Smart Materials and Structures, ( ISI ), Volume (1), No (1), Year (2017-12) , Pages (1-16)

Title : ( Size-dependent piezoelectric energyharvesting analysis of micro/nano bridges subjected to random ambient excitations )

Authors: Moeen Rad Golchin Mashhadi , Hamid Moeenfard ,

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Abstract

The construction of self-powered micro-electro-mechanical units by converting the mechanical energy of the systems into electrical power has attracted much attention in recent years. While power harvesting from deterministic external excitations is state of the art, it has been much more difficult to derive mathematical models for scavenging electrical energy from ambient random vibrations, due to the stochastic nature of the excitations. The current research concerns analytical modeling of micro-bridge energy harvesters based on random vibration theory. Since classical elasticity fails to accurately predict the mechanical behavior of micro-structures, strain gradient theory is employed as a powerful tool to increase the accuracy of the random vibration modeling of the micro-harvester. Equations of motion of the system in the time domain are derived using the Lagrange approach. These are then utilized to determine the frequency and impulse responses of the structure. Assuming the energy harvester to be subjected to a combination of broadband and limited-band random support motion and transverse loading, closed-form expressions for mean, mean square, correlation and spectral density of the output power are derived. The suggested formulation is further exploited to investigate the effect of the different design parameters, including the geometric properties of the structure as well as the properties of the electrical circuit on the resulting power. Furthermore, the effect of length scale parameters on the harvested energy is investigated in detail. It is observed that the predictions of classical and even simple size-dependent theories(such as couple stress)appreciably differ from thefindings of strain gradient theory on the basis of random vibration. This study presents afirsttime modeling of micro-scale harvesters under stochastic excitations using a size-dependent approach and can be considered as a reliable foundation for future research in thefield of micro/ nano harvesters subjected to non-deterministic loads.

Keywords

, strain gradient theory, random vibration, resistance load, spectral density, harvested power
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@article{paperid:1066258,
author = {Rad Golchin Mashhadi, Moeen and Moeenfard, Hamid},
title = {Size-dependent piezoelectric energyharvesting analysis of micro/nano bridges subjected to random ambient excitations},
journal = {Smart Materials and Structures},
year = {2017},
volume = {1},
number = {1},
month = {December},
issn = {0964-1726},
pages = {1--16},
numpages = {15},
keywords = {strain gradient theory; random vibration; resistance load; spectral density; harvested power},
}

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%0 Journal Article
%T Size-dependent piezoelectric energyharvesting analysis of micro/nano bridges subjected to random ambient excitations
%A Rad Golchin Mashhadi, Moeen
%A Moeenfard, Hamid
%J Smart Materials and Structures
%@ 0964-1726
%D 2017

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