1. Numerical study on structure optimization and heat transfer characteristic of distributed pulsating flow heat exchanger.
- Author
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Chen, Lei, Zhang, Hongxin, Huang, Song, and Li, Jianjun
- Subjects
HEAT exchangers ,HEAT transfer ,COMPUTATIONAL fluid dynamics ,NUSSELT number ,TAGUCHI methods ,PIPE flow - Abstract
Distributed pulsating flow planar tube bundle heat exchanger (DPFPTB-HE) can improve heat transfer and have a high prospect of application in the industry. Computational fluid dynamics (CFD) software Fluent was utilized as an analysis tool, and the factors affecting heat transfer in heat exchangers were comprehensively studied based on the theory of fluid mechanics and heat transfer in this article. The local average surface Nusselt number(Nu
v ) evaluated the heat transfer performance. Results found that the DPFPTB-HE proposed in this paper has more uniform distribution of cold fluid in the shell domain and higher heat transfer efficiency in each layer of the tube bundle compared with the conventional planar tube bundle heat exchanger (PTB-HE). In this paper's single-factor analysis experimental session, the study showed that with the inlet velocity increases, Nuv increases; as the length of the branch pipe increases, Nuv decreases; branch pipe diameter increases, Nuv decreases. The results obtained Nuv by applying the optimal experimental parameters selected by the Taguchi method were 7.22% larger than the maximum value in the control group. The numerical result and methodology are beneficial for providing further insight into guiding the optimization of heat exchanger structure and promoting industrial progress. [ABSTRACT FROM AUTHOR]- Published
- 2022
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