Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery

Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery

This paper presents the development and characterization of a thermoelectric generator (TEG) system for waste heat recovery to low temperature in industrial processes. The relevance of this mode of electric energy harvest is that it is clean energy and it depends only on the capture of losses. These...

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Main Authors: Oswaldo Hideo Ando Junior, Nelson H. Calderon, Samara Silva de Souza
Format: Article
Language:English
Published: MDPI AG 2018-06-01
Series:Energies
Subjects:
thermoelectricity
energy harvest
green energy
seebeck effect
cogeneration
Online Access:http://www.mdpi.com/1996-1073/11/6/1555
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spelling doaj-9f122d8bf6cc4fbe9c6745c9d13d0d0f2020-11-24T23:12:14ZengMDPI AGEnergies1996-10732018-06-01116155510.3390/en11061555en11061555Characterization of a Thermoelectric Generator (TEG) System for Waste Heat RecoveryOswaldo Hideo Ando Junior0Nelson H. Calderon1Samara Silva de Souza2Department of Renewable Energies, UNILA, Federal University of Latin American Integration, Av. Sílvio Américo Sasdelli, 1842 Foz do Iguaçu-PR, BrazilDepartment of Renewable Energies, UNILA, Federal University of Latin American Integration, Av. Sílvio Américo Sasdelli, 1842 Foz do Iguaçu-PR, BrazilDepartment of Renewable Energies, UNILA, Federal University of Latin American Integration, Av. Sílvio Américo Sasdelli, 1842 Foz do Iguaçu-PR, BrazilThis paper presents the development and characterization of a thermoelectric generator (TEG) system for waste heat recovery to low temperature in industrial processes. The relevance of this mode of electric energy harvest is that it is clean energy and it depends only on the capture of losses. These residual energies from industrial processes are, in principle, released into the environment without being exploited. With the proposed device, the waste energy will not be released into the environment and will be used for electrical generation, which is useful for heat production. The characterization of TEGs that are used a data-acquisition system have measured data for the voltage, current, and temperature, in real-time, for temperatures down to 200 °C without signal degradation. As a result, the measured data has revealed an open circuit voltage of VOC = 0.4306 × ΔT, internal resistance of R0 = 9.41 Ω, with tolerance ΔRint = ±0.77 Ω, where Rint = 9.41 ± 0.77 Ω. The measurements were made on the condition that the maximum output was obtained at a temperature gradient of ΔT = 80 °C, resulting in a maximum power gain of Pout ≈ 29 W.http://www.mdpi.com/1996-1073/11/6/1555thermoelectricityenergy harvestgreen energyseebeck effectcogeneration
collection DOAJ
language English
format Article
sources DOAJ
author Oswaldo Hideo Ando Junior
Nelson H. Calderon
Samara Silva de Souza
spellingShingle Oswaldo Hideo Ando Junior
Nelson H. Calderon
Samara Silva de Souza
Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery
Energies
thermoelectricity
energy harvest
green energy
seebeck effect
cogeneration
author_facet Oswaldo Hideo Ando Junior
Nelson H. Calderon
Samara Silva de Souza
author_sort Oswaldo Hideo Ando Junior
title Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery
title_short Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery
title_full Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery
title_fullStr Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery
title_full_unstemmed Characterization of a Thermoelectric Generator (TEG) System for Waste Heat Recovery
title_sort characterization of a thermoelectric generator (teg) system for waste heat recovery
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2018-06-01
description This paper presents the development and characterization of a thermoelectric generator (TEG) system for waste heat recovery to low temperature in industrial processes. The relevance of this mode of electric energy harvest is that it is clean energy and it depends only on the capture of losses. These residual energies from industrial processes are, in principle, released into the environment without being exploited. With the proposed device, the waste energy will not be released into the environment and will be used for electrical generation, which is useful for heat production. The characterization of TEGs that are used a data-acquisition system have measured data for the voltage, current, and temperature, in real-time, for temperatures down to 200 °C without signal degradation. As a result, the measured data has revealed an open circuit voltage of VOC = 0.4306 × ΔT, internal resistance of R0 = 9.41 Ω, with tolerance ΔRint = ±0.77 Ω, where Rint = 9.41 ± 0.77 Ω. The measurements were made on the condition that the maximum output was obtained at a temperature gradient of ΔT = 80 °C, resulting in a maximum power gain of Pout ≈ 29 W.
topic thermoelectricity
energy harvest
green energy
seebeck effect
cogeneration
url http://www.mdpi.com/1996-1073/11/6/1555
work_keys_str_mv AT oswaldohideoandojunior characterizationofathermoelectricgeneratortegsystemforwasteheatrecovery
AT nelsonhcalderon characterizationofathermoelectricgeneratortegsystemforwasteheatrecovery
AT samarasilvadesouza characterizationofathermoelectricgeneratortegsystemforwasteheatrecovery
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