Paolo Gaudenzi scite author profile

From last few decades, piezoelectric materials have played a vital role as a mechanism of energy harvesting, as they have the tendency to absorb energy from the environment and transform it to electrical energy that can be used to drive electronic devices directly or indirectly. The power of electronic circuits has been cut down to nano or micro watts, which leads towards the development of self-designed piezoelectric transducers that can overcome power generation problems and can be self-powered. Moreover, piezoelectric energy harvesters (PEHs) can reduce the need for batteries, resulting in optimization of the weight of structures. These mechanisms are of great interest for many researchers, as piezoelectric transducers are capable of generating electric voltage in response to thermal, electrical, mechanical and electromagnetic input. In this review paper, Fluid Structure Interaction-based, human-based, and vibration-based energy harvesting mechanisms were studied. Moreover, qualitative and quantitative analysis of existing PEH mechanisms has been carried out.

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Drop-weight impact behaviour of woven hybrid basalt–carbon/epoxy composites

Sarasini

Tirillò

Ferrante

et al. 2014

Composites Part B: Engineering

215

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Energy Harvesting towards Self-Powered IoT Devices

et al. 2020

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The internet of things (IoT) manages a large infrastructure of web-enabled smart devices, small devices that use embedded systems, such as processors, sensors, and communication hardware to collect, send, and elaborate on data acquired from their environment. Thus, from a practical point of view, such devices are composed of power-efficient storage, scalable, and lightweight nodes needing power and batteries to operate. From the above reason, it appears clear that energy harvesting plays an important role in increasing the efficiency and lifetime of IoT devices. Moreover, from acquiring energy by the surrounding operational environment, energy harvesting is important to make the IoT device network more sustainable from the environmental point of view. Different state-of-the-art energy harvesters based on mechanical, aeroelastic, wind, solar, radiofrequency, and pyroelectric mechanisms are discussed in this review article. To reduce the power consumption of the batteries, a vital role is played by power management integrated circuits (PMICs), which help to enhance the system’s life span. Moreover, PMICs from different manufacturers that provide power management to IoT devices have been discussed in this paper. Furthermore, the energy harvesting networks can expose themselves to prominent security issues putting the secrecy of the system to risk. These possible attacks are also discussed in this review article.

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An Iterative Finite Element Procedure for the Analysis of Piezoelectric Continua

Gaudenzi¹,

Bathe

1995

Journal of Intelligent Material Systems and Structures

115

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<title>Improving transverse actuation of piezoceramics using interdigitated surface electrodes</title>

et al. 1993

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Control of beam vibrations by means of piezoelectric devices: theory and experiments

Gaudenzi

Carbonaro

Benzi

2000

Composite Structures

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Optimal placement of PZT actuators for the control of beam dynamics

Barboni

Mannini

Fantini

et al. 2000

Smart Mater. Struct.

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The dynamics of a flexural beam actuated by induced strain surface bonded (piezoelectric) actuators is considered. The bending moment produced by the single actuator is evaluated by means of the pin-force model. A modal approach is then used to build special dynamic influence functions which explicitly account for the size and the position of the actuator. Simple optimal geometrical conditions are then obtained and illustrated for several cases with different boundary conditions.

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Paolo Gaudenzi

Damage tolerance of carbon/flax hybrid composites subjected to low velocity impact

A Review on Mechanisms for Piezoelectric-Based Energy Harvesters

Drop-weight impact behaviour of woven hybrid basalt–carbon/epoxy composites

Energy Harvesting towards Self-Powered IoT Devices

An Iterative Finite Element Procedure for the Analysis of Piezoelectric Continua

<title>Improving transverse actuation of piezoceramics using interdigitated surface electrodes</title>

Control of beam vibrations by means of piezoelectric devices: theory and experiments

Optimal placement of PZT actuators for the control of beam dynamics

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