Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power

Alireza Rezaniakolaei; Lasse Rosendahl; Kim Sørensen

Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power

Alireza Rezaniakolaei, Lasse Rosendahl, Kim Sørensen

AAU Energi

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

Abstract

Channel geometry has a strong influence on the heat transfer coefficient and cooling energy input in a heat sink. The net power output in a thermoelectric generator (TEG) can be defined as power generation minus the required cooling energy in TEG. This study aims to evaluate the net power generation in TEG for different size of hydraulic diameter of plate-fin heat sink and over a wide range of Reynolds number. The particular focus of this study is to find optimal Reynolds number in each considered channel hydraulic diameter and to explore optimal channel hydraulic diameter for maximum TEG net power output. Three-dimensional governing equations for the flow and the heat transfer and thermal-electrics are solved using the computational fluid dynamics (CFD) simulation environment. The results show that there is an optimal Reynolds number that provides maximum net power output in the TEG, and the maximum net power output occurs at smaller Reynolds number when the channel hydraulic diameter reduces.

Originalsprog	Engelsk
Titel	Proceedings of the 55th International Conference on Simulation and Modelling (SIMS 2014)
Antal sider	7
Forlag	Linköping University Electronic Press
Publikationsdato	9 okt. 2014
Sider	211-217
ISBN (Elektronisk)	978-91-7519-376-2
Status	Udgivet - 9 okt. 2014
Begivenhed	55th International Conference on Simulation and Modelling (SIMS 2014) - Aalborg, Danmark Varighed: 21 okt. 2014 → 22 okt. 2014

Konference

Konference	55th International Conference on Simulation and Modelling (SIMS 2014)
Land/Område	Danmark
By	Aalborg
Periode	21/10/2014 → 22/10/2014

Navn	Linköping Electronic Conference Proceedings
ISSN	1650-3686

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title = "Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power",

abstract = "Channel geometry has a strong influence on the heat transfer coefficient and cooling energy input in a heat sink. The net power output in a thermoelectric generator (TEG) can be defined as power generation minus the required cooling energy in TEG. This study aims to evaluate the net power generation in TEG for different size of hydraulic diameter of plate-fin heat sink and over a wide range of Reynolds number. The particular focus of this study is to find optimal Reynolds number in each considered channel hydraulic diameter and to explore optimal channel hydraulic diameter for maximum TEG net power output. Three-dimensional governing equations for the flow and the heat transfer and thermal-electrics are solved using the computational fluid dynamics (CFD) simulation environment. The results show that there is an optimal Reynolds number that provides maximum net power output in the TEG, and the maximum net power output occurs at smaller Reynolds number when the channel hydraulic diameter reduces.",

keywords = "Thermoelectric generator, Plate-fin heat sink, Geometry effect, Net power",

author = "Alireza Rezaniakolaei and Lasse Rosendahl and Kim S{\o}rensen",

year = "2014",

month = oct,

day = "9",

language = "English",

series = "Link{\"o}ping Electronic Conference Proceedings",

pages = "211--217",

booktitle = "Proceedings of the 55th International Conference on Simulation and Modelling (SIMS 2014)",

publisher = "Link{\"o}ping University Electronic Press",

note = "55th International Conference on Simulation and Modelling (SIMS 2014) ; Conference date: 21-10-2014 Through 22-10-2014",

}

Rezaniakolaei, A , Rosendahl, L & Sørensen, K 2014, Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power. i Proceedings of the 55th International Conference on Simulation and Modelling (SIMS 2014). Linköping University Electronic Press, Linköping Electronic Conference Proceedings, s. 211-217, 55th International Conference on Simulation and Modelling (SIMS 2014), Aalborg, Danmark, 21/10/2014. <http://www.ep.liu.se/ecp_home/index.en.aspx?issue=108>

Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power. / Rezaniakolaei, Alireza ; Rosendahl, Lasse ; Sørensen, Kim.
Proceedings of the 55th International Conference on Simulation and Modelling (SIMS 2014). Linköping University Electronic Press, 2014. s. 211-217 (Linköping Electronic Conference Proceedings).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power

AU - Rezaniakolaei, Alireza

AU - Rosendahl, Lasse

AU - Sørensen, Kim

PY - 2014/10/9

Y1 - 2014/10/9

N2 - Channel geometry has a strong influence on the heat transfer coefficient and cooling energy input in a heat sink. The net power output in a thermoelectric generator (TEG) can be defined as power generation minus the required cooling energy in TEG. This study aims to evaluate the net power generation in TEG for different size of hydraulic diameter of plate-fin heat sink and over a wide range of Reynolds number. The particular focus of this study is to find optimal Reynolds number in each considered channel hydraulic diameter and to explore optimal channel hydraulic diameter for maximum TEG net power output. Three-dimensional governing equations for the flow and the heat transfer and thermal-electrics are solved using the computational fluid dynamics (CFD) simulation environment. The results show that there is an optimal Reynolds number that provides maximum net power output in the TEG, and the maximum net power output occurs at smaller Reynolds number when the channel hydraulic diameter reduces.

AB - Channel geometry has a strong influence on the heat transfer coefficient and cooling energy input in a heat sink. The net power output in a thermoelectric generator (TEG) can be defined as power generation minus the required cooling energy in TEG. This study aims to evaluate the net power generation in TEG for different size of hydraulic diameter of plate-fin heat sink and over a wide range of Reynolds number. The particular focus of this study is to find optimal Reynolds number in each considered channel hydraulic diameter and to explore optimal channel hydraulic diameter for maximum TEG net power output. Three-dimensional governing equations for the flow and the heat transfer and thermal-electrics are solved using the computational fluid dynamics (CFD) simulation environment. The results show that there is an optimal Reynolds number that provides maximum net power output in the TEG, and the maximum net power output occurs at smaller Reynolds number when the channel hydraulic diameter reduces.

KW - Thermoelectric generator

KW - Plate-fin heat sink

KW - Geometry effect

KW - Net power

M3 - Article in proceeding

T3 - Linköping Electronic Conference Proceedings

SP - 211

EP - 217

BT - Proceedings of the 55th International Conference on Simulation and Modelling (SIMS 2014)

PB - Linköping University Electronic Press

T2 - 55th International Conference on Simulation and Modelling (SIMS 2014)

Y2 - 21 October 2014 through 22 October 2014

ER -

Effects of Channel Geometry and Coolant Fluid on Thermoelectric Net Power

Abstract

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