Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle

Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle

This paper presents a modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicles. It is structured around three main objectives. The first is to present a model of STEG (Solar Thermoelectric Generator) equipped with a vortex tube and a turbocharger which,...

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Main Authors: B.E. Mtopi Fotso, R.C. Talawo, M.C. Feudjio Nguefack, M. Fogue
Format: Article
Language:English
Published: Elsevier 2019-11-01
Series:Case Studies in Thermal Engineering
Online Access:http://www.sciencedirect.com/science/article/pii/S2214157X19301571
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spelling doaj-c3c0104ced2749cb871c3a9365927a532020-11-25T01:08:56ZengElsevierCase Studies in Thermal Engineering2214-157X2019-11-0115Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicleB.E. Mtopi Fotso0R.C. Talawo1M.C. Feudjio Nguefack2M. Fogue3Industrial Systems and Environmental Engineering Research Unit (UR-ISIE), University of Dschang, Dschang 96, Cameroon; Mechanics and Modeling of Physical System Research Unit (UR-2MSP), University of Dschang, Dschang 96, Cameroon; Department of Mechanical Engineering and Computer Integrated Manufacturing, Fotso Victor Institute of Technology of Bandjoun, University of Dschang, CameroonIndustrial Systems and Environmental Engineering Research Unit (UR-ISIE), University of Dschang, Dschang 96, Cameroon; Mechanics and Modeling of Physical System Research Unit (UR-2MSP), University of Dschang, Dschang 96, Cameroon; Department of Mechanical Engineering and Computer Integrated Manufacturing, Fotso Victor Institute of Technology of Bandjoun, University of Dschang, Cameroon; Corresponding author.Industrial Systems and Environmental Engineering Research Unit (UR-ISIE), University of Dschang, Dschang 96, Cameroon; Mechanics and Modeling of Physical System Research Unit (UR-2MSP), University of Dschang, Dschang 96, Cameroon; Department of Mechanical Engineering and Computer Integrated Manufacturing, Fotso Victor Institute of Technology of Bandjoun, University of Dschang, CameroonIndustrial Systems and Environmental Engineering Research Unit (UR-ISIE), University of Dschang, Dschang 96, Cameroon; Mechanics and Modeling of Physical System Research Unit (UR-2MSP), University of Dschang, Dschang 96, Cameroon; Department of Mechanical Engineering and Computer Integrated Manufacturing, Fotso Victor Institute of Technology of Bandjoun, University of Dschang, CameroonThis paper presents a modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicles. It is structured around three main objectives. The first is to present a model of STEG (Solar Thermoelectric Generator) equipped with a vortex tube and a turbocharger which, installed on a vehicle, produces electrical energy from the heat flows generated by the vortex tubes and solar radiation via the Seebeck effect to power the vehicle accessories and to compensate for some of the heat loss caused by the flow of air on the vehicle. The second objective is to determine the energy supply of the vortex tube by a thermodynamic approach and to carry out a thermal study of the whole device to determine the hot and cold side heat flows of the thermoelectric parts. Finally, the last objective is to determine the electrical current, power and output produced as a function of the parameters such as the speed of the vehicle, the fraction of cold air mass leaving the vortex tube and solar fluxes. As a result, we found that the electric power and the current decrease first at the start of the vehicle then converge quickly to different values depending on the setting of the cold air fraction of the vortex tube ranging from 0.05 to 0.9 and those for a solar flux of 178.59W/m2. So for a 3042 standard thermocouple pair STEG module, and a small size vortex tube used in recent work, we get a 55.5 m/s vehicle speed and a cold air fraction adjustment of 0.9, a power of 147.3 W and an electric current of 1.49 A. These values are very encouraging as they would increase considerably if thermoelectric materials recent and a high performance vortex tube are used. Keywords: Solar thermoelectric generator, STEG, Vortex tube, Hybrid's car, Thermal analysis, Energy conversionhttp://www.sciencedirect.com/science/article/pii/S2214157X19301571
collection DOAJ
language English
format Article
sources DOAJ
author B.E. Mtopi Fotso
R.C. Talawo
M.C. Feudjio Nguefack
M. Fogue
spellingShingle B.E. Mtopi Fotso
R.C. Talawo
M.C. Feudjio Nguefack
M. Fogue
Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
Case Studies in Thermal Engineering
author_facet B.E. Mtopi Fotso
R.C. Talawo
M.C. Feudjio Nguefack
M. Fogue
author_sort B.E. Mtopi Fotso
title Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
title_short Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
title_full Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
title_fullStr Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
title_full_unstemmed Modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
title_sort modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicle
publisher Elsevier
series Case Studies in Thermal Engineering
issn 2214-157X
publishDate 2019-11-01
description This paper presents a modeling and thermal analysis of a solar thermoelectric generator with vortex tube for hybrid vehicles. It is structured around three main objectives. The first is to present a model of STEG (Solar Thermoelectric Generator) equipped with a vortex tube and a turbocharger which, installed on a vehicle, produces electrical energy from the heat flows generated by the vortex tubes and solar radiation via the Seebeck effect to power the vehicle accessories and to compensate for some of the heat loss caused by the flow of air on the vehicle. The second objective is to determine the energy supply of the vortex tube by a thermodynamic approach and to carry out a thermal study of the whole device to determine the hot and cold side heat flows of the thermoelectric parts. Finally, the last objective is to determine the electrical current, power and output produced as a function of the parameters such as the speed of the vehicle, the fraction of cold air mass leaving the vortex tube and solar fluxes. As a result, we found that the electric power and the current decrease first at the start of the vehicle then converge quickly to different values depending on the setting of the cold air fraction of the vortex tube ranging from 0.05 to 0.9 and those for a solar flux of 178.59W/m2. So for a 3042 standard thermocouple pair STEG module, and a small size vortex tube used in recent work, we get a 55.5 m/s vehicle speed and a cold air fraction adjustment of 0.9, a power of 147.3 W and an electric current of 1.49 A. These values are very encouraging as they would increase considerably if thermoelectric materials recent and a high performance vortex tube are used. Keywords: Solar thermoelectric generator, STEG, Vortex tube, Hybrid's car, Thermal analysis, Energy conversion
url http://www.sciencedirect.com/science/article/pii/S2214157X19301571
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