study was achieved by designing a resonance piezoelectric cantilever beam mounted on flexible structures and tested with different types of structures subjected to the variable amplitude of static and dynamic strain. ",

author = "Jianqiao Ye and Daraji, {Ali Hossain Alewai}",

year = "2017",

month = sep,

language = "English",

isbn = "9788893850414",

series = "Structural and Computational Mechanics Book Series",

publisher = "Societa Editorice Esculapio",

editor = "Antonio Ferreira and walid Larbi and Jean-Francois Deu and Francisco Tornabene and Nikolaos Fantuzzi",

booktitle = "ICCS20 20th International Conference on Composite Structures",

}

RIS

TY - CHAP

T1 - Energy harvesting of composite cantilever beam mounted on flexible structures to protect piezoelectric sensor and maximisation of the output power

AU - Ye, Jianqiao

AU - Daraji, Ali Hossain Alewai

PY - 2017/9

Y1 - 2017/9

N2 - In structural health monitoring, the concept of converting structural dynamic strain into electricity using piezoelectric transducers to powering micro electric devices of the wireless sensor network has received significant attention by researchers and industrial companies to find an alternative solution of the limited span life conventional batteries. The working static and dynamic strain of piezoelectric transducers are limited by the manufacturer and have a strong effect on the sensor working period life and the amount of harvesting power. This study is proposed an effective solution to protect and extend the working life of the piezoelectric sensors and maximise the output power with regardless of the maximum amplitude of the structural static and dynamic strain. This study was achieved by designing a resonance piezoelectric cantilever beam mounted on flexible structures and tested with different types of structures subjected to the variable amplitude of static and dynamic strain.

AB - In structural health monitoring, the concept of converting structural dynamic strain into electricity using piezoelectric transducers to powering micro electric devices of the wireless sensor network has received significant attention by researchers and industrial companies to find an alternative solution of the limited span life conventional batteries. The working static and dynamic strain of piezoelectric transducers are limited by the manufacturer and have a strong effect on the sensor working period life and the amount of harvesting power. This study is proposed an effective solution to protect and extend the working life of the piezoelectric sensors and maximise the output power with regardless of the maximum amplitude of the structural static and dynamic strain. This study was achieved by designing a resonance piezoelectric cantilever beam mounted on flexible structures and tested with different types of structures subjected to the variable amplitude of static and dynamic strain.

M3 - Abstract

SN - 9788893850414

T3 - Structural and Computational Mechanics Book Series

BT - ICCS20 20th International Conference on Composite Structures

A2 - Ferreira, Antonio

A2 - Larbi, walid

A2 - Deu, Jean-Francois

A2 - Tornabene, Francisco

A2 - Fantuzzi, Nikolaos

PB - Societa Editorice Esculapio

ER -

Research