Diseño e Implementación de un Prototipo Portable de Generación Piezoeléctrica

Miguel Portilla; Raúl Ludeña; Víctor Asanza; Miguel Dávila; Manuel Nevarez

doi:10.33333/rp.vol54n1.06

Diseño e Implementación de un Prototipo Portable de Generación Piezoeléctrica

Translated title of the contribution: Design and Implementation of a Portable Piezoelectric Power Generation Prototype

Miguel Portilla, Raúl Ludeña, Víctor Asanza, Miguel Dávila, Manuel Nevarez

Research output: Contribution to journal › Article › peer-review

Abstract

This document presents a research on the design and evaluation of a piezoelectric energy harvesting system using a mat with multiple piezoelectric elements. The research begins with an introduction on the importance of developing alternative sources of renewable energy for portable electronic devices. Subsequently, a literature review on human motion energy harvesting technologies is presented, with a focus on piezoelectric materials. The methodology describes the design of a piezoelectric mat prototype consisting of a rubber layer, an acrylic sheet, and multiple piezoelectric elements connected in parallel to an energy harvesting circuit. Tests were conducted to characterize the response of the piezoelectric sensors and evaluate the energy harvesting system under different configurations. The results indicate that a single element generated 18,59 μJ, while 10 connected elements produced 297,4 μJ with a voltage of 0,57 V. Furthermore, the system enables remote data acquisition through the IoT platform Thingspeak.

Translated title of the contribution	Design and Implementation of a Portable Piezoelectric Power Generation Prototype
Original language	Spanish
Pages (from-to)	53-64
Number of pages	12
Journal	Revista Politecnica
Volume	54
Issue number	1
DOIs	https://doi.org/10.33333/rp.vol54n1.06
State	Published - Aug 1 2024

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title = "Dise{\~n}o e Implementaci{\'o}n de un Prototipo Portable de Generaci{\'o}n Piezoel{\'e}ctrica",

abstract = "This document presents a research on the design and evaluation of a piezoelectric energy harvesting system using a mat with multiple piezoelectric elements. The research begins with an introduction on the importance of developing alternative sources of renewable energy for portable electronic devices. Subsequently, a literature review on human motion energy harvesting technologies is presented, with a focus on piezoelectric materials. The methodology describes the design of a piezoelectric mat prototype consisting of a rubber layer, an acrylic sheet, and multiple piezoelectric elements connected in parallel to an energy harvesting circuit. Tests were conducted to characterize the response of the piezoelectric sensors and evaluate the energy harvesting system under different configurations. The results indicate that a single element generated 18,59 μJ, while 10 connected elements produced 297,4 μJ with a voltage of 0,57 V. Furthermore, the system enables remote data acquisition through the IoT platform Thingspeak.",

keywords = "Energy harvesting, Enewable energy, Human movement, IoT, Piezoelectric mat",

author = "Miguel Portilla and Ra{\'u}l Lude{\~n}a and V{\'i}ctor Asanza and Miguel D{\'a}vila and Manuel Nevarez",

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T1 - Diseño e Implementación de un Prototipo Portable de Generación Piezoeléctrica

AU - Portilla, Miguel

AU - Ludeña, Raúl

AU - Asanza, Víctor

AU - Dávila, Miguel

AU - Nevarez, Manuel

PY - 2024/8/1

Y1 - 2024/8/1

N2 - This document presents a research on the design and evaluation of a piezoelectric energy harvesting system using a mat with multiple piezoelectric elements. The research begins with an introduction on the importance of developing alternative sources of renewable energy for portable electronic devices. Subsequently, a literature review on human motion energy harvesting technologies is presented, with a focus on piezoelectric materials. The methodology describes the design of a piezoelectric mat prototype consisting of a rubber layer, an acrylic sheet, and multiple piezoelectric elements connected in parallel to an energy harvesting circuit. Tests were conducted to characterize the response of the piezoelectric sensors and evaluate the energy harvesting system under different configurations. The results indicate that a single element generated 18,59 μJ, while 10 connected elements produced 297,4 μJ with a voltage of 0,57 V. Furthermore, the system enables remote data acquisition through the IoT platform Thingspeak.

AB - This document presents a research on the design and evaluation of a piezoelectric energy harvesting system using a mat with multiple piezoelectric elements. The research begins with an introduction on the importance of developing alternative sources of renewable energy for portable electronic devices. Subsequently, a literature review on human motion energy harvesting technologies is presented, with a focus on piezoelectric materials. The methodology describes the design of a piezoelectric mat prototype consisting of a rubber layer, an acrylic sheet, and multiple piezoelectric elements connected in parallel to an energy harvesting circuit. Tests were conducted to characterize the response of the piezoelectric sensors and evaluate the energy harvesting system under different configurations. The results indicate that a single element generated 18,59 μJ, while 10 connected elements produced 297,4 μJ with a voltage of 0,57 V. Furthermore, the system enables remote data acquisition through the IoT platform Thingspeak.

KW - Energy harvesting

KW - Enewable energy

KW - Human movement

KW - IoT

KW - Piezoelectric mat

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JO - Revista Politecnica

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Diseño e Implementación de un Prototipo Portable de Generación Piezoeléctrica

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