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Journal of Nuclear Science and Technology Volume 58, 2021 - Issue 9
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Article

Multi-objective optimization based on economic analysis for a printed circuit heat exchanger with application to Brayton cycle

Hong Xua College of Energy, Xiamen University, Xiamen, Fujian, China
,
Chengjie Duanb China Nuclear Power Technology Research Institute Co. Ltd, Shenzhen, China
,
Hao Dinga College of Energy, Xiamen University, Xiamen, Fujian, China
,
Wenhuai Lib China Nuclear Power Technology Research Institute Co. Ltd, Shenzhen, ChinaORCID Iconhttps://orcid.org/0000-0002-7853-2010
ORCID Icon,
Yaoli Zhanga College of Energy, Xiamen University, Xiamen, Fujian, China;c Fujian Research Center for Nuclear Engineering, Xiamen, Fujian, ChinaCorrespondence[email protected] [email protected]
ORCID Iconhttps://orcid.org/0000-0001-7377-1242
ORCID Icon &
Gang Honga College of Energy, Xiamen University, Xiamen, Fujian, China;c Fujian Research Center for Nuclear Engineering, Xiamen, Fujian, China
Pages 1038-1047 | Received 26 Nov 2020, Accepted 18 Mar 2021, Published online: 05 Apr 2021
 
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ABSTRACT

Performance improvement of the printed circuit heat exchanger (PCHE) plays a vital role in improving the comprehensive performance of the supercritical carbon dioxide (S-CO2) Brayton cycle. In this study, three design parameters are selected to improve the comprehensive performance of a PCHE, including channel type, channel number, and channel length. The thermal effectiveness and the total cost are selected as the optimization objectives. And the total cost is based on the capital cost and the operation cost. For the optimal design of a PCHE, a simplified model is applied to obtain the heat transfer coefficient and pressure drop. The Pareto-optimal solutions and the corresponding design variables have been obtained after the optimization procedure. Then, the optimal results on straight channel PCHE are compared with the zigzag channel PCHE. Finally, we discuss the results of PCHE with different types of channels, and the design point is reported. The results show that the straight channel PCHE performs a better comprehensive performance than zigzag channel PCHE when it works under a small heat transfer rate.

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Disclosure statement

No potential conflict of interest was reported by the authors.

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