Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method
Thermoelectric generator is a solid-state energy converter which can convert waste heat directly into electricity. During the past decades, thermoelectric materials have been widely investigated whereas the integrated design of thermoelectric generators have been less studied. This paper proposes an...
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sg-ntu-dr.10356-1422632021-01-20T03:11:03Z Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method Ji, Dongxu Wei, Zhongbao Mazzoni, Stefano Mengarelli, Marco Rajoo, Srithar Zhao, Jiyun Pou, Josep Romagnoli, Alessandro School of Electrical and Electronic Engineering School of Mechanical and Aerospace Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Mechanical engineering Thermoelectric Generator Waste Heat Recovery Thermoelectric generator is a solid-state energy converter which can convert waste heat directly into electricity. During the past decades, thermoelectric materials have been widely investigated whereas the integrated design of thermoelectric generators have been less studied. This paper proposes and implements a framework for the design of thermoelectric generators, consisting of thermoelectric modules and heat exchangers, based on the Taguchi method. As compared with previous researches which optimize the thermoelectric module alone and assume fixed temperature or fixed heat fluxes for the thermoelectric modules, this work proposes a methodology to optimize the thermoelectric module and the heat exchanger together. Five design parameters (namely the height, the fill-ratio, the ratio of cross-sectional area of n-type material over p-type material of thermoelectric module, the length and the material of the heat exchanger) were analyzed for two different applications, waste heat recovery from marine and automotive engines. In order to perform the analysis, a L27 (35) orthogonal array was employed to assess all of the design parameters returning the maximum output power. By analysis of variance, it is found that the thermoelectric module height is the most important design parameter contributing for the 69.6% and 30.25% in automotive and marine application, respectively. And the optimal design parameter set are also determined in both applications. 2020-06-18T03:25:03Z 2020-06-18T03:25:03Z 2018 Journal Article Ji, D., Wei, Z., Mazzoni, S., Mengarelli, M., Rajoo, S., Zhao, J., . . . Romagnoli, A. (2018). Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method. Energy Conversion and Management, 172, 507-516. doi:10.1016/j.enconman.2018.06.016 0196-8904 https://hdl.handle.net/10356/142263 10.1016/j.enconman.2018.06.016 2-s2.0-85050127081 172 507 516 en Energy Conversion and Management © 2018 Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Thermoelectric Generator Waste Heat Recovery Ji, Dongxu Wei, Zhongbao Mazzoni, Stefano Mengarelli, Marco Rajoo, Srithar Zhao, Jiyun Pou, Josep Romagnoli, Alessandro Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method |
| description |
Thermoelectric generator is a solid-state energy converter which can convert waste heat directly into electricity. During the past decades, thermoelectric materials have been widely investigated whereas the integrated design of thermoelectric generators have been less studied. This paper proposes and implements a framework for the design of thermoelectric generators, consisting of thermoelectric modules and heat exchangers, based on the Taguchi method. As compared with previous researches which optimize the thermoelectric module alone and assume fixed temperature or fixed heat fluxes for the thermoelectric modules, this work proposes a methodology to optimize the thermoelectric module and the heat exchanger together. Five design parameters (namely the height, the fill-ratio, the ratio of cross-sectional area of n-type material over p-type material of thermoelectric module, the length and the material of the heat exchanger) were analyzed for two different applications, waste heat recovery from marine and automotive engines. In order to perform the analysis, a L27 (35) orthogonal array was employed to assess all of the design parameters returning the maximum output power. By analysis of variance, it is found that the thermoelectric module height is the most important design parameter contributing for the 69.6% and 30.25% in automotive and marine application, respectively. And the optimal design parameter set are also determined in both applications. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Ji, Dongxu Wei, Zhongbao Mazzoni, Stefano Mengarelli, Marco Rajoo, Srithar Zhao, Jiyun Pou, Josep Romagnoli, Alessandro |
| format |
Article |
| author |
Ji, Dongxu Wei, Zhongbao Mazzoni, Stefano Mengarelli, Marco Rajoo, Srithar Zhao, Jiyun Pou, Josep Romagnoli, Alessandro |
| author_sort |
Ji, Dongxu |
| title |
Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method |
| title_short |
Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method |
| title_full |
Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method |
| title_fullStr |
Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method |
| title_full_unstemmed |
Thermoelectric generation for waste heat recovery : application of a system level design optimization approach via Taguchi method |
| title_sort |
thermoelectric generation for waste heat recovery : application of a system level design optimization approach via taguchi method |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142263 |
| _version_ |
1690658293078294528 |