Heat transfer enhancement by electrohydrodynamics in wavy channels

•The heat transfer process occurred in a wavy channel enhanced by electrohydrodynamics (EHD) is studied.•The mechanisms of the EHD-enhanced heat transfer in wavy channels differ from those in a straight channel.•An advantageous position for single electrode is proposed to be above the peak of wave i...

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Bibliographic Details
Published in:Applied thermal engineering 2024-01, Vol.236, p.121556, Article 121556
Main Authors: Wang, Yi-Bo, Huang, Ling-Feng, Lan, Ning, Wang, Shuo-Lin, Zhang, Ben-Xi, Yang, Yan-Ru, Wang, Xiao-Dong, Lee, Duu-Jong
Format: Article
Language:English
Subjects:
electrohydrodynamic
heat transfer
ionic wind
wavy channels
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Summary:•The heat transfer process occurred in a wavy channel enhanced by electrohydrodynamics (EHD) is studied.•The mechanisms of the EHD-enhanced heat transfer in wavy channels differ from those in a straight channel.•An advantageous position for single electrode is proposed to be above the peak of wave in a continuous wavy channel.•Strategies for aligning multielectrodes in the EHD-enhanced continuous or discontinuous wavy channels are proposed.•The design criteria are proposed for enhanced heat transfer performance in discontinuous wavy channels with multiple electrodes. The present study numerically investigated the heat transfer process occurred in a wavy channel enhanced by electrohydrodynamics (EHD). The mechanisms of the EHD-enhanced heat transfer in wavy channels differ from those in a straight channel. An advantageous position for single electrode is proposed to be above the peak of wave in a continuous wavy channel. Strategies for aligning multielectrodes in the EHD-enhanced continuous or discontinuous wavy channels are proposed based on interpretation on the simulation outcomes for single electrode. The ratio of horizontal section length to wave length (l/λ) significantly affects the heat transfer enhancement, unlike the case in continuous wavy channel (l/λ=0). The optimal electrode arrangement for continuous wavy channels is inappropriate for discontinuous wavy channels, the electrodes should be placed above the junction of wave and horizontal section. The design criteria are proposed for enhanced heat transfer performance in discontinuous wavy channels with multiple electrodes: the electrode spacing should be as large as possible to minimize the barrier effect when the ratio l/λ0.15.
ISSN:1359-4311
DOI:10.1016/j.applthermaleng.2023.121556